Vital Signs - Elsevier Advantage
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1. Procedural Step Remove the probe from the patient s axilla Discard the probe cover by firmly pressing the ejection button while holding the probe over a regular waste container Do not allow your fingers to come in contact with the probe cover E Procedural Step Return the probe to its stored posi tion in the thermometer unit Return the thermom eter unit to its storage base Return the thermometer to its base 10 Procedural Step Sanitize your hands and chart the results Include the date the time and the axillary temperature reading The symbol A must be charted next to the temperature reading to tell the physician that an axillary reading was taken CHARTING EXAMPLE Date 10 M5 XX 9 30 a m T 97 4 F A 5 Martinez RMA PROCEDURE 19 3 Measuring Rectal Body Temperature Electronic Thermometer Outcome Measure rectal body temperature Equipment Supplies e Electronic thermometer e Rectal probe red collar e Tissues e Plastic probe cover e Lubricant 1 Procedural Step Sanitize your hands and assemble e Waste container e Disposable gloves the plug receptacle on the thermometer unit Insert the equipment 2 Procedural Step Remove the thermometer unit from its storage base Attach the rectal red collar probe to it This is accomplished by inserting the latching plug on the end of the coiled cord of the rectal probe to Bonewit_West_1506_Chapter 19_main2. The temporal pulse is located in front of the ear and just above eye level This site is used to measure pulse when the radial pulse is inaccessible It is also an easy access site to assess pulse in children Carotid The carotid pulse is located on the anterior side of the neck slightly to one side of the midline and is the best site to find a pulse quickly This site is used to measure pulse in children and adults during cardiac arrest The carotid site also is commonly used by individuals to monitor pulse during exercise Femoral The femoral pulse is in the middle of the groin This site is used to measure pulse in infants and children and in adults during cardiac arrest and to assess the status of circulation to the lower leg Popliteal The popliteal pulse is at the back of the knee and is detected most easily when the knee is slightly flexed This site is used to measure blood pressure when the brachial pulse is inaccessible and to assess the status of circulation to the lower leg Posterior Tibial The posterior tibial pulse is located on the inner aspect of the ankle just posterior to the ankle bone This site is used to assess the status of circulation to the foot Dorsalis Pedis The dorsalis pedis pulse is located on the upper surface of the foot between the first and second metatarsal bones This site is used to assess the status of circulation to the foot Assessment of Pulse The purpose of measuring pulse is t
3. Vital Signs LEARNING OBJECTIVES PROCEDURES Temperature 1 Define a vital sign 2 Explain the reasons for taking vital signs 3 Explain how body temperature is maintained 4 List examples of how heat is produced in the body 5 List examples of how heat is lost from the body 6 State the normal body temperature range and the average body temperature 7 List and explain factors that can cause variation in the body temperature 8 List and describe the three stages of a fever 9 List the sites for taking body temperature and explain why these sites are used Pulse 10 Explain the mechanism of pulse 11 List and explain the factors that affect the pulse rate 12 Identify a specific use for each of the eight pulse sites 13 State the normal range of pulse rate for each age group 14 Explain the difference between pulse rhythm and pulse volume Respiration 15 Explain the purpose of respiration 16 State what occurs during inhalation and exhalation 17 State the normal respiratory rate for each age group 18 List and explain the factors that affect the respiratory rate 19 Explain the difference between rhythm and depth of respiration 20 Describe the character of each of the following abnormal breath sounds crackles rhonchi wheezes and pleural friction rub Pulse Oximetry 21 Explain the purpose of pulse oximetry 22 State the normal oxygen saturation level of a healthy individual 23 List and describe the functions o
4. What causes COPD Cigarette smoking over a period of many years is the leading cause of COPD Other causes include air pollution and Chronic Obstructive Pulmonary Disea occupational exposure to irritating inhalants such as noxious dusts fumes and vapors What types of tests might the physician order Respiratory tests to diagnose COPD include various types of pulmonary function tests Examples of pulmonary function tests are spirometry lung volumes diffusion capacity arterial blood gas studies pulse oximetry and cardiopulmonary exercise tests What treatment might the physician prescribe Treatment is focused on improving breathing difficulties and may include bronchodilator drug therapy breathing exercises and oxygen therapy 1 Encourage patients with COPD to comply with the therapy prescribed by the physician 2 Provide the patient with information about smoking emphysema and chronic bronchitis Educational materi als are available from the American Lung Association the American Heart Association and the American Cancer Society m Table 19 6 Abnormal Breath Sounds Crackles Air moving through airways that contain fluid rales Rhonchi Thick secretions tumors or spasms that partially obstruct air flow through large upper airways Wheezes severely narrowed airways caused by partial obstruction in smaller bronchi and bronchioles common symptom of asthma Pleural friction rub Inflamed pleurae
5. reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication D PROCEDURE 19 8 Performing Pulse Oximetry Outcome Perform pulse oximetry Equipment Supplies e Handheld pulse oximeter e Reusable finger probe 1 Procedural Step Sanitize your hands PA Procedural Step Assemble the equipment Handle the probe carefully and perform the following a Carefully inspect the probe to ensure it opens and closes smoothly Inspect the probe windows LED and photodetector to ensure they are clean and free of lint I Disinfect the probe windows and surrounding platforms with an antiseptic wipe and allow them to dry Disinfect the probe with an antiseptic wipe c If necessary connect the probe to the cable EH Connect the cable to the monitor by plugging it into the port on the monitor Do not lift or carry the monitor by the cable Connect the cable to the monitor by plugging it into the port on the monitor Principle Misuse or improper handling of the probe could damage it Dirt or lint on the probe windows could interfere with proper light Bonewit_West_1506_Chapter 19_main indd 329 Antiseptic wipe transmission leading to an inaccurate reading Cross contamination between patients is prevented by disinfecting the probe Lifting the monitor by the
6. 1 Procedural Step Sanitize your hands and assemble the equipment 2 Procedural Step Locate the brachial pulse with the fingertips Place the cuff on the patients arm so that the inner bladder is centered over the brachial pulse site 3 Procedural Step Wrap the cuff smoothly and snugly around the patients arm and secure the end of it 4 Procedural Step Position the manometer for direct viewing and at a distance of no more than 3 feet 5 Procedural Step Locate the radial pulse with your fingertips 6 Procedural Step Close the valve on the bulb and pump air into the cuff until the pulsation ceases Procedural Step Release the valve at a moderate rate of 2 to 3 mm Hg per heartbeat while palpating the artery with your fingertips 8 Procedural Step Record the point at which the pulsa tion reappears as the palpated systolic pressure 9 Procedural Step Deflate the cuff completely and wait 15 to 30 seconds before checking the blood pressure MEDIGAL PRACTICE and the LAW y Measurement of vital signs is standard procedure for almost every patient in the physician s office Because vital sign measurements are performed so frequently the medical assistant may tend to minimize their importance Changes in vital signs may be the first indicator of disease or illness so meticulous attention must be paid to the performance and documentation of vital signs and to com parison of current measurements with past measurements for
7. Tachy cardia usually occurs when an individual is involved in vigorous physical exercise or is experiencing strong emo tional states Bradycardia is an abnormally slow heart rate less than 60 beats per minute A pulse rate of less than 60 beats per minute may occur normally during sleep Trained athletes often have low pulse rates If a patient exhibits tachycardia or bradycardia during radial pulse measurement the apical pulse should also be measured Pulse Rhythm and Volume In addition to measuring the pulse rate the medical assis tant should determine the rhythm and volume of the pulse The pulse rhythm denotes the time interval between heart beats a normal rhythm has the same time interval between beats Any irregularity in the hearts rhythm is known as a dysrhythmia also termed arrhythmia and is characterized Bonewit_West_1506_Chapter 19 _main indd 318 by unequal or irregular intervals between the heartbeats If a dysrhythmia is present the physician may order one or more of the following an apical radial pulse an electrocar diogram or Holter monitoring An apical radial pulse is performed to determine whether a pulse deficit is present Taking an apical radial pulse involves measuring the apical pulse at the same time as the radial pulse for a duration of 1 full minute A pulse deficit exists when the radial pulse rate is less than the apical pulse rate If one medical assistant measures an apical pulse rate o
8. cuff to zero If you could not obtain an accurate blood pressure reading wait 1 to 2 minutes before taking another measurement on the same arm Remove the earpieces of the stethoscope from your ears and care fully remove the cuff from the patient s arm Principle Venous congestion results when blood pressure is taken which alters a second reading if it is taken too soon on the same arm Procedural Step Sanitize your hands and chart the results Include the date the time and the blood pres sure reading Blood pressure is recorded using even numbers Make a notation in the patient s chart if the lying or standing position was used to take blood pressure Abbreviations that can be used are L lying and St standing Procedural Step Clean the earpieces and the chest piece of the stethoscope with an antiseptic wipe and replace the equipment properly CHARTING EXAMPLE Date 10 20 XX 2 30 p m BP 106 74 S Martinez RMA 6 6 2012 7 50 29 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Outcome Determine systolic pressure by palpation Equipment Supplies e Sphygmomanometer
9. sician to reduce his blood pressure The last recording in his chart indicates that Tyrone s blood pressure decreased from 180 112 mm Hg to 126 84 mm Hg however his blood pressure at this visit is 158 98 mm Hg Tyrone says that he has not been very good at taking his medication lately He says it is really hard to remember to take all those pills every day He also says that he felt just fine before being put on blood pressure pills but when he started taking them he felt awful He had to urinate more often when he got up fast he felt dizzy and he had some problems with headaches Tyrone says that he decided to cut back on his pills to see if these problems got better and sure enough they went away altogether Tyrone wants to know if there s anything he can do to lower his blood pressure other than taking pills m Tubing Binaurals Earpieces Chest piece A Diaphragm chest piece B Figure 19 19 A The parts of a stethoscope B Types of chest pieces 6 6 2012 7 50 21 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Stethoscope Chest Piece There are two types of chest pieces
10. systole and 70 mm during diastole Based on guidelines from the National Heart Lung and Blood Institute NHLBI a blood pressure reading of less than 120 80 mm Hg is classified as normal whereas a blood pressure reading of 120 80 is classified as prehyperten sion These guidelines were issued as a result of scientific studies showing that the risk of heart disease begins at a blood pressure reading lower than previously thought The NHLBI guidelines are outlined in Table 19 7 Blood pressure should be taken during every office visit to allow the physician to compare the patient s readings over time This is a good preventive measure in guarding against serious illness A single blood pressure reading taken on one occasion does not characterize an individual s blood pres sure accurately Several readings taken on different occa sions provide a good index of an individual s baseline blood pressure Blood pressure readings always should be interpreted using a patients baseline blood pressure An increase or decrease of 20 to 30 mm Hg in a patients baseline blood pressure is significant even if it is still within the normal accepted blood pressure range The most common condition that causes an abnormal blood pressure reading is hypertension Hypertension or high blood pressure results from excessive pressure on the walls of the arteries Hypertension is determined by a sus tained systolic blood pressure reading of 140 mm Hg
11. the higher the oxygen saturation of the blood The oxygen saturation level of most healthy individuals is 95 to 99 Because the air we breathe is only 21 saturated with oxygen it is unusual for an individual s hemoglobin to be fully or 100 saturated with oxygen Patients on supplemental oxygen sometimes have a reading of 100 however An oxygen saturation level of less than 95 typically results in an inadequate amount of oxygen reaching the tissues of the body although patients with chronic pulmo nary disease are sometimes able to tolerate lower saturation levels Respiratory failure resulting in tissue damage usually occurs when the oxygen saturation decreases to a level between 85 and 90 Cyanosis typically appears when an individual s oxygen saturation reaches a level of 75 and an oxygen saturation of less than 70 is life threatening A decrease in the oxygen saturation of the blood less than 95 is known as hypoxemia Hypoxemia can lead to a more serious condition known as hypoxia Hypoxia is defined as a reduction in the oxygen supply to the tissues of the body and if not treated it can lead to tissue damage and death The first symptoms of hypoxia include headache mental confusion nausea dizziness shortness of breath and tachycardia The tissues most sensitive to hypoxia are the brain heart pulmonary vessels and liver Purpose of Pulse Oximetry In the medical office pulse oximetry is often performed on
12. 20 breaths min A pulse with a decreased volume that feels weak and thin 6 6 2012 7 50 31 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication m Ti CHAPTER 19 Vital Signs ON THE WEB For information on hypertension American Heart Association www americanheart org National Heart Lung and Blood Institute www nhlbi nih gov Cardiology Channel www cardiologychannel com Hypertension Education Foundation www hypertensionfoundation org American Society of Hypertension www ash us org WebMD on Hypertension www webmd com hypertension high blood pressure default htm MedicineNet Hypertension www medicinenet com high_blood_pressure article htm Mayo Clinic Hypertension www mayoclinic com health high blood pressure ds00100 For information on lung disease American Lung Association www lungusa org Pulmonology Channel www pulmonologychannel com Lung Cancer Online www lungcanceronline org Women s Health Lung Disease www womenshealth gov FAQ lung disease cfm 5 access additional interactive activities and exercises to help you study and prepare for success B
13. FER Procedural Step Dispose of the probe cover by eject ing it into a regular waste container Dispose of the probe cover 12 Procedural Step Replace the thermometer in its storage base Principle The thermometer should be stored in its base to protect the probe lens from damage and dirt 13 Procedural Step Sanitize your hands 14 Procedural Step Chart the results Include the date the time the aural temperature reading and which ear was used to take the temperature AD right ear AS left ear When these abbreviations are used the physician knows that the temperature was taken through the aural route CHARTING EXAMPLE 10 N5 Xx 3 00 p m T 99 8 F AD S Martinez RMA Outcome Measure temporal artery body temperature Equipment Supplies e Temporal artery thermometer e Probe cover 1 Procedural Step Sanitize your hands and assemble the equipment 2 Procedural Step Greet the patient and introduce yourself Identify the patient and explain the procedure 3 Procedural Step Examine the probe lens of the tem poral artery thermometer to ensure that the lens is clean and intact Principle A dirty or damaged probe lens could result in a falsely low temperature reading EW Procedural Step Place a disposable cover over the probe If the thermometer does not use disposable covers clean the probe with an antiseptic wipe and allow it to dry Principle Applying a probe cover
14. He says he thinks he can take 2 seconds off his best time at this meet and he doesn t want anything to interfere with that Alex wants the physician to do whatever he can to make his shoulder better and thinks that a steroid injection and OxyContin might be the answer His vital signs are as follows temperature 98 5 F pulse 48 beats min respirations 12 breaths min and blood pressure 108 68 mm Hg Alex asks why his pulse is so slow and wants to Know if there is any medication that he can take to make it faster m Bonewit_West_1506_Chapter 19_main indd 320 referred to as tachypnea An abnormal decrease in the respiratory rate of less than 12 respirations per minute is known as bradypnea When measuring the respiratory rate the medical assistant should take into consideration the following factors R Age As age increases the respiratory rate decreases The respiratory rate of a child would be expected to be faster than that of an adult Table 19 5 provides a chart of the respiratory rates for various age groups Physical activity Physical activity increases the respi ratory rate temporarily Emotional states Strong emotional states temporar ily increase the respiratory rate Fever A patient with a fever has an increased respira tory rate One way that heat is lost from the body is through the lungs a fever causes an increased respira tory rate as the body tries to rid itself of excess heat Medic
15. In addition a cold chest piece could startle the patient resulting in an increase in pulse rate The earpieces should be directed forward to follow the direction of the ear canal which facilitates hearing Insert the earpieces into your ears with the earpieces directed slightly forward Bonewit_West_1506_Chapter 19_main indd 328 e Antiseptic wipe ER Procedural Step Listen for the heartbeat and count the number of beats for 30 seconds and multiply by 2 if the rhythm and volume are normal or if the apical pulse is being taken on an infant or child If abnormali ties occur in the rhythm or volume count the pulse for 1 full minute You will hear a lubb dupp sound through the stethoscope This sound is the closing of the heart s valves Each lubb dupp is counted as one beat A Count the number of beats for 30 seconds and multiply by 2 6 Procedural Step Sanitize your hands and chart the results Include the date the time and the apical pulse rate rhythm and volume 7 Procedural Step Clean the earpieces and the chest piece of the stethoscope with an antiseptic wipe CHARTING EXAMPLE Date 10 15 a m AP 68 Reg and strong 5 Martinez CMA AAMA 10 15 XX 6 6 2012 7 50 18 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s
16. a diaphragm which is a large flat disc and a bell which has a bowl shaped appear ance Figure 19 19 B The chest piece of a stethoscope consists of a diaphragm and a bell or just a diaphragm If a chest piece consists of a diaphragm and a bell the medical assistant must ensure that the desired piece is rotated into position before use Failure to do so would not allow the medical assistant to hear sound through the earpieces The diaphragm chest piece is more useful for hearing high pitched sounds such as lung and bowel sounds whereas the bell chest piece is more useful for hearing low pitched sounds such as those produced by the heart and vascular system Before using a stethoscope the medical assistant should ensure that it is in proper working condition Sphygmomanometer The sphygmomanometer is an instrument that measures the pressure of blood within an artery It consists of a SUAE He Hypertension Answer questions patients have about hypertension What is high blood pressure Blood pressure is the force of blood against the walls of the arteries High blood pressure also called hypertension means the pressure in the arteries is consistently above normal 140 90 mm Hg resulting in excessive pressure on the walls of the arteries Hypertension is the most common life threatening disease among Americans It is estimated that approximately 74 million adult Americans age 20 and older have high blood pressure and another 2
17. a reading To solve this problem the medical assistant should ask the patient to warm his or her fingers by rubbing the hands together The probe should never be attached to the finger of an arm to which an automatic blood pressure cuff is applied because blood flow to the finger would be cut off when the cuff inflates resulting in loss of the pulse signal 4 Ambient surrounding light Ambient light shining directly on the probe such as bright fluorescent light direct sunlight or an overhead examination light 6 6 2012 7 50 15 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 6 may result in an inaccurate reading This is because some of the ambient light may be picked up by the probes photodetector and alter the reading This problem can be corrected by one of the following turning off the light moving the patient s hand away from the light source or covering the probe with an opaque material such as a washcloth 5 Patient movement Patient movement is a common cause of an inaccurate reading Motion affects the ability of the light to travel from the LED to the pho tod
18. as a result of decreased metabolism and physical activity during sleep As metabolism and activity increase during the day the blood pressure rises 4 Emotional states Strong emotional states such as anger fear and excitement increase the blood pres sure If the medical assistant observes such a reaction an attempt should be made to calm the patient before taking his or her blood pressure 5 Exercise Physical activity temporarily increases the blood pressure To ensure an accurate reading a patient who has been involved in physical activity should be given an opportunity to rest for 20 to 30 minutes before blood pressure is measured 6 Body position The blood pressure of a patient who is in a lying or standing position is usually different from that measured when the patient is sitting For example the diastolic pressure of an individual in a sitting position is higher than his or her diastolic pres sure in a lying position A notation should be made on the patient s chart if the reading was obtained in any position other than sitting by using the following abbreviations L lying and Sz standing 7 Medications Many medications may increase or decrease the blood pressure Because of this factor it is important to record in the patient chart all pre scription and over the counter medications that the patient is taking 8 Other factors Other factors that may increase the blood pressure include pain a recent meal c
19. as a digital display on the screen Make a mental note of the temperature reading Procedural Step Gently remove the probe from the rectum in the same direction as it was inserted Avoid touching the probe cover Discard the probe cover by firmly pressing the ejection button while holding the probe over a regular waste container Return the probe to its stored position in the thermometer unit Return the thermometer unit to its storage base Principle Fecal material is not considered regulated medical waste the probe can be discarded in a regular waste container Procedural Step Wipe the patients anal area with tissues to remove excess lubricant Dispose of the tissues in a regular waste container Principle Wiping the anal area makes the patient more comfortable Procedural Step Remove gloves and sanitize your hands Chart the results Include the date the time and the rectal temperature reading The symbol R must be charted next to the temperature reading to tell the physician that a rectal reading was taken CHARTING EXAMPLE Date 10 N5 xXx 11 15 a m T 99 8 F R 9 Martinez RMA 6 6 2012 7 50 03 PM ado ete LCE LO fe To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online
20. between the body cells and the blood is known as internal respiration Control of Respiration The medulla oblongata located in the brain is the control center for involuntary respiration A buildup of carbon dioxide in the blood sends a message to the medulla which triggers respiration to occur automatically To a certain extent respiration is also under voluntary control An individual can control respiration during activi ties such as singing laughing talking eating and crying Voluntary respiration is ultimately under the control of the medulla oblongata The breath can be held for only a certain length of time after which carbon dioxide begins to build up in the body resulting in a stimulus to the medulla that causes respiration to occur involuntarily Small children may voluntarily hold their breath during a temper tantrum A parent who does not understand the principles of Bonewit_West_1506_Chapter 19_main indd 319 il Safely for your age The MHR of a 40 year old person is calculated as follows 220 40 years old 180 MHR 2 Determine the lower end of your THR range by multiplying your MHR by 0 6 For our example 180 x 0 60 108 low end of THR 3 Determine the upper end of your THR range by multiplying your MHR by 0 8 For our example 180 x 0 80 144 upper end of THR Always exercise within your THR range The 40 year old person in our example should exercise with a THR between 108 and 144 Ho
21. blood pressure readings for various age groups 2 Gender After puberty women usually have a lower blood pressure than men of the same age After meno pause women usually have a higher blood pressure than men of the same age Table 19 7 Classification of Blood Pressure for Adults Age 18 and Older Normal Less than 120 Prehypertension 120 139 Hypertension Stage 1 140 159 otage 2 160 or higher and Less than 80 or 80 89 or 90 99 or 100 or higher From National Heart Lung and Blood Institute Seventh report of the Joint National Committee on Detection Evaluation and Treatment of High Blood Pressure Bethesda Md NIH Publication No 03 5231 May 2003 U S Department of Health and Human Services Based on the average of two or more properly measured seated blood pressure readings taken at each of two or more visits Bonewit_West_1506_Chapter 19_main indd 331 6 6 2012 7 50 20 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication 3 Diurnal variations Fluctuations in an individual s blood pressure are normal during the course of a day When one awakens the blood pressure is lower
22. each patient Most patients want to know their vital signs especially their blood pressure or temperature if febrile Although the patient owns the information that you collect be aware that you may not give Bonewit_West_1506_Chapter 19_main indd 343 D PROCEDURE 19 10 Determining Systolic Pressure by Palpation Release the valve while palpating the radial artery my this information to family members without the patient s consent some offices have a policy that indicates specific information that the medical assistant can give the patient some physicians prefer to disclose this information themselves and discuss it with their patients Often measurement of vital signs is the first contact patients have with the medical assistant The most important factor in determining whether a patient will sue is not the skill of the prac titioner but the level of rapport with the patient In everything you do convey your caring and concern to every patient m 6 6 2012 7 50 30 PM OL GHE 4YuNds00d To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication 344 CHAPTER 19 Vital Signs What Would You Do W
23. emotional states such as anxiety fear excitement and anger temporarily increase the pulse rate 5 Metabolism Increased body metabolism such as occurs during pregnancy increases the pulse rate Fever Fever increases the pulse rate 7 Medications Medications may alter the pulse rate For example digitalis decreases the pulse rate and epinephrine increases it ON Pulse Sites The pulse is felt most strongly when a superficial artery is held against a firm tissue such as bone The locations of Table 19 4 Pulse Rates of Various Age Groups Infant birth to 1 yr 120 160 140 Toddler 1 3 yr 90 140 As Preschool child 80 110 95 3 6 yr school age child 75 105 90 6 12 yr Adolescent 12 18 yr 60 100 80 Adult after 18th yr 60 100 80 Adult after 60th yr 67 80 74 Well trained athletes 40 60 50 From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Bonewit_West_1506_Chapter 19_main indd 316 What Would You Do W Z Case Study 1 Marcela Mason comes in with Olivia her 5 year old daughter Olivia has had a fever and sore throat for the past 2 days Olivia s aural temperature is taken in her left ear and it measures 103 3 F Mrs Mason says that she has an ear thermometer at home but when she took Olivia s temperature with it the readings were always below 97 F She knew that could not be right because Olivia felt so warm Mrs Mason would like t
24. fingernail may interfere with proper light transmission through the finger leading to an inaccurate reading 7 Procedural Step Check to ensure that the patient s fingertip is clean If it is dirty cleanse the site with soap and water and allow it to dry Ensure that the patient s finger is not cold If it is cold ask the patient to rub his or her hands together Principle Oils dirt or grime on the finger can inter fere with proper light transmission through the finger leading to an inaccurate reading Sometimes patients with cold fingers may have enough constriction of the capillaries that it interferes with obtaining a reading 8 Procedural Step Ensure that ambient light does not interfere with the measurement Position the probe securely on the fingertip as follows 8 6k 4uNdsI0 d Continued 6 6 2012 7 50 18 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication i i Li cc LLJ cc A EM Ensure that the probe window is fully covered by placing the finger over the LED window with the fleshy tip of the finger covering the window The tip of the finger should t
25. high blood pressure It is important to use an automated device that has undergone a formal clinical validation process to assess its accuracy A current list of clinically validated automated blood pressure devices can be found at the following web sites British Hypertension Society www bhsoc org and Bonewit_West_1506_Chapter 19_main indd 337 audible sounds Do not allow the chest piece to touch the cuff to prevent extraneous sounds from being picked up which could interfere with an accurate measurement 13 Release the pressure at a moderate steady rate Release the pressure in the cuff at a rate of 2 to 3 mm Hg sec to ensure an accurate blood pressure measurement Releas ing the pressure too slowly is uncomfortable for the patient and could cause a falsely high diastolic reading Releasing the pressure too quickly could cause a falsely low systolic reading 14 Avoid venous congestion If you need to take the blood pressure in the same arm again wait 1 to 2 minutes to allow blood trapped in the veins venous congestion to be released Venous congestion can result in a falsely high systolic reading and a falsely low diastolic reading 15 Measure and record the blood pressure in both arms during the initial blood pressure assessment of a new patient There may normally be a difference of 5 to 10 mm Hg between the two arms During return visits the blood pressure should be measured in the arm with the higher initial reading
26. in print This proof copy is the copyright property of the publisher and is confidential until formal publication Highlight on Stethoscopes The stethoscope was first introduced in the 1800s by a French physician named Ren Laennec This early stethoscope consisted of a simple wooden tube with a bell shaped opening at one end The selection of a stethoscope is an individual decision One hears sounds differently when using different stethoscopes The primary consideration in choosing a stethoscope should be that it is well made and fits well in your ears Stethoscopes are available from uniform shops and medical supply companies The usual length of tubing on a stethoscope is 12 to 16 inches 30 to 40 cm but you may prefer the longer 22 inch tubing An argument against long tubing is that it transmits sound less effi ciently Research has shown however that 6 to 8 additional inches of tubing do not significantly alter the transmission of most sounds The stethoscope should have metal binaurals The binaurals should allow you to angle the earpieces firmly to follow the direc tion of your ear canal Binaurals that are too tight are uncomfort able and binaurals that are too loose do not allow you to hear as well as you should The earpieces should fit comfortably and snugly in the ear canal If you can understand what someone is saying in the same room they are too loose which would interfere with effective auscultation Some steth
27. indd 308 the probe into the face of the thermometer Principle The rectal probe is color coded with a red collar for ease in identifying it Procedural Step Greet the patient and introduce yourself Identify the patient and explain the 6 6 2012 7 50 01 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 3 Measuring Rectal Body Temperature Electronic Mais anale pat i cemelelalme procedure If a patient is a child or an adult provide him or her with a patient gown Instruct the patient to remove enough clothing to provide access to the anal area and to put on the gown with the opening in the back If the patient is an infant ask the parent to remove his or her diaper Principle It is important to explain what you will be doing because body temperature may be higher in a fearful or apprehensive patient The patient gown pro vides the patient with modesty and comfort Procedural Step Apply gloves Position the patient Adults and children Position the patient in the Sims position and drape the patient to expose only the anal area Infants Position the infant
28. infection control The cover must be seated securely on the probe to activate the thermometer Place a cover on the probe Bonewit_West_1506_Chapter 19_main indd 310 Waste container EN Procedural Step Pull the probe straight up from the cover box Look at the digital display to see if the thermometer is ready to use When the thermometer is ready it displays the word READY Procedural Step Hold the thermometer in your dominant hand If you are right handed you should take the temperature in the patients right ear If you are left handed take the temperature in the patient s lett ear Principle Taking the temperature with the dominant hand assists in the proper placement of the probe in the patients ear Procedural Step Straighten the patients external ear canal with your nondominant hand as follows Adults and Children Older Than 3 Years Old Gently pull the ear auricle upward and backward Children Younger Than 3 Years Old Gently pull the ear pinna downward and backward Principle Straightening the ear canal allows the probe sensor to obtain a clear picture of the tympanic membrane resulting in an accurate temperature measurement 6 6 2012 7 50 04 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to pub
29. is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PULSE Mechanism of the Pulse When the left ventricle of the heart contracts blood is forced from the heart into the aorta which is the major trunk of the arterial system of the body The aorta is already filled with blood and must expand to accept the blood being pushed out of the left ventricle This creates a pulsating wave that travels from the aorta through the walls of the arterial system This wave known as the pulse can be felt as a light tap by an examiner The pulse rate is measured by counting the number of taps or beats per minute The heart rate can be determined by taking the pulse rate Factors Affecting Pulse Rate Pulse rate can vary depending on many factors The medical assistant should take each of the following into consider ation when measuring pulse 1 Age The pulse varies inversely with age As age increases the pulse rate gradually decreases Table 19 4 lists the pulse rates of various age groups 2 Gender Women tend to have a slightly faster pulse rate than men 3 Physical activity Physical activity such as jogging and swimming increases the pulse rate temporarily 4 Emotional states Strong
30. is dark red in color is low in oxygen oxygen poor and absorbs more of the red light The computer of the oximeter compares and calcu lates the light transmitted from the oxygen rich hemoglobin and the oxygen poor hemoglobin and from this ratio is able to determine the oxygen saturation of the patient s hemoglobin This measurement is converted to a percentage and is displayed as a digital readout on the screen of the monitor Because the pulse oximeter measures the oxygen saturation of peripheral capillaries the abbreviation SpO saturation of peripheral oxygen is used to record the reading A more complete but invasive measurement of oxygen saturation is arterial blood gas analysis which requires drawing a blood specimen from an artery The abbreviation for this type of arterial oxygen saturation measurement is SaO saturation of arterial oxygen Interpretation of Results The pulse oximetry reading represents the percentage of hemoglobin that is saturated filled with oxygen Each molecule of hemoglobin can carry four oxygen molecules If 100 molecules of hemoglobin were fully saturated with oxygen they would be carrying 400 molecules of oxygen and the oxygen saturation reading would be 100 If these same 100 molecules of hemoglobin were carrying only 360 Bonewit_West_1506_Chapter 19_main indd 323 molecules of oxygen however the oxygen saturation reading would be 90 The more hemoglobin that is saturated with oxygen
31. is lost from the body through the urine and feces and in water vapor from the lungs Perspiration also contributes to heat loss Perspiration is the excretion of moisture through Radiation the pores of the skin When the moisture evaporates heat is released and the body is cooled Radiation conduction and convection all cause loss of heat from the body Radiation is the transfer of heat in the form of waves body heat is continually radiating into cooler surroundings Conduction is the transfer of heat from one object to another by direct contact heat can be transferred by conduction from the body to a cooler object it touches Convection is the transfer of heat through air currents cool air Currents can cause the body to lose heat These processes are illustrated in Figure 19 2 HEAT LOSS Urine feces and moisture droplets from the lungs Perspiration contractions Conduction Cell metabolism Convection Fever Radiation Strong emotional states HEAT PRODUCTION Voluntary muscle contractions Involuntary muscle Figure 19 1 Body temperature represents a balance between the heat produced in the body and the heat lost from the body Convection Conduction Figure 19 2 Heat loss from the body With radiation the body gives off heat in the form of waves to the cooler outside air With conduction the chair becomes warm as heat is transferred from the individual to the chair With convection air currents move he
32. of the air in the bladder Two types of sphygmomanometers are used aneroid and mercury The aneroid sphygmomanometer is lightweight and portable but the mercury sphygmomanometer is more accurate Aneroid Sphygmomanometer The aneroid sphygmomanometer Figure 19 20 has a manometer gauge with a round scale The scale is calibrated in millimeters with a needle that points to the calibrations Figure 19 21 To ensure an accurate reading the needle must be positioned initially at zero The manometer must be placed in the correct position for proper viewing The medical assistant should be no farther than 3 feet from the scale on the gauge of the manometer and the manometer i f H j Uncontrollable Risk Factors e Heredity A family history of high blood pressure increases an individual s risk of developing high blood pressure e Ethnicity Research has shown that more black than white Americans develop high blood pressure e Age Blood pressure normally increases as one grows older High blood pressure occurs most often in individuals over the age of 35 Men tend to develop high blood pressure most often between the ages of 35 and 55 whereas women are more likely to develop it after menopause Controllable Risk Factors e Obesity Individuals with a BMI body mass index of 30 or higher are more likely to develop high blood pressure e Sodium intake Sodium found in salt and processed canned and most snack foods does not
33. on Alex s request for a steroid injection or OxyContin Made sure to chart the information so that the physician could handle the situation Q Did not criticize Alex for putting a swim meet before his health Bonewit_West_1506_Chapter 19_main indd 344 What Would You Do What Would You Not Do Review Sergio s response and place a checkmark next to the information you included in your response List the additional infor mation you included in your response Case Study 3 Page 332 What Did Sergio Do Q Empathized with Tyrone about having to take so many pills suggested that he get a daily pill container to help him remember Q Stressed to Tyrone the importance of taking his blood pressure medication Explained to him that high blood pressure is a silent disease He may feel fine but damage to his body organs can still be taking place if he does not take his pills Q Gave Tyrone a brochure about high blood pressure and went over the long term effects of hypertension and lifestyle changes that could help lower blood pressure Q Encouraged Tyrone to call the office when he experiences side effects from medications because the physician may be able to do something to help What Did Sergio Not Do Q Did not tell him it was all right to discontinue his medication What Would You Do What Would You Not Do Review Sergio s response and place a checkmark next to the information you included in your response List the additio
34. on his or her abdomen Principle Gloves protect the medical assistant from microorganisms in the anal area and feces Correct positioning allows clear viewing of the anal opening and provides for proper insertion of the thermometer Draping reduces patient embarrassment and provides warmth EN Procedural Step Grasp the probe by the collar and remove it from the face of the thermometer Slide the probe into a disposable plastic probe cover until it locks into place Apply a lubricant to the tip of the probe cover up to a level of 1 inch Principle A ubricated thermometer can be inserted more easily and does not irritate the delicate rectal mucosa Apply a lubricant to the tip of the probe cover H Procedural Step Instruct the patient to lie still Sepa rate the buttocks to expose the anal opening and gently insert the thermometer probe approximately 1 inch into the rectum of an adult inch in children and inch in infants Do not force insertion of the probe Hold the probe in place until the temperature registers Principle The probe must be inserted correctly to prevent injury to the tissue of the anal opening The Bonewit_West_1506_Chapter 19_main indd 309 probe should be held in place to prevent damage to the rectal mucosa Gently insert the probe 1 4 inch into the rectum 7 Procedural Step Hold the probe in place until you 10 hear the tone At that time the patient s temperature appears
35. or greater or a sustained diastolic reading of 90 mm Hg or greater See Table 19 7 for the NHLBI classifications for hypertension Hypotension or low blood pressure results from reduced pressure on the arterial walls Hypotension is determined by a blood pressure reading of less than 95 60 mm Hg Pulse Pressure The difference between systolic and diastolic pressures is the pulse pressure It is determined by subtracting the smaller number from the larger If the blood pressure is 110 70 mm Hg the pulse pressure would be 40 mm Hg A pulse pres sure between 30 and 50 mm Hg is considered to be within normal range Factors Affecting Blood Pressure Blood pressure does not remain at a constant value Numer ous factors may affect it throughout the course of the day An understanding of these factors helps to ensure an accu rate interpretation of blood pressure readings 1 Age Age is an important consideration when deter mining whether a patient s blood pressure is normal As age increases the blood pressure gradually increases A 6 year old child may have a normal reading of 90 60 mm Hg whereas a young healthy adult may have a blood pressure reading of 116 76 mm Hg and it would not be unusual for a 60 year old man to have a reading of 130 90 mm Hg As an individual gets older there is a loss of elasticity in the walls of the blood vessels causing this increase in pressure to occur Table 19 8 is a chart of the average optimal
36. or cleaning the probe with an antiseptic wipe provides infection control Bonewit_West_1506_Chapter 19_main indd 312 Antiseptic wipe e Waste container Place a disposable probe cover on the thermometer 6 6 2012 7 50 06 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 5 Measuring Temporal Artery Body Temperature cont d T Procedural Step Select an appropriate site the right or left side of the forehead can be used The site selected should be fully exposed to the environment Principle The temporal artery is located in the center of each side of the forehead approximately 2 mm below the surface of the skin Procedural Step Prepare the patient by brushing away any hair that is covering the side of the forehead to be scanned and the area behind the earlobe on the same side Principle Hair covering the area to be measured traps body heat resulting in a falsely high temperature reading Procedural Step Hold the thermometer in your dominant hand with your thumb on the scan button EN Procedural Step Gently position the probe of the 9 thermom
37. or in print This proof copy is the copyright property of the publisher and is confidential until formal publication T L m Ld cc LL cc A PROCEDURE 19 4 Measuring Aural Body Temperature Tympanic Membrane Thermometer Outcome Measure aural body temperature Equipment Supplies e Tympanic membrane thermometer Probe cover 1 Procedural Step Sanitize your hands and assemble the equipment Principle Your hands should be clean and free from contamination Procedural Step Greet the patient and introduce yourself Identify the patient and explain the procedure Principle It is important to explain what you will be doing because body temperature may be higher in a fearful or apprehensive patient Procedural Step Remove the thermometer from its storage base Ensure that the probe lens is clean and intact To clean the lens gently wipe its surface with an antiseptic wipe and immediately wipe it dry with a cotton swab After cleaning allow at least 5 minutes before taking a temperature Principle A dirty or damaged probe lens could result in a falsely low temperature reading E Procedural Step Attach a cover on the probe by pressing the probe tip straight down into the cover box You will be able to see and feel the cover snap securely into place on the probe This procedure auto matically turns on the thermometer Principle The probe cover protects the lens and pro vides
38. patients complaining of respiratory problems e g dyspnea A decreased pulse oximetry reading along with further testing and the patient s clinical signs and symptoms assists the physician in proper diagnosis and treatment which may include drug therapy and oxygen therapy Conditions that can cause a decreased SpO value hypoxemia include the following e Acute pulmonary disease e g pneumonia Chronic pulmonary disease e g emphysema asthma bronchitis e Cardiac problems e g congestive heart failure coronary artery disease In addition to assisting the physician in diagnosing a patients condition pulse oximetry is used to assess the following e Effectiveness of oxygen therapy e Patients tolerance to activity e Effectiveness of treatment e g bronchodilators e Patients tolerance to analgesia and sedation In the medical office pulse oximetry is most often used as a spot check measurement in other words as a single measurement of oxygen saturation Occasionally pulse oximetry may be used for the short term continuous moni toring of a patient in the office for the following to monitor a patient experiencing an asthmatic attack or to monitor a sedated patient during minor office surgery 6 6 2012 7 50 13 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and t
39. protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 1 Measuring Oral Body Temperature Electronic Mats aaale pat i cemelelalie Procedural Step Remove the probe from the patient s mouth Discard the probe cover by firmly pressing the ejection button while holding the probe over a regular Discard the probe cover by pressing the ejection button waste container Do not allow your fingers to come in contact with the probe cover Principle The probe cover should not be touched so as to prevent the transfer of microorganisms from the patient to the medical assistant Saliva is not considered regulated medical waste the probe can be discarded in a regular waste container Procedural Step Return the probe to its stored posi tion in the thermometer unit Return the thermometer unit to its storage base Principle Returning the probe to the unit automati cally turns off and resets the thermometer Procedural Step Sanitize your hands and chart the results Include the date the time and the temperature reading Principle Patient data must be recorded properly to
40. result ing in an inaccurate temperature reading 5 Procedural Step Grasp the probe by the collar and remove it from the face of the thermometer Slide the probe into a disposable probe cover until it locks into place Procedural Step Take the patient s temperature by placing the probe in the center of the patient s axilla Instruct the patient to hold the arm close to the body Hold the arm in place for small children and other patients who cannot maintain the position themselves Principle Interference from outside air currents is reduced when the arm is held in the proper position Continued 6 6 2012 7 49 59 PM J J T mi J m J N To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 2 Measuring Axillary Body Temperature PROCEDURE19 3 Electronic Mats aaale oat i cemelelaime Place the probe in the center of the patient s axilla 7 Procedural Step Hold the probe in place until you hear the tone At that time the patient s temperature appears as a digital display on the screen Make a mental note of the temperature reading
41. rubbing together Dry or wet intermittent sounds that vary in pitch this sound can be duplicated by rubbing hair together next to ear Deep low pitched rumbling sound more audible during expiration Continuous high pitched whistling musical sounds heard during inspiration and expiration High grating sound similar to rubbing leather pieces together heard on inspiration and expiration From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Audible only through a stethoscope PULSE OXIMETRY Pulse oximetry is a painless and noninvasive procedure used to measure the oxygen saturation of hemoglobin in arterial blood Hemoglobin is a complex compound found in red blood cells that functions in transporting oxygen in the body Pulse oximetry provides the physician with infor mation on a patient s cardiorespiratory status in particular the amount of oxygen being delivered to the tissues of the body The procedure for performing pulse oximetry is pre sented in Procedure 19 8 A pulse oximeter is the device used to measure and display the oxygen saturation of the blood It is a computer ized device that consists of a two sided cliplike probe con nected by a cable to a monitor Figure 19 14 A pulse Bonewit_West_1506_Chapter 19_main indd 322 oximeter also measures the patient s pulse rate in beats per minute A constant pitched audible beep is emitted with each pulse beat Asses
42. the Association for the Advancement of Medical Instru mentation www aami org An automated oscillometric device uses an electronic sensor to measures oscillations from the wall of the brachial artery as the cuff gradually deflates An oscillation is a back and forth movement that occurs in the brachial artery as the pulse wave travels through it The point of maximum oscillation corresponds to the mean arterial pressure which is an overall index of an individual s blood pressure A com puter in the device then uses this information to calculate the systolic blood pressure and the diastolic blood pressure Results are then displayed on a screen The automated blood pressure procedure takes approximately 30 seconds to complete from start to finish The medical assistant must make sure to follow the man ufacturer s instructions for the particular brand and model of automated device used these instructions are outlined in the user manual that accompanies the device Many of the principles for the accurate measurement of blood pressure using an automated device are the same as those for manual measurement of blood pressure refer to Prevention of Errors in Blood Pressure Measurement The device should be cali brated periodically according to the manufacturer s recom mendations Automated oscillometric devices offer certain advantages and disadvantages described as follows Advantages 1 The device can automatically determine how muc
43. 2 7 50 15 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 G Measuring Pulse and Respiration cont d b Applying too much pressure or not enough pressure Vary the depth of your hold until you can feel the pulse Principle A normal pulse can be felt with moderate pressure The pulse cannot be felt if not enough pressure is applied whereas too much pressure applied to the radial artery closes it off and no pulse is felt EH Procedural Step Count the pulse for 30 seconds and make a mental note of this number Note the rhythm and volume of the pulse If abnormalities occur in the rhythm or volume count the pulse for 1 full minute Principle A onger time ensures an accurate assess ment of abnormalities Count the pulse for 30 seconds H Procedural Step After taking the pulse continue to hold three fingers on the patients wrist with the same amount of pressure and measure the respirations This helps to ensure that the patient is unaware that respira tions are being monitored Principle If the patient is aware that respiration is being measured the breathing m
44. 5 million have blood pressure in the prehypertension range Prehypertension is a reading higher than 120 80 but below 140 90 The incidence of hypertension in the United States has increased dramatically as a result of an aging population and an increased incidence of obesity What are the symptoms of high blood pressure Approximately 20 of individuals who have high blood pressure are unaware of it because there are few or no symptoms and as a result an individual with hypertension may go undiagnosed for many years If symptoms do occur they may include one or more of the following headaches dizziness flushed face fatigue epistaxis nosebleed excessive perspiration heart pal pitations frequent urination and leg claudication cramping in the legs with walking The only way to Know for sure whether you have high blood pressure is to have it checked regularly What causes high blood pressure In 90 to 95 of cases the precise cause of high blood pres sure is unknown This type of hypertension is known as essen tial or primary hypertension Certain factors seem to increase the risk of developing essential hypertension however these include the following Bonewit_West_1506_Chapter 19_main indd 333 manometer an inner inflatable bladder surrounded by a covering known as the cuff and a pressure bulb with a control valve to inflate and deflate the inner bladder The manometer contains a scale for registering the pressure
45. 9 1 Measuring Oral Body Temperature Electronic Thermometer Outcome Measure oral body temperature Equipment Supplies e Electronic thermometer e Oral probe blue collar 1 Procedural Step Sanitize your hands and assemble the equipment PA Procedural Step Remove the thermometer unit from its storage base and attach the oral blue collar probe to it This is accomplished by inserting the latching plug at the end of the coiled cord of the oral probe to the plug receptacle on the thermometer unit until it clicks into place Insert the probe into the face of the thermometer Principle The oral probe is color coded with a blue collar for ease in identifying it Bonewit_West_1506_Chapter 19_main indd 305 Disposable Chemical Single Use Thermometers The disposable chemical single use thermometer has small chemical dots at one end that respond to body heat by changing color Figure 19 8 A and B Each thermom eter comes in its own wrapper The protective wrapper must be peeled back to expose the handle of the thermometer The thermometer is removed from the wrapper by pulling on the handle taking care not to touch the dotted area The thermometer is inserted under the tongue and is left in place for the duration of time recommended by the manufacturer generally 60 seconds After removal of the thermometer the dots are observed for a change in color The thermom eter is read by noting the highest reading among the dots tha
46. CHAPTER OUTLINE INTRODUCTION TO VITAL SIGNS Temperature Regulation of Body Temperature Body Temperature Range Assessment of Body Temperature Pulse Mechanism of the Pulse Assessment of Pulse Respiration Mechanism of Respiration Assessment of Respiration Pulse Oximetry Assessment of Oxygen Saturation Blood Pressure Mechanism of Blood Pressure Assessment of Manual Blood Pressure KEY TERMS adventitious ad ven TISH us sounds afebrile un FEB ril eupnea YOOP nee uh exhalation EKS hal AY shun alveolus al VEE oh lus Fahrenheit FAIR en hite scale antecubital AN tih CYOO bi tul space febrile FEH bril antipyretic AN tin pye REH tik fever aorta ay OR tuh frenulum linguae FREN yoo lum apical radial pulse LIN gway apnea AP nee uh hyperpnea HYE perp NEE uh pulse volume axilla aks ILL uh hyperpyrexia HYE per pye REK see uh radiation RAY dee AY shun bounding pulse hypertension HYE per TEN shun Sa02 bradycardia BRAY dee CAR dee uh hyperventilation HYE per ven til AY shun sphygmomanometer bradypnea BRAY dip NEE uh hypopnea hye POP nee uh SFIG moe man OM uh ter Celsius SELL see us scale hypotension HYE poe TEN shun Sp02 conduction kon DUK shun hypothermia HYE poe THER mee uh stethoscope STETH uh skope convection kon VEK shun hypoxemia hye pok SEE mee uh systole SIS toh lee crisis hypoxia hye POKS ee uh systolic sis TOL ik pressure cyanosis sye an OH sus inhalation IN h
47. F is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication BLOOD PRESSURE Mechanism of Blood Pressure Blood pressure BP is a measurement of the pressure or force exerted by the blood on the walls of the arteries in which it is contained Each time the ventricles contract blood is pushed out of the heart and into the aorta and pulmonary aorta exerting pressure on the walls of the arter ies This phase in the cardiac cycle is known as systole and it represents the highest point of blood pressure in the body or the systolic pressure The phase of the cardiac cycle in which the heart relaxes between contractions is referred to as diastole The diastolic pressure recorded during dias tole is lower because the heart is relaxed Contraction and relaxation of the heart result in two different pressures systolic and diastolic Interpretation of Blood Pressure Blood pressure measurement is expressed as a fraction The numerator is the systolic pressure and the denominator is the diastolic pressure The standard unit for measuring blood pressure is millimeters of mercury mm Hg A blood pressure reading of 110 70 mm Hg means that there was enough force to raise a column of mercury 110 mm during
48. affeine smoking and bladder distention Assessment of Manual Blood Pressure The equipment needed to measure manual blood pressure includes a stethoscope and a sphygmomanometer The stethoscope amplifies sounds produced by the body and allows the medical assistant to hear them Table 19 8 Average Optimal Blood Pressure for Age Newborn 6 6 Ib 40 mean 1 mo 85 54 1 yr 95 65 6 yr 105 65 10 13 yr 110 65 14 17 yr 120 75 Adult Less than 120 80 From National High Blood Pressure Education Program NHBPEP National Heart Lung and Blood Institute National Institutes of Health The seventh report of the Joint National Committees on Detection Evaluation and Treatment of High Blood Pressure JAMA 239 2560 2003 In children and adolescents hypertension is defined as blood pressure that is on repeated measurement at the 95th percentile or greater adjusted for age height and gender NHBPEP 1997 Bonewit_West_1506_Chapter 19_main indd 332 Stethoscope The most common type of stethoscope used in the medical office is the acoustic stethoscope It consists of four parts earpieces sidepieces known as binaurals plastic or rubber tubing and a chest piece Figure 19 19 A What Would You Do What Wou Case Study 3 Tyrone Jackson 45 years old is at the medical office to have his blood pressure checked Three months ago Tyrone started taking a diuretic and an antihypertensive prescribed by the phy
49. aid the physician in the diagnosis and to provide future reference CHARTING EXAMPLE 10 5 xx 2 15 p m T 98 2 F 5 Martinez RMA PROCEDURE 19 2 Measuring Axillary Body Temperature Electronic Thermometer Outcome Measure axillary body temperature NOTE Many of the principles for taking a temperature already have been stated and are not included in this procedure Equipment Supplies 1 2 Electronic thermometer Oral probe blue collar Procedural Step Sanitize your hands and assemble the equipment Procedural Step Remove the thermometer unit from its storage base and attach the oral blue collar probe to it This is accomplished by inserting the latching plug on the end of the coiled cord of the oral probe to the plug receptacle on the thermometer unit until it locks into place Insert the probe into the face of the thermometer Procedural Step Greet the patient and introduce yourself Identify the patient and explain the procedure Procedural Step Remove clothing from the patient s shoulder and arm Ensure that the axilla is dry If it is wet pat it dry with a paper towel or a gauze pad Principle Clothing removal provides optimal exp osure of the axilla for proper placement of the Bonewit_West_1506_Chapter 19_main indd 307 e Plastic probe cover Waste container thermometer Rubbing the axilla causes an increase in the temperature in that area owing to friction
50. al AY shun tachycardia TAK in KAR dee uh diastole dye AS toh lee intercostal IN ter KOS tul tachypnea TAK ip NEE uh diastolic DYE uh STOL ik pressure Korotkoff kuh ROT kof sounds thready pulse dyspnea DISP nee uh malaise mal AYZE dysrhythmia dis RITH mee uh manometer man OM uh ter meniscus men IS kus orthopnea orth OP nee uh pulse deficit pulse oximeter pulse oximetry pulse pressure pulse rhythm INTRODUCTION TO VITAL SIGNS Vital signs are objective guideposts that provide data to determine a person s state of health Vital signs include temperature pulse respiration collectively called TPR and blood pressure BP Another indicator of a patient s health status is pulse oximetry Although some physicians order this measurement routinely on all patients as part of the patient workup most physicians order this vital sign only when the patient complains of respiratory problems e g shortness of breath The normal ranges of the vital signs are finely adjusted and any deviation from normal may indicate disease During the course of an illness variations in the vital signs may occur The medical assistant should be alert to any signifi cant changes and report them to the physician because they indicate a change in the patients condition When patients visit the medical office vital signs are routinely checked to establish each patient s usual state of health and to establish Bonewit_West_1506_Chap
51. as afraid that when started squeezing that thing around his arm his hand would fall off sat down next to him spent some time talking with him and reassured him that his hand would be perfectly fine and would not fall off put the cuff on my arm and pumped it up to show him that he would be safe He then agreed to let me take his blood pressure After took his blood pressure he wiggled his hand gave me a big smile and said that it didn t hurt at all That situation made me realize that children may have a lot of fears about what might happen to them at the medical office Since that experience always take the time to explain procedures to children before perform them m pulse It may not be possible to detect the pulse if too little pressure is applied however An accurate assessment of pulse includes determinations of the pulse rate the pulse rhythm and the pulse volume Pulse Rate The pulse rate is the number of heart pulsations or heart beats that occur in 1 minute therefore pulse rate is mea sured in beats per minute Normal pulse rates vary widely in the various age groups as shown in Table 19 4 For a healthy adult the normal resting pulse rate ranges from 60 to 100 beats per minute with the average falling between 70 and 80 beats per minute An abnormally fast heart rate of more than 100 beats per minute is known as tachycardia Tachycardia may indicate disease states such as hemorrhaging or heart disease
52. at away from the body Bonewit_West_1506_Chapter 19_main indd 299 6 6 2012 7 49 52 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Body Temperature Range The purposes of measuring body temperature are to estab lish the patients baseline temperature and to monitor an abnormally high or low body temperature The normal body temperature range is 97 F to 99 F 36 1 C to 37 2 C the average temperature being 98 6 F 37 C Body temperature is usually recorded using the Fahrenheit system of measurement Table 19 1 lists comparable Fahrenheit and Celsius temperatures and explains how to convert tem peratures from one scale to the other Alterations in Body Temperature A body temperature greater than 100 4 F 38 C indicates a fever or pyrexia If the body temperature falls between 99 F 37 2 C and 100 4 F 38 C this is called a low grade fever When an individual has a fever the heat the body is producing is greater than the heat the body is losing A temperature reading greater than 105 8 F 41 C is known as hyperpyrexia Hyperpyrexia is a serious condition and a tem
53. athing ex outside outward hyper above excessive pnea breathing hyper above excessive pyr o fever ia condition of diseased or abnormal state hyper above excessive tension pressure hyper above excessive Definition Abnormal breath sounds Without fever the body temperature is normal A thin walled air sac of the lungs in which the exchange of oxygen and carbon dioxide takes place The space located at the front of the elbow An agent that reduces fever The major trunk of the arterial system of the body The aorta arises from the upper surface of the left ventricle The temporary cessation of breathing The armpit A pulse with an increased volume that feels very strong and full An abnormally slow heart rate less than 60 beats per minute An abnormal decrease in the respiratory rate of less than 10 respirations per minute A temperature scale on which the freezing point of water is 0 and the boiling point of water is 100 also called the centigrade scale The transfer of energy such as heat from one object to another by direct contact The transfer of energy such as heat through air currents A sudden falling of an elevated body temperature to normal A bluish discoloration of the skin and mucous membranes The phase in the cardiac cycle in which the heart relaxes between contractions The point of lesser pressure on the arterial wall which is recorded dur
54. ation SaO saturation of arterial oxygen sphygmomanometer SpO saturation of peripheral oxygen Stethoscope systole systolic pressure Tachycardia Tachypnea Thready pulse Bonewit_West_1506_Chapter 19_main indd 346 Word Parts hypo below deficient pnea breathing hypo below deficient tension pressure hypo below deficient therm o heat a condition of diseased or abnormal state hypo below deficient OxX I oxygen emia blood condition hypo below deficient OxX I oxygen a condition of diseased or abnormal state in in into inter between cost o rib al pertaining to mal bad meter instrument used to measure orth o straight pnea breathing OxX I oxygen meter instrument used to measure OxX I oxygen metry measurement sphygn vo pulse meter instrument used to measure steth o chest Scope to view to examine tachy fast rapid cardi o heart ja condition of diseased or abnormal state tachy fast pnea breathing Definition An abnormal decrease in the rate and depth of respiration Low blood pressure A body temperature that is below normal A decrease in the oxygen saturation of the blood hypoxemia may lead to hypoxia A reduction in the oxygen supply to the tissues of the body The act of breathing in Between the ribs sounds heard during the measurement of blood pressure that are used to determine the systol
55. ations Certain medications increase the respi ratory rate and others decrease it If the medical assis tant is unsure of what effect a particular drug may have on the respiratory rate he or she should consult a drug reference such as the Physicians Desk Reference PDR 6 6 2012 7 50 12 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication External Respiration Capillary lumen Red blood cell Capillary endothelium Pulmonary circulation na gt wn et USU f Systemic circulation N _ N Heart Figure 19 13 Exchange of oxygen and carbon dioxide between the alveoli of the lungs and the blood Table 19 5 Respiratory Rates of Various Age Groups Infant birth to 1 yr 30 40 35 Toddler 1 3 yr 23 35 30 Preschool child 3 6 yr 20 30 25 school age child 18 26 22 6 12 yr Adolescent 12 18 yr 12 20 16 Adult after 18th yr 12 20 16 From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Rhythm and Depth of Respiration The rhythm and depth should be noted when measuring respiration Normally the rhythm should be even a
56. ay change Bonewit_West_1506_Chapter 19_main indd 327 Count the number of respirations for 30 seconds 7 Procedural Step Observe the rise and fall of the patient s chest as the patient inhales and exhales Principle One complete respiration includes one inha lation and one exhalation Procedural Step Count the number of respirations for 30 seconds and make a mental note of this number note the rhythm and depth of the respirations Also observe the patient s color If abnormalities occur in rhythm or depth count the respiratory rate for 1 full minute Procedural Step Sanitize your hands and chart the results If you counted the pulse and respirations for 30 seconds multiply each of the numbers counted by 2 This will give you the pulse rate and respiratory rate for 1 full minute Include the date the time the pulse rate rhythm and volume and the respiratory rate rhythm and depth CHARTING EXAMPLE 10 5 xx 2 30 p m P 74 Reg and strong R 18 5 Martinez RMA Even and reg 6 6 2012 7 50 16 PM 9 6 4uNdsI0 d To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publica
57. ba Ai EIA g i 7 140 0 uFi MRE ad 1 0 Figure 19 21 The scale of the gauge of an aneroid sphygmomanometer manometer should be placed on a flat surface so the mercury column is in a vertical position The wall model mercury manometer is mounted securely on a wall placing the mercury column in a vertical position The following guidelines must be followed when mea suring blood pressure with a mercury sphygmomanometer Before the blood pressure reading is obtained the mercury must be even with the zero level at the base of the calibrated 6 6 2012 7 50 22 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Table 19 9 Types of Blood Pressure Cuffs containing the inner inflatable bladder Figure 19 22 The parts of a mercury spohygmomanometer Thigh cuff Adult cuff Child cuff Figure 19 23 Blood pressure cuffs child adult and thigh tube Pressure created by inflation of the inner bladder causes the mercury to rise in the tube The top portion of the mercury column the meniscus curves slightly upward The blood pressure should be read at the top of the
58. becomes subnormal Occurs with Bacterial infections Viral infections Remittent fever above normal Occurs with Influenza Pneumonia Endocarditis Body temperature fluctuates minimally but always remains Body temperature alternately rises and falls and at times returns to Wide range of temperature fluctuations occur all of which are From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Bonewit_West_1506_Chapter 19_main indd 301 6 6 2012 7 49 53 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication from interfering with the temperature reading The site chosen for measuring a patient s temperature depends on the patient s age condition and state of consciousness the type of thermometer available and the medical office policy U Highlight on Fever Although most fevers indicate an infection not all do Noninfec tious causes of fever include heatstroke drug hypersensitivity neoplasms and central nervous system damage A fever usually is not harmful if it remains less than 102 F 38 9 C Research suggests that fever may serve a
59. ble to disconnect from the monitor and possibly drop on the floor or fall on the patient Factors Affecting Pulse Oximetry Although pulse oximetry is an easy procedure to perform the medical assistant must be aware of certain factors that may interfere with an accurate reading These factors are listed along with guidelines for correcting or preventing them Figure 19 18 Applying a probe to the tip of a finger Bonewit_West_1506_Chapter 19_main indd 325 1 Incorrect positioning of the probe As previously discussed the oximeter probe consists of two parts an LED and a photodetector Because light is trans mitted from the LED through the tissues to the pho todetector it is important that these two components be aligned directly opposite to each other during the measurement In most cases this automatically occurs when the clip on probe is applied Proper alignment of the probe may be impossible however with patients who have very small fingers e g a thin indi vidual a child or with patients who have very large fingers e g an obese individual To obtain an accu rate reading another site must be used such as the earlobe In addition pediatric probes are available for use with thin patients or children Fingernail polish or artificial nails A dark opaque coating on the fingernail may result in a falsely low reading This is because the coating interferes with proper light transmission through the fing
60. cable could damage the cable connections 3 Procedural Step Greet the patient and introduce yourself Identify the patient and explain the proce dure Explain to the patient that the clip on probe does not hurt and feels similar to a clothespin attached to the finger It the patient seems fearful place the probe on your own finger first to reassure the patient that it is not painful 4 Procedural Step Seat the patient comfortably in a chair with the lower arm firmly supported and the palm facing down Principle Supporting the lower arm helps prevent patient movement during the procedure 5 Procedural Step Select an appropriate finger to apply the probe Use the tip of the patients index middle or ring finger If the patient s fingers are very small or very large and the probe cannot seem to be aligned properly use the earlobe to take the measurement If the patient exhibits tremors of the hands use the earlobe to obtain the reading Principle The probe must be applied to a peripheral site with thin skin that is highly vascular Very small or very large fingers may not allow for proper posi tioning of the probe on the finger 6 Procedural Step Observe the patient s fingernail If the patient is wearing dark fingernail polish ask him or her to remove it with acetone or nail polish remover If the patient is wearing artificial nails choose another probe site such as the toe or earlobe Principle An opaque coating on the
61. cause high blood pressure however it can aggravate high blood pressure Most Americans consume more sodium than they need The current recommendation is to consume less than 2 4 g 2400 mg of sodium per day This is equivalent to 6 g about 1 teaspoon of salt e Lack of physical exercise A sedentary lifestyle makes it easier to gain weight and increases the chance of developing high blood pressure e Chronic stress Research indicates that people who are under continuous stress tend to develop more heart and circulatory problems than people who are not under stress e Smoking Smoking tobacco constricts blood vessels Causing an increase in blood pressure e Alcohol consumption Heavy and regular alcohol consumption can increase blood pressure The remaining 5 to 10 of individuals with hypertension have secondary hypertension This means that high blood Continued 6 6 2012 7 50 21 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication LUARA Hypertension cont d pressure can be linked to a known cause which includes chronic kidney disease adrenal and thyroid diseases narrow ing of the ao
62. ck over time m Prevention of Errors in Blood Pressure Measurement The following guidelines should be followed to prevent errors in blood pressure measurement 1 Instruct the patient not to consume caffeine use tobacco or exercise for 30 minutes before blood pressure measurement 2 The patient should be comfortably seated in a quiet room for at least 5 minutes before blood pressure is taken Patient anxiety and apprehension can cause a spasm of the brachial artery which can increase the blood pressure reading by as much as 30 to 50 mm Hg This is known as the white coat effect which refers to the white lab coat worn by the physician It tends to occur more fre quently in older adults and young children 3 Always use the proper cuff size f the cuff is too small it may come loose as the cuff is inflated or the reading may be falsely high If the cuff is too large the reading may be falsely low The inner inflatable bladder of the cuff should encircle at least 80 but no more than 100 of the patient s arm and should cover two thirds of the distance from the axilla to the antecubital space 4 Never take blood pressure over clothing Clothing inter feres with the ability to hear Korotkoff sounds this could result in an inaccurate blood pressure reading Roll up the patient s sleeve approximately 5 inches above the elbow lf the sleeve is too tight after being rolled up remove the arm from the sleeve A tight sleeve cause
63. ctors such as loss of subcutaneous fat lack of exercise and loss of thermoregulatory control Table 19 2 shows the normal ranges of body temperature according to age group 2 Diurnal variations During sleep body metabolism slows down as do muscle contractions The body s temperature is lowest in the morning before metabo lism and muscle contractions begin increasing 3 Emotional states Strong emotions such as crying and extreme anger can increase the body tempera ture This is important to consider when working with young children who frequently cry during examination procedures or when they are ill 4 Environment Cold weather tends to decrease the body temperature whereas hot weather increases it Pyrexia Low grade fever Normal Hypothermia Fatal Figure 19 3 Terms that describe alterations in body temperature adult oral temperature 6 6 2012 7 49 53 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication 5 Exercise Vigorous physical exercise causes an increase in voluntary muscle contractions which elevates the body temperature 6 Patient s normal body temperatu
64. d by air moving through the respira tory tract Normal breath sounds are quiet and barely audible Abnormal breath sounds are referred to as adventi tious sounds and generally signify the presence of a respira tory disorder The causes and characters of abnormal breath sounds are presented in Table 19 6 6 6 2012 7 50 13 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PATIENT TEACHING Answer questions that patients have about chronic obstructive pulmonary disease COPD What is COPD COPD is a chronic airway obstruction that results from emphy sema or chronic bronchitis or a combination of these conditions COPD is a chronic debilitating irreversible and sometimes fatal disease How many people have COPD More than 12 million Americans have been diagnosed with COPD however it is estimated that an additional 12 million Americans have the disease but remain undiagnosed COPD is the fourth leading cause of death in the United States behind heart disease cancer and stroke Although COPD is much more common in men than in women the greatest increase in death rates is occurring in women
65. d hang freely and should not be permitted to rub against any object Principle The earpieces should be directed forward permitting them to follow the direction of the ear canal which facilitates hearing If the stethoscope tubing rubs against an object extraneous sounds may be picked up this would interfere with an accurate measurement EW Procedural Step Making sure the arm is well extended locate the brachial pulse again and place the diaphragm of the stethoscope over the brachial pulse site The diaphragm should be positioned to make a tight seal against the patients skin Enough pressure should be exerted to leave a temporary ring on the patients skin when the disc is removed Do not allow the chest piece to touch the cuff Bonewit_West_1506_Chapter 19_main indd 341 Principle A well extended arm allows easier palpation of the brachial pulse Locating the brachial pulse again is necessary for proper positioning of the chest piece over the brachial artery Proper positioning of the diaphragm and good contact of the diaphragm with the skin help transmit clear and audible Korotkoff sounds through the earpieces of the stethoscope If the diaphragm touches the cuff extraneous sounds may be picked up this would interfere with an accurate measurement Locate the brachial pulse again before placing the diaphragm over the site IN Procedural Step Close the valve on the bulb by turning the thumbscrew clockwise to the right wi
66. display The pulse strength indicator provides a quick assess ment of pulse quality If the oximeter is unable to locate a pulse it will be unable to obtain a reading Bonewit_West_1506_Chapter 19_main indd 330 PROCEDURE 19 8 Performing Pulse Oximetry cont d Allow several seconds for the pulse oximeter to detect the pulse EEN Procedural Step Leave the probe in place until the oximeter displays a reading Read the oxygen satura tion value and pulse rate and make a mental note of these readings On this pulse oximeter the oxygen saturation reading is 100 and the pulse rate is 75 If the SpO reading is less than 95 reposition the probe on the finger and perform the procedure again Principle A low SpO reading may be caused by improper positioning of the probe on the finger 12 13 14 10 5 Xx 2 50 p m SpOg 100 P 75 Read the oxygen saturation value and pulse rate Procedural Step Remove the probe from the patient s finger and turn off the oximeter Procedural Step Sanitize your hands and chart the results Include the date the time the SpO reading and the pulse rate Procedural Step Disconnect the cable from the monitor Disinfect the probe with an antiseptic wipe Properly store the monitor in a clean dry area CHARTING EXAMPLE Date 5 Martinez RMA 6 6 2012 7 50 20 PM To protect the rights of the author s and publisher we inform you that this PD
67. e apex of the heart which is located in the fifth intercostal between the ribs space at the junc tion of the left midclavicular line Figure 19 11 Brachial The brachial pulse is in the antecubital space which is the space located at the front of the elbow This site is used to take blood pressure to measure pulse in infants during cardiac arrest and to assess the status of the circulation to the lower arm Ulnar The ulnar pulse is located on the ulnar little finger side of the wrist It is used to assess the status of circulation to the hand 6 6 2012 7 50 11 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Temporal Carotid Brachial Radial Femoral Popliteal IA behind knee gi Posterior tibial N Dorsalis pedis To Figure 19 10 Pulse sites Left atrium Left ventricle Right atrium Right ventricle Apical pulse Figure 19 11 The apical pulse is found over the apex of the heart which is located in the fifth intercostal space at the junction of the left midclavicular line Bonewit_West_1506_Chapter 19_main indd 317 Temporal
68. e in the area being scanned The peak temperature represents the temperature given off by the temporal artery or body temperature Along with measuring the peak temperature the probe sensor automatically measures the ambient temperature which is the surrounding air temperature This is done because there is a small heat loss from the forehead that occurs as a result of cooling by ambient temperature Bonewit_West_1506_Chapter 19_main indd 304 Probe Scan button Probe cover Display screen Figure 19 7 Temporal artery thermometer The thermometer s computer determines and automatically corrects for any effect from ambient temperature An accu rate body temperature reading is digitally displayed on the screen on the thermometer The procedure for measuring temperature using a temporal artery thermometer is pre sented in Procedure 19 5 Earlobe Temperature Measurement Sweating of the forehead can cause an inaccurate tempo ral artery temperature reading This is because perspiration causes the skin of the forehead to cool resulting in a falsely low temperature reading Sweating of the forehead occurs when a patient s fever breaks It also occurs when a patient s skin is clammy in this instance forehead sweating may be present but not readily visible To avoid this problem the temperature of the neck area located just behind the earlobe also must be measured The area behind the earlobe is less affected by s
69. ead it is located approximately 2 mm below the surface of the skin Because the temporal artery is located so close to the skin surface and is easily accessible the forehead provides an ideal site for obtaining a body tempera ture measurement In addition the temporal artery has a constant steady flow of blood which assists in providing an accurate measurement of the patient s body temperature The forehead site can be used to measure body tempera ture using a temporal artery thermometer in individuals of all ages newborns infants children adults elderly The results compare in accuracy with other methods used to measure body temperature The temperature obtained through the forehead site is about the same as a rectal tem perature measurement The temporal artery reading measures approximately 1 higher than oral body temperature and 2 higher than axillary temperature on the Fahrenheit scale Types of Thermometers The four types of thermometers available for measuring body temperature are electronic thermometers tympanic membrane thermometers temporal artery thermometers and chemical thermometers Mercury glass thermometers are no longer used in the medical office because they break easily and release mercury Mercury is a chemical that is dangerous to the human body because it can cause damage to the nervous system If mercury is released into the envi ronment it can be harmful to wildlife Many cities have banned the sale
70. edures for taking pulse and respiration in one continuous procedure Respiratory Rate The respiratory rate of a normal healthy adult ranges from 12 to 20 respirations per minute With most adults there is a ratio of one respiration for every four pulse beats If the respiratory rate is 18 the pulse rate would be approxi mately 72 beats per minute An abnormal increase in the respiratory rate of more than 20 respirations per minute is 6 6 2012 7 50 12 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication CC 3 E ZA KI if Inhalation inspiration Diaphragm Chest cavity expands Chest cavity becomes smaller Figure 19 12 Inhalation and exhalation What Would You Do What Would You Not Do Case Study 2 Alex Jacoby is 18 years old and a senior in high school He comes to the office complaining of severe pain in his left shoulder Alex is an outstanding competitive swimmer and is currently ranked first in the state in the 100 yard butterfly Alex has a big meet coming up and must do well because he has a chance of getting an athletic scholarship to the University of Florida
71. ees Fahr enheit is displayed on the screen The medical assistant ejects the plastic probe cover into a regular waste container The casing probes and attached cords of the electronic thermometer should be periodically cleaned with a soft cloth slightly dampened with a solution of warm water and a disinfectant cleaner Procedures 19 1 19 2 and 19 3 outline the methods for measuring oral axillary and rectal temperatures using an electronic thermometer Tympanic Membrane Thermometer The tympanic membrane thermometer is used at the aural site The tympanic membrane thermometer functions by detecting thermal energy that is naturally radiated from the body As with the rest of the body the tympanic membrane gives off heat waves known as infrared waves The tympanic thermometer functions like a camera by taking a picture of these infrared waves which are considered a documented indicator of body temperature Figure 19 5 The ther mometer calculates the body temperature from the energy generated by the waves and converts it to an oral or rectal equivalent The tympanic membrane thermometer is battery oper ated and consists of a small handheld device with a sensor probe Figure 19 6 To operate the thermometer the probe is covered with a disposable soft plastic cover and is placed in the outer third of the external ear canal An activa tion button is depressed momentarily and the results are displayed in 1 to 2 seconds on a digi
72. environment If a mercury manometer is used to measure blood pres sure it must be placed in the correct position for proper viewing The medical assistant should be no farther than 3 feet from the scale of the manometer A portable mercury Bonewit_West_1506_Chapter 19_main indd 334 and vegetables and low in saturated fat limitation of salt intake regular aerobic exercise cessation of smoking limitation or elimination of alcohol consumption and stress management If lifestyle modifications alone are not enough medications are available for reducing blood pressure allowing the patient to lead a normal healthy active life How long will undergo treatment Treatment for essential hypertension is usually lifelong Even if you feel fine you ll probably have to continue treatment for the rest of your life to maintain your blood pressure in a healthy range If you discontinue your diet and lifestyle changes or stop taking your medication your blood pressure will increase again e Encourage patients with hypertension to adhere to the treatment prescribed by the physician Helo patients remember to take their medication by telling them to associate their medication schedule with a daily routine such as brushing their teeth or with meals e Provide the patient with educational materials about high blood pressure available from sources such as the American Heart Association m Li w dd ik i L oh aN a i A F
73. er The darker the coating the more likely that the SpO reading will be affected Blue black and green finger nail polishes tend to cause the most problems If the patient is wearing fingernail polish it should be removed with acetone or fingernail polish remover If the patient has artificial fingernails another site should be used to take the measurement such as the earlobe or the toe Oil dirt and grime on the finger tip can also interfere with proper light transmission If the patient s fingertip is dirty cleanse the site with soap and water and allow it to dry Areas with bruises burns stains or tattoos should be avoided as a probe placement site Darkly pigmented skin and jaundice do not usually affect the ability of the oximeter to obtain an accurate reading Poor peripheral blood flow A pulse oximeter works best when there is a good strong pulse in the finger to which the probe is applied Poor peripheral blood flow may cause the pulse to be so weak that the oximeter cannot obtain a reading Conditions resulting in poor blood flow include peripheral vascular disease vasocon strictor medications severe hypotension and hypother mia In these situations the medical assistant should try using the earlobe because it is less affected by decreased blood flow Sometimes patients with cold fingers but who are not hypothermic may have enough constric tion of the peripheral capillaries that it interferes with obtaining
74. etector and prevents the probe from picking up the pulse signal To avoid this problem it is important that the medical assistant instruct the patient to remain still during the procedure Occasionally patient movement cannot be eliminated such as when the patient has tremors of the hands In these instances the oxygen saturation level should be measured at a site that is less affected by motion such as the toe or the earlobe Pulse Oximeter Care and Maintenance The pulse oximeter monitor and cable should be cleaned periodically using a cloth slightly dampened with a solution of warm water and a disinfectant cleaner The medical assis tant should make sure that the cloth is not too wet to prevent the solution from running into the monitor which could damage the internal components The probe should be cleaned periodically with a soft cloth moistened with warm water and a disinfectant cleaner Cleaning the probe removes dirt and grime that could interfere with proper light transmission leading to an inaccurate reading The probe also should be disinfected after each use by wiping it thoroughly with an antiseptic wipe and allowing it to dry The probe should never be soaked or immersed in a liquid solution because this would damage it The probe is heat sensitive and cannot be autoclaved The pulse oximeter should be stored at room temperature in a dry environment Text continued on p 331 PROCEDURE 19 G Measuring Pulse and Respirati
75. eter on the center of the patient s forehead midway between the eyebrow and the hairline Position the probe on the center of the patient s forehead Procedural Step Depress the scan button and keep it depressed for the entire measurement Principle Not keeping the scan button depressed can result in a falsely low temperature reading El Procedural Step Slowly and gently slide the probe straight across the forehead midway between the eyebrow and the upper hairline Continue until the hairline is reached Keep the scan button depressed and the probe flush flat against the forehead During this time a beeping sound occurs and a red light blinks to indicate that a measurement is taking place Rapid beeping and blinking indicate a rise to a higher temperature Slow beeping indicates that the ther Bonewit_West_1506_Chapter 19_main indd 313 mometer is still scanning but is not finding a higher temperature Principle The thermometer continually scans for the peak temperature as long as the scan button is depressed The probe must be held flat against the forehead to ensure accurate scanning of the temporal artery Slowly slide the probe straight across the patient s forehead ERE Procedural Step Keeping the button depressed lift the probe from the forehead and gently place the probe behind the earlobe in the soft depression of the neck just below the mastoid process Hold the probe in place
76. f 88 beats min and another medical assistant simul taneously measures a radial pulse rate of 76 beats per minute this results in a pulse deficit of 12 beats A pulse deficit means that not all of the heartbeats are reaching the peripheral arteries A pulse deficit is caused by an inefficient contraction of the heart that is not strong enough to trans mit a pulse wave to the peripheral pulse site A pulse deficit frequently occurs with atrial fibrillation which is a type of dysrhythmia The pulse volume refers to the strength of the heartbeat The amount of blood pumped into the aorta by each con traction of the left ventricle should remain constant making the pulse feel strong and full If the blood volume decreases the pulse feels weak and may be difficult to detect This type of pulse is usually accompanied by a fast heart rate and is described as a thready pulse An increase in the blood volume results in a pulse that feels extremely strong and full known as a bounding pulse Any abnormalities in the rhythm or volume of the pulse should be recorded accurately in the patient s chart by the medical assistant A pulse that has a normal rhythm and volume is recorded as being regular and strong RESPIRATION Mechanism of Respiration The purpose of respiration is to provide for the exchange of oxygen and carbon dioxide between the atmosphere and the blood Oxygen is taken into the body to be used for vital body processes and carbon dio
77. f the controls indicators and displays on a pulse oximeter 24 Describe the difference between a reusable and a disposable oximeter probe 25 List and describe factors that may interfere with an accurate pulse oximetry reading Blood Pressure 26 Define blood pressure 2 State the normal range of blood pressure for an adult 28 List and describe factors that affect the blood pressure 29 Identify the different parts of a stethoscope and a sphygmomanometer 30 Identify the Korotkoff sounds 31 State the advantages and disadvantages of an automated oscillometric blood pressure device 32 Explain how to prevent errors in blood pressure measurement Measure oral body temperature Measure axillary body temperature Measure rectal body temperature Measure aural body temperature Measure temporal artery body temperature Measure radial pulse Measure apical pulse Measure respiration Perform pulse oximetry Measure blood pressure Determine systolic pressure by palpation Bonewit_West_1506_Chapter 19_main indd 297 6 6 2012 7 49 51 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication
78. f the most common means for measuring body temperature When the medical assistant records a temperature the physician assumes it has been taken through the oral route unless it is otherwise noted There is a rich blood supply under the tongue in the area on either side of the frenulum linguae The thermometer should be placed in this area to receive the most accurate reading The patient must keep the mouth closed during the procedure to provide a closed space for the thermometer Axillary Temperature Axillary temperature is recommended as a site for measur ing temperature in toddlers and preschoolers The axillary site also should be used for mouth breathing patients and Bonewit_West_1506_Chapter 19_main indd 302 Putting It All Into Practice My name is Sergio Martinez and am a registered medical assistant work in a large clinic that is associated with a medical school At present work in the family medicine depart ment but also have worked in dermatology and internal medicine Family medicine is the area enjoy most because of the wide variety of tasks that are performed There is rarely a dull moment focus primarily on clinical medical assisting Taking vital Signs is a big part of my job responsibilities It is routine at my Clinic to take height weight temperature pulse respiration and blood pressure on every patient seen at the clinic no matter what the reason for his or her visit assist the phy
79. for 1 to 2 seconds Principle Taking the patients temperature behind the earlobe prevents an error in temperature measure ment in the event that the patient is sweating Place the probe behind the ear lobe Continued 6 6 2012 7 50 07 PM S 6L 4uNdIV0 d To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication p h Li cc LLJ cc A EPA Procedural Step Release the scan button on the digital display and read the temperature Make a mental note of the temperature reading The tem perature indicated on this thermometer is 99 1 F 37 3 C The reading remains on the display for approximately 15 to 30 seconds after the button is released The thermometer shuts off automatically after 30 seconds To turn the thermometer off imme diately press and release the scan button quickly If the patients temperature needs to be taken again wait 60 seconds or use the opposite side of the forehead Principle Taking a measurement cools the skin and taking another measurement too soon may result in an inaccurate reading Read the temperature Bonewit_West_1506_Chapter 19_
80. gh E Procedural Step Select the proper cuff size The inner inflatable bladder of the cuff should be long enough to encircle at least 80 but no more than 100 of the patient s arm and wide enough to cover two thirds of the distance from the axilla to the antecubital space Principle The appropriate size cuff must be used to ensure an accurate measurement If the cuff is too small it may come loose as the cuff is inflated or the reading may be falsely high If the cuff is too large the reading may be falsely low Bonewit_West_1506_Chapter 19_main indd 340 PROCEDURE 19 9 Measuring Blood Pressure cont d The inner bladder should encircle at least 80 of the patient s arm EN Procedural Step Locate the brachial pulse with the fingertips The brachial pulse is located near the center of the antecubital space but slightly toward the little finger side of the arm Center the inner bladder over the brachial pulse site NOTE Place the cuff on the patients arm so that the lower edge of the cuff is approximately 1 to 2 inches above the bend in the elbow Most cuffs are labeled with right and left arrows indicating the center of the bladder The right arrow should be placed over the brachial pulse site when you are using the right arm and the left arrow should be placed over the brachial pulse site when you are using the left arm Principle The cuff should be placed high enough to prevent the stethoscope from t
81. h the cuff should be inflated to reach a pressure that is approximately 30 mm Hg above the systolic pressure 6 6 2012 7 50 24 PM oped OS ADNE a AA EEN A eam Sey Eh a en are inform you that this PDF is an unc of for internal busin se or he author Table 19 10 Korotkoff Sounds Phase Description Illustration Inflation of cuff compresses and closes off brachial artery so that no blood flows through the artery Phase First faint but clear tapping sound is heard and it gradually increases in intensity First tapping sound is the systolic pressure Phase Il As cuff continues to deflate sounds have murmuring or swishing quality Phase Ill With further deflation sounds become crisper and increase in intensity Phase IV sounds become muffled and have soft blowing quality Phase V sounds disappear This is recorded as the diastolic pressure From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Bonewit_West_1506_Chapter 19_main indd 338 6 6 2012 7 50 25 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Figure 19 25 Automated osc
82. h an accurate measurement 12 Position the chest piece properly Palpate the brachial pulse to provide good positioning of the chest piece over the brachial artery Place the chest piece firmly but gently over the brachial artery to assist in transmitting clear and pulse The medical assistant should then place the dia phragm of the stethoscope over the radial pulse and should measure the patient s blood pressure using the same tech nique presented in Procedure 19 9 Korotkoff Sounds Korotkoff sounds are used to determine systolic and dia stolic blood pressure readings When the bladder of the cuff is inflated the brachial artery is compressed so that no audible sounds are heard through the stethoscope As the cuff is deflated at a rate of 2 to 3 mm Hg per second the sounds become audible until the blood flows freely at which point the sounds can no longer be heard Table 19 10 The medical assistant should practice listening to these sounds and should be able to identify the various phases Procedure 19 9 outlines the procedure for taking blood pressure using an aneroid sphygmomanometer Procedure 19 10 outlines the procedure for determining systolic pres sure by palpation Automated Oscillometric Blood Pressure Device Automated oscillometric devices Figure 19 25 are being used in some medical offices to measure blood pressure They are becoming especially popular for use in home monitoring of blood pressure by patients with
83. hat Would You Not Do RESPONSES Case Study 1 Pade io What Did Sergio Do Q Told Mrs Mason that sometimes ear thermometers can be a little tricky to use Q Showed Mrs Mason how to use the ear thermometer and let her practice by taking Olivia s temperature Q Explained how to care for and maintain the ear thermometer to prevent inaccurate readings Q Explained to Mrs Mason that the use of mercury is being discouraged because it can be toxic to humans and animals What Did Sergio Not Do Q Did not ask Mrs Mason if she had read the directions that came with her ear thermometer Q Did not tell Mrs Mason that she should switch back to the mercury thermometer Q Did not ask Mrs Mason why she waited so long to bring Olivia to the office What Would You Do What Would You Not Do Review Sergio s response and place a checkmark next to the information you included in your response List the additional infor mation you included in your response Case Study 2 Page 320 What Did Sergio Do Q Recognized and congratulated Alex on his swimming achievements Q Told Alex that it is normal for his pulse to be that slow because of his athletic training and it shows that he is in good shape Q Assured Alex that the physician will do everything he can to help Alex Q Stressed to Alex how important it is to follow the physician s advice so that his shoulder heals as soon as possible What Did Sergio Not Do Q Did not comment
84. ic and diastolic blood pressure readings A vague sense of body discomfort weakness and fatigue that often marks the onset of a disease and continues through the course of the illness An instrument for measuring pressure The curved surface on a column of liquid in a tube The condition in which breathing is easier when an individual is in a sitting or standing position A computerized device consisting of a probe and a monitor used to measure the oxygen saturation of arterial blood The use of a pulse oximeter to measure the oxygen saturation of arterial blood The difference between the systolic and diastolic pressures The time interval between heartbeats The strength of the heartbeat The transfer of energy such as heat in the form of waves Abbreviation for the percentage of hemoglobin that is saturated with oxygen in arterial blood An instrument for measuring arterial blood pressure Abbreviation for the percentage of hemoglobin that is saturated with oxygen in arterial blood as measured by a pulse oximeter An instrument used for amplifying and hearing sounds produced by the body The phase in the cardiac cycle in which the ventricles contract sending blood out of the heart and into the aorta and pulmonary aorta The point of maximum pressure on the arterial walls which is recorded during systole An abnormally fast heart rate more than 100 beats min An abnormal increase in the respiratory rate of more than
85. illometric blood pressure device 2 The cuff does not have to be manually inflated and deflated because this function is performed automati cally by the device 3 The patient s brachial artery does not need to be located and the bladder of the cuff does not need to be centered over the brachial artery D PROCEDURE 19 9 Measuring Blood Pressure Outcome Measure blood pressure Equipment Supplies e Stethoscope e Sphygmomanometer Procedural Step Sanitize your hands and assemble the equipment If the chest piece consists of a dia phragm and a bell rotate it to the diaphragm position Clean the earpieces and chest piece of the stethoscope with the antiseptic wipe Principle The chest piece must be rotated to the proper position for sound to be heard through the earpieces Bonewit_West_1506_Chapter 19_main indd 339 4 A stethoscope and user listening skills are not required to obtain the reading because the electronic sensor in the automated device measures oscillations from the wall of the brachial artery to obtain the reading Automated devices are less susceptible to external environmental noise than are manual devices The blood pressure measurement is easy to read because the systolic and diastolic readings are shown on a digital display screen The device allows multiple blood pressure measure ments to be taken Most automated devices come equipped with an internal memory for storing mul
86. ing diastole shortness of breath or difficulty in breathing An irregular rhythm also termed arrhythmia Normal respiration The rate is 16 to 20 respirations per minute the rhythm is even and regular and the depth is normal The act of breathing out A temperature scale on which the freezing point of water is 32 and the boiling point of water is 212 Pertaining to fever A body temperature that is above normal synonym for pyrexia The midline fold that connects the undersurface of the tongue with the floor of the mouth An abnormal increase in the rate and depth of respiration An extremely high fever High blood pressure An abnormally fast and deep type of breathing usually associated with acute anxiety conditions Continued 6 6 2012 7 50 31 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication C TERMINOLOGY REVIEW cont d Medical Term Hypopnea Hypotension Hypothermia Hypoxemia Hypoxia Inhalation Intercostal Korotkoff sounds Malaise Manometer Meniscus Orthopnea Pulse oximeter Pulse oximetry Pulse pressure Pulse rhythm Pulse volume Radi
87. lish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 4 D 2 Straighten the canal of adults and children older than 3 years by pulling the ear auricle upward and backward Thermometer cont d Z Straighten the canal of children younger than 3 years by pulling the ear auricle downward and backward 8 Procedural Step Insert the probe into the patient s ear canal tightly enough to seal the opening but without causing patient discomfort Point the tip of the probe toward the opposite temple approximately midway between the opposite ear and eyebrow Principle Sealing the ear canal prevents cooler exter nal air from entering the ear which could result in a falsely low reading Correct positioning of the probe optimizes the sensors view of the tympanic mem brane leading to an accurate temperature reading Procedural Step Ask the patient to remain still Hold the thermometer steady and depress the activation button Depending on the brand of the thermometer perform one of the following Bonewit_West_1506_Chapter 19_main indd 311 Measuring Aural Body Temperature Tympanic Membrane E a Hold the button down for one full second and then release it or b Hold down the button down until an audible tone is heard Principle The thermometer cannot take a tem perature unless the activation button is de
88. main indd 314 PROCEDURE 19 5 Measuring Temporal Artery Body Temperature cont d FE Procedural Step Dispose of the probe cover by pushing it off the probe with your thumb and ejecting it into a regular waste container Wipe the probe with an antiseptic wipe and allow it to dry Wipe the probe with an antiseptic wipe 14 Procedural Step Sanitize your hands and chart the results Include the date the time and the tempera ture reading The symbol must be charted next to the temperature reading to tell the physician that a temporal artery reading was taken Store the ther mometer in a clean dry area CHARTING EXAMPLE Date 10 15 XX 9 15 a m T 99 1 F TA S Martinez RMA 6 6 2012 7 50 09 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication This example reads 98 6 F 100 OO 02468 101 COOCOO 96 00004 103 o 0000 104 99 00004 C This example reads 100 4 F Figure 19 8 Disposable chemical single use thermometers A The thermometer is removed from the wrapper by pulling on the handle B The thermometer is inserted under the tongue and is lef
89. menis cus with the eye at the same level as the meniscus of the mercury column Cuff Sizes Blood pressure cuffs come in a variety of sizes and are mea sured in centimeters cm Figure 19 23 The size of a cuff refers to its inner inflatable bladder rather than its cloth cover Table 19 9 lists the types of cuffs available and the size of the inner bladder of each cuff For accurate blood pressure measurement the inner bladder of the cuff should encircle at least 80 but not Bonewit_West_1506_Chapter 19_main indd 335 Child arm 21 8 16 21 Small adult arm 24 10 22 26 Adult arm 30 is 21 34 Large adult arm 38 16 35 44 Adult thigh 42 20 45 52 From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Arm Axilla circumference Arm length Cuff width anm Antecubital space Figure 19 24 Determination of proper cuff size A The bladder of the cuff should be long enough to encircle 80 of the arm B The cuff should be wide enough to cover two thirds of the distance from the axilla to the antecubital space more than 100 of the arm circumference and should be wide enough to cover two thirds of the distance from the axilla to the antecubital space Figure 19 24 Child cuffs often must be used for adults with thin arms The adult cuff is used for the average sized adult arm and the thigh cuff is used for taking blood pressure from the thigh or for adult
90. mperature taken through the oral route see Table 19 2 The medical assis tant should make a notation on the patient s chart if the temperature has been taken rectally The rectal method is generally used for infants and young children unconscious patients and mouth breathing patients and when greater accuracy in body temperature is desired The rectal site should not be used with newborns because of the danger of rectal trauma Aural Temperature The aural ear site is used with the tympanic membrane thermometer The ear provides a closed cavity that is easily 6 6 2012 7 49 54 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication accessible Tympanic membrane thermometers provide instantaneous results are easy to use and are comfortable for the patient They make it easier to measure the tem perature of children younger than 6 years uncooperative patients and patients who are unable to have their tempera tures taken orally Forehead Temperature The temporal artery is a major artery of the head that runs laterally across the forehead and down the side of the neck In the area of the foreh
91. nal infor mation you included in your response 6 6 2012 7 50 30 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication C TERMINOLOGY REVIEW Medical Term Adventitious sounds Afebrile Alveolus Antecubital space Antipyretic Aorta Apnea Axilla Bounding pulse Bradycardia Bradypnea Celsius scale Conduction Convection Crisis Cyanosis Diastole Diastolic pressure Dyspnea Dysrhythmia Eupnea Exhalation Fahrenheit scale Febrile Fever Frenulum linguae Hyperpnea Hyperpyrexia Hypertension Hyperventilation Bonewit_West_1506_Chapter 19_main indd 345 Word Parts a without alveol o air Sac ante before cubitum elbow anti against pyr o fever ic pertaining to a without or absence of pnea breathing brady slow cardi o heart a condition of diseased or abnormal state brady slow pnea breathing cyan o blue osis abnormal condition dys difficult painful abnormal pnea breathing dys difficult painful abnormal rhythm rhythm ia condition of diseased or abnormal state eu normal good pnea bre
92. nd regular and the pauses between inhalation and exhalation should be equal The depth of respiration indicates the amount of air that is inhaled or exhaled during the process of breathing Respiratory depth is generally described as normal deep or shallow and is determined by observing the amount of movement of the chest For normal Bonewit_West_1506_Chapter 19_main indd 321 respirations the depth of each respiration in a resting state is approximately the same Deep respirations are those in which a large volume of air is inhaled and exhaled whereas shallow respirations involve the exchange of a small volume of air Normal respiration is referred to as eupnea The rate is approximately 12 to 20 breaths min the rhythm is even and regular and the depth is normal Hyperpnea is an abnormal increase in the rate and depth of respirations A patient with hyperpnea exhibits a very deep rapid and labored respiration Hyperpnea occurs nor mally with exercise and abnormally with pain and fever It also can occur with any condition in which the supply of oxygen is inadequate such as heart disease and lung disease Hyperventilation is an abnormally fast and deep type of breathing that is usually associated with acute anxiety conditions such as panic attacks An individual who is hyperventilating is overbreathing which usually causes dizziness and weakness Hypopnea is a condition in which a patient s respiration exhibits an abno
93. nds and the monitor displays an error code If this occurs the medical assistant should refer to the troubleshooting section of the users manual for interpretation of the error code and the necessary action that should be taken When the POST is completed the oximeter begins searching for a pulse During this time the pulse search indicator lights up It takes several seconds for the oximeter to locate a pulse and to calculate and display the SpO reading If the oximeter is unable to detect a pulse or if the pulse is too weak to provide the data needed to calculate oxygen saturation the oximeter is unable to make a mea surement In this case an alarm sounds and the oximeter may automatically shut off If this occurs the medical assis tant should reposition the probe or move the probe to another finger and perform the procedure again Probe The probe of the pulse oximeter may be reusable or dispos able Figure 19 17 Most offices use reusable clip on probes Reusable probes are convenient to use and easy to apply but they are more susceptible to inaccurate readings Figure 19 17 Disposable fop and reusable bottom probes for the pulse oximeter 6 6 2012 7 50 14 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof o
94. nline or in print This proof copy is the copyright property of the publisher and is confidential until formal publication owing to patient movement Reusable probes must be cleaned and disinfected after each use Disposable probes are expensive to use and are generally employed for the long term monitoring of a patients oxygen saturation level in a hospital setting Disposable probes are made of an adhesive bandage like material and are discarded after use It is important to handle reusable probes carefully Hitting a probe against a hard object or dropping it may damage it It is important to use the probe designed for the pulse oximeter that is being used Mixing probes from different manufacturers can result in an inaccurate reading The probe must be attached to the patient at a peripheral site that is highly vascular and where the skin is thin The most common site to apply a probe is the tip of a finger Figure 19 18 other acceptable sites include the toe and earlobe A specially designed probe is available for applica tion to the earlobe it is smaller than a finger probe and has a curved ear attachment to hold it in place A cable connects the probe to the monitor The probe may be permanently attached to the cable or it may be a separate device that requires connection to the cable The pulse oximeter monitor should never be lifted or carried by the cable because this could damage the cable connections or could cause the ca
95. o be able to use her ear thermometer but she thinks that it might be broken because of the low readings Mrs Mason says that she is thinking of switching back to a mercury glass thermometer but she has heard that it isn t a good idea to use this type of thermometer anymore and wants to know why m sites used for measuring the pulse are shown in Figure 19 10 and are described next Radial The most common site for measuring the pulse is the radial artery which is located in a groove on the inner aspect of the wrist just below the thumb The radial pulse is easily accessible and can be measured with no discomfort to the patient This site is also used by individuals at home moni toring their own heart rates such as athletes patients taking heart medication and individuals starting an exercise program The procedure for measuring radial pulse is out lined in Procedure 19 6 Apical The apical pulse has a stronger beat and is easier to measure than the other pulse sites If the medical assistant is having difficulty feeling the radial pulse or if the radial pulse is irregular or abnormally slow or rapid the apical pulse should be taken Procedure 19 7 This pulse site is often used to measure pulse in infants and in children up to 3 years old because the other sites are difficult to palpate accurately in these age groups The apical pulse is measured using a stethoscope The chest piece of the stethoscope is placed lightly over th
96. o establish the patient s baseline pulse rate and to assess the pulse rate after special procedures medications or disease processes that affect heart functioning Pulse is measured using palpation at all of the pulse sites except the apical site Pulse is palpated by applying moderate pressure with the sensitive pads located on the tips of the three middle fingers The pulse should not be taken with the thumb because the thumb has a pulse of its own This could result in measure ment of the medical assistant s pulse rather than the patient s pulse Excessive pressure should not be applied when mea suring pulse because this could obliterate or close off the 6 6 2012 7 50 11 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Memones from Externship Sergio Martinez One experience that really Stands out in my memory occurred during my externship at a family practice medical office needed to take the blood pressure of a small 6 year old boy After put the cuff on his arm his eyes started filling up with tears stopped removed the cuff and asked him if something was wrong He said he w
97. on Outcome Measure pulse and respiration Equipment Supplies e Watch with a second hand 1 Procedural Step Sanitize your hands Greet the patient and introduce yourself Identify the patient and explain the procedure Observe the patient for any signs that might affect the pulse or respiratory rate Principle Pulse rate can vary according to the factors listed on Page 316 2 Procedural Step Have the patient sit down Position the patient s arm in a comfortable position The forearm should be slightly flexed to relax the muscles and tendons over the pulse site Principle Relaxed muscles and tendons over the pulse site make it easier to palpate the pulse EJ Procedural Step Place your three middle fingertips over the radial pulse site Never use your thumb to take a pulse The radial pulse is located in a groove on the inner aspect of the wrist just below the thumb Principle The thumb has a pulse of its own using the thumb results in measurement of the medical assistant s pulse and not the patient s pulse Bonewit_West_1506_Chapter 19_main indd 326 Place the three middle fingers over the radial pulse site 4 Procedural Step Apply moderate gentle pressure directly over the site until you feel the pulse If you cannot feel the pulse this may be caused by a Incorrect location of the radial pulse Move your fingers to a slightly different location in the groove of the wrist until you feel the pulse 6 6 201
98. onewit_West_1506_Chapter 19_main indd 347 347 Check out the Evolve site at http evolve elsevier com Bonewit today to actively Prepare for your Certification and to 6 6 2012 7 50 31 PM
99. or use of mercury because of its potential hazards Electronic Thermometer An electronic thermometer is often used in the medical office to measure body temperature Electronic thermo meters are portable and measure oral axillary and rectal temperatures ranging from 84 F to 108 F 28 9 C to 42 2 C An electronic thermometer measures body temperature in a brief time which varies between 4 and 20 seconds depending on the brand of thermometer used The tem perature results are digitally displayed on an LCD screen An electronic thermometer consists of interchangeable oral and rectal probes attached to a battery operated portable unit Figure 19 4 The probes are color coded for ease in identifying them The oral probe is color coded with blue on its collar and is used to take oral and axillary tem peratures the rectal probe is color coded with red on its collar and is used to take rectal temperatures only Bonewit_West_1506_Chapter 19_main indd 303 Display screen Portable unit Oral Probe probe cover Rectal probe Figure 19 4 Electronic thermometer A disposable plastic cover is placed over the probe to prevent the transmission of microorganisms among patients Depend ing on the method of taking the temperature the probe may be inserted into the mouth axilla or rectum and is left in place until an audible tone is emitted from the thermometer When the tone sounds the patient s temperature in degr
100. oscopes come with removable ear tips in different sizes This offers the advantage of selecting an ear tip that fits your ear canal Flexible ear tips of soft rubber are usually more comfortable than nonflexible tips of hard rubber or plastic The chest piece should be a key factor in the selection of a stethoscope A stethoscope with a diaphragm and a bell offers the greatest versatility for listening to different types of sounds Many Stethoscopes have a rubber or plastic rim around the diaphragm and bell to avoid chilling the patient with a cold chest piece and to decrease air leaks between the chest piece and the patient The most common problem with the use of stethoscopes is air leaking Air leaks interfere with effective sound transmission and allow environmental noise to enter the stethoscope Air leaks may result from a cracked earpiece a cracked or chipped chest piece or a break in the tubing Stethoscopes must be cared for properly to ensure proper functioning and to prevent the transmission of disease in the medical office The earpieces should be removed and cleaned regularly with a cotton tipped applicator moistened with alcohol to remove cerumen The chest piece should be cleaned with an antiseptic wipe to remove dirt dust lint and oils The tubing should be cleaned with a paper towel using an antimicrobial soap and water Alcohol should not be used to clean the tubing because it can dry out the tubing and cause it to cra
101. ouch the end of the probe stop Position the probe securely on the fingertip b Ensure that the light emitting diode and the pho todetector are aligned opposite to each other c Allow the cable to lay across the back of the hand and parallel to the arm of the patient Principle Ambient light can be picked up by the probe and alter the reading Proper alignment of the LED and photodetector is necessary for an accurate reading Procedural Step Instruct the patient to remain still and to breathe normally Turn on the oximeter by press ing the on off control Wait while the oximeter goes through its power on self test POST If the monitor fails the POST refer to the troubleshooting section of the user manual for interpretation of the error code and the necessary action that should be taken Principle Patient movement may lead to an inaccu rate reading The monitor automatically conducts a POST to ensure that it is functioning properly IM Procedural Step Allow several seconds for the pulse oximeter to detect the pulse and calculate the oxygen saturation of the blood Ensure that the pulse strength indicator fluctuates with each pulsation and that the pulse signal is strong If the oximeter sounds an alarm indicating that it was unable to locate a pulse reposi tion the probe on the patient s finger or move the probe to another finger and perform the procedure again Principle The reading takes several seconds to
102. ouching it otherwise extraneous sounds which could interfere with an accurate measurement may be picked up Centering the inner bladder over the pulse site allows complete compression of the brachial artery 6 6 2012 7 50 27 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 9 Measuring Blood Pressure cont d Center the inner bladder over the brachial pulse site 6 Procedural Step Wrap the cuff smoothly and snugly around the patients arm and secure the end of it Principle Applying the cuff properly prevents it from bulging or slipping This technique permits applica tion of an equal pressure over the brachial artery 7 Procedural Step Position the manometer for direct viewing and at a distance of no more than 3 feet Principle The medical assistant may have trouble seeing the scale on the manometer if it is placed more than 3 feet away 8 Procedural Step Instruct the patient not to talk or move Place the earpieces of the stethoscope in your ears with the earpieces directed slightly forward During the blood pressure measurement the tubing of the stethoscope shoul
103. ounterclockwise to the left with the thumb and forefinger This opens the valve and allows the air in the cuff to escape slowly Listen for the first clear tapping sound phase I of the Korotkoff sounds This represents the systolic pressure Note this point on the scale of the manometer Bonewit_West_1506_Chapter 19_main indd 342 12 13 14 15 Principle Releasing the pressure too slowly is uncom fortable for the patient and could cause a falsely high diastolic reading Releasing the pressure too quickly could cause a falsely low systolic reading and a falsely high diastolic reading The systolic pressure is the point at which the blood first begins to spurt through the artery as the cuff pressure begins to decrease it represents the pressure that occurs on the walls of the arteries during systole Procedural Step Continue to deflate the cuff while listening to the Korotkoff sounds Listen for the onset of the muffled sound that occurs during phase IV Continue to deflate the cuff and note the point on the scale at which the sound ceases phase V Con tinue to steadily deflate the cuff for another 10 mm Hg to ensure that there are no more sounds Principle Phase V marks the diastolic pressure which represents the pressure that occurs on the walls of the arteries during diastole the cuff pressure is reduced and blood is flowing freely through the brachial artery Procedural Step Quickly and completely deflate the
104. perature first begins to increase This increase may be slow or sudden the patient often experiences coldness and chills and the pulse and respiratory rate increase 2 During the course ofa fever the temperature rises and falls in one of the following three fever patterns con tinuous intermittent or remittent Fever patterns are described and illustrated in Table 19 3 During this stage the patient has an increased pulse and respira tory rate and feels warm to the touch The patient also may experience one or more of the following flushed appearance increased thirst loss of appetite headache and malaise Malaise refers to a vague sense of body discomfort weakness and fatigue 3 During the subsiding stage the temperature returns to normal It can return to normal gradually or suddenly known as a crisis As the body temperature is return ing to normal the patient usually perspires and may become dehydrated Assessment of Body Temperature Assessment Sites There are five sites for measuring body temperature mouth axilla rectum ear and forehead The locations in which temperatures are taken should have an abundant blood supply so that the temperature of the entire body is obtained not the temperature of only a part of the body In addition the site must be as closed as possible to prevent air currents Continuous fever elevated Occurs with Scarlet fever Pneumococcal pneumonia Intermittent fever normal or
105. perature greater than 109 4 F 43 C is generally fatal A body temperature less than 97 F 36 1 C is classified as subnormal or hypothermia This means that the heat the body is losing is greater than the heat it is producing A person usually cannot survive with a temperature less than 93 2 F 34 C Terms used to describe alterations in body temperature are illustrated in Figure 19 3 Table 19 1 Equivalent Fahrenheit and Celsius Temperatures 100 4 38 101 3 309 WZ 29 104 40 105 8 41 107 6 42 109 4 43 WZ 44 Temperature Conversion 1 Celsius to Fahrenheit To convert Celsius to Fahrenheit multiply by and add 32 POTE 2 Fahrenheit to Celsius To convert Fahrenheit to Celsius subtract 32 and multiply by CAFRA From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Bonewit_West_1506_Chapter 19_main indd 300 Variations in Body Temperature During the day to day activities of an individual normal fluctuations occur in the body temperature The body temperature rarely stays the same throughout the course of a day The medical assistant should take the following points into consideration when evaluating a patient s temperature 1 Age Infants and young children normally have a higher body temperature than adults because their thermoregulatory system is not yet fully established Elderly individuals usually have a lower body tem perature owing to fa
106. pressed for 1 full second When the button is depressed the infrared sensor in the probe scans the thermal energy radiated by the tympanic membrane MA Procedural Step Remove the thermometer from the ear canal Turn the digital display of the thermometer toward you and read the temperature Make a mental note of the temperature reading If the temperature seems to be too low repeat the procedure to ensure that you have used the proper technique The tem perature indicated on this thermometer is 99 8 F 37 7 C The temperature remains on the display screen for 30 to 60 seconds or until another cover is inserted on the probe whichever occurs first Principle The temperature remains on the display screen until another cover is inserted on the probe Improper technique can result in a falsely low tem perature reading Read the temperature on the digital display Continued 6 6 2012 7 50 05 PM V GL 4JuNdsI0 d To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 5 PROCEDURE 19 4 Measuring Aural Body Temperature Tympanic Membrane mMat aanle aalsi cero al ime
107. procedure observe the patient for signs that might influence the reading such as anger fear pain and recent physical activity If it is not possible to reduce or eliminate these influences list them in the patient s chart Determine how high to pump the cuff by checking the patients chart for previously measured systolic readings or determine the patient s systolic pressure by palpation see Procedure 19 10 Procedural Step Have the patient sit quietly in a comfortable position in a chair with the legs uncrossed and the back supported The patient should relax in a sitting position for at least 5 minutes before measur ing his or her blood pressure Roll up the patient s sleeve approximately 5 inches above the elbow If the sleeve does not roll up or is too tight after being rolled up remove the arm from the sleeve The arm should be positioned at heart level and well supported with the palm facing up Principle Patient anxiety can cause a significant increase in blood pressure Clothing interferes with the ability to hear Korotkoff sounds which could result in an inaccurate blood pressure reading A tight sleeve causes partial compression of the brachial artery resulting in an inaccurate reading The position of the arm allows easy access to the brachial artery Placing the arm above heart level may cause the reading to be falsely low Not supporting the arm or placing it below heart level may cause the reading to be falsely hi
108. re Some patients normally run a low or high temperature The medical assistant should review the patients past vital sign recordings 7 Pregnancy Cell metabolism increases during preg nancy and this elevates body temperature Fever Fever or pyrexia denotes that a patient s temperature has increased to greater than 100 4 F 38 C An individual who has a fever is said to be febrile one who does not have a fever is afebrile Fever is a common symptom of illness particularly inflammation and infection When there is an infection in the body the invading pathogen functions as a pyrogen which is any substance that produces fever Pyrogens reset the hypothalamus causing the body temperature to increase Table 19 2 Variations in Body Temperature by Age HS lee le Newborn Axillary Soule O03 3G 1 yr Oral 99 7 F Soe Dy Oral 98 6 F IEE Adult Oral 98 6 F BG Rectal 99 6 F oG Axillary 97 6 F 364 0 Aural eo sneha F 3 C Elderly over Oral 96 8 F 36 70 yr From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis 2011 Saunders Table 19 3 Fever Patterns to above normal Fever is not an illness itself but rather a sign that the body may have an infection Most fevers are self limited that is the body temperature returns to normal after the disease process is complete Stages of a Fever A fever can be divided into the following three stages 1 The onset is when the tem
109. rength at the probe placement site The pulse strength indi cator consists of a segmented display of bars The pulse strength indicator sweeps with each pulse beat and the stronger the pulse the more segments that light up on the bar graph 5 Pulse search indicator This indicator lights up when the oximeter is searching for the patient s pulse 6 Adjustable volume control This control is used to adjust the beep that sounds with each pulse beat In most oximeters the settings are high low and off 7 Low battery indicator This indicator is used to warn that the battery is getting low The indicator lights up and the monitor sounds an alarm when approximately 30 minutes of battery use remains beats min SpO2 Pulse rate display display Low battery indicator On off control Pulse strength Pulse search bar graph indicator indicator Figure 19 16 Pulse oximeter monitor controls indicators and displays Bonewit_West_1506_Chapter 19_main indd 324 8 Alarm messages Alarm messages indicate a problem or condition that may affect the reading Alarm mes sages must not be ignored and must be corrected before continuing When the pulse oximeter is turned on it automatically performs a power on self test POST which takes approxi mately 3 to 5 seconds During the POST the oximeter checks its internal systems to ensure they are functioning properly If the oximeter detects a problem an alarm sou
110. rmal decrease in rate and depth The depth is approximately half that of normal respiration Hypopnea often occurs in individuals with sleep disorders Color of the Patient The patient s color should be observed while the respiration is being measured A reduction in the oxygen supply to the tissues hypoxia results in a condition known as cyanosis which causes a bluish discoloration of the skin and mucous membranes Cyanosis is first observed in the nail beds and lips because in these areas the blood vessels lie close to the surface of the skin Cyanosis typically occurs in patients with advanced emphysema and in patients during cardiac arrest Apnea is a temporary absence of respirations Some indi viduals experience apnea during sleep this condition is known as sleep apnea Apnea can be a serious condition if the individual s breathing ceases for more than 4 to 6 minutes because brain damage or death could occur Respiratory Abnormalities A patient who is having difficulty breathing or shortness of breath has a condition known as dyspnea Dyspnea may occur normally during vigorous physical exertion and abnormally in patients with asthma and emphysema A patient with dyspnea may find it easier to breathe while in a sitting or standing position This state is called orthopnea and occurs with disorders of the heart and lungs such as asthma emphysema pneumonia and congestive heart failure Breath Sounds Breath sounds are cause
111. rta steroid therapy oral contraceptives and pre eclampsia associated with pregnancy What can happen if high blood pressure is not treated lf high blood pressure is not brought under control it can cause severe damage to vital organs such as the heart brain kidneys and eyes This damage can result in a heart attack or heart failure stroke kidney damage or damaged vision Early detec tion and treatment of high blood pressure can prevent these complications High blood pressure is often discovered during a routine medical examination or less commonly when an individual experiences one of the complications of hypertension caused by damage to a vital organ Can high blood pressure be cured Essential hypertension cannot be cured but many treatments are used to bring it under control These include lifestyle modi fications such as weight reduction a healthy diet rich in fruits Figure 19 20 The parts of an aneroid spohygmomanometer should be placed so that it can be viewed directly At least once a year an aneroid sphygmomanometer should be reca librated to ensure its accuracy Mercury Sphygmomanometer The mercury sphygmomanometer Figure 19 22 has a ver tical tube calibrated in millimeters that is filled with mercury Although more accurate than the aneroid sphygmomanom eter use of the mercury sphygmomanometer is being dis couraged because mercury is a hazardous chemical that can be dangerous to humans and the
112. s sustains and decreases your pulse over time Aerobic exercise is accomplished through steady nonstop activity such as walking jogging cycling or swim ming Each workout should include warm up and cool down periods of at least 5 minutes each This is needed to prevent muscle or joint injuries What are the benefits of an aerobic exercise program The benefits of an aerobic exercise program include strength ening of the heart a slower resting pulse rate reduction of stress increased energy lowering of body fat decreased bad low density lipoprotein cholesterol and increased good high density lipoprotein cholesterol The key to a safe and effective aerobic exercise program is the target heart rate THR What is target heart rate Your THR is a safe and effective exercise pulse range that indicates that you are exercising at the right level for your age and for what you are trying to accomplish with exercise Exer cising at a level below your THR does little to promote fitness exercising at a level above your THR may not be safe How do determine my target heart rate The following formula is used to determine your THR 1 Subtract your age from 220 to determine your maximum heart rate MHR which is the fastest your heart can beat the oxygen is given off to the cells and carbon dioxide is picked up by the blood to be transported as a waste product to the lungs The exchange of oxygen and carbon dioxide
113. s with large arms If the cuff is too small the reading may be falsely high as it would be for example when an adult cuff is used on a patient with a large arm If the cuff is too large the reading may be falsely low as it would be when an adult cuff is used on a patient with a thin arm The cuff should fit snugly and should be applied so that the center of the inflatable bag is directly over the brachial artery to allow for complete compression of the artery The cuff has an inter locking self sticking substance Velcro that facilitates closing and fastening the cuff in place temporarily In obese patients with an arm circumference greater than 50 cm 20 inches it may not be possible to fit even an adult thigh cuff around the patients arm In this situation the American Heart Association AHA states that the patient s blood pressure can be measured using the forearm and radial artery however the AHA further states that this method may result in a falsely high systolic reading When using this method an appropriate sized cuff should be positioned midway between the elbow and the wrist with the center of the bladder positioned over the radial 6 6 2012 7 50 23 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or
114. s a defense mechanism to destroy pathogens that are unable to survive above the normal body temperature range The level of the fever is not related to the seriousness of the infection A patient with a temperature of 104 F 40 C may not be any sicker than a patient with a temperature of 102 F BE 9O In children fever often is one of the first signs of illness and has a tendency to become highly elevated In contrast in elderly patients fever may be elevated to only 1 F to 2 F above normal even with a severe infection During a fever the body s basal metabolism increases by 7 for each degree of temperature elevation Heart and respiratory rates also increase to meet this metabolic demand Chills during a fever result when the hypothalamus has been reset at a higher temperature In an attempt to reach this tem perature involuntary muscle contractions chills occur which produce heat causing the temperature of the body to increase After the higher temperature has been reached the chills subside and the individual then feels warm Increased perspiration during a fever occurs when the hypo thalamus has been reset at a lower temperature for example after taking an antipyretic or after the cause of the fever has been removed To cool the body and reach this lower tempera ture the body perspires often profusely profuse perspiration is known as diaphoresis m Oral Temperature The oral method is a convenient and one o
115. s partial com pression of the brachial artery resulting in an inaccurate reading Bonewit_West_1506_Chapter 19_main indd 336 5 Position the patient properly The patient should be seated in a chair with the legs uncrossed and the back and arm supported Crossing the legs can increase the systolic reading by 2 to 8 mm Hg If the back is not supported such as when a patient is seated on an examining table the diastolic reading can be increased by as much as 6 mm bg Position the arm at heart level and ensure that it is well supported with the palm facing upward If the arm is above heart level the blood pressure reading may be falsely low If the arm is not supported or is placed below heart level the blood pressure reading may be falsely high 6 Avoid extraneous sounds from the cuff Position the cuff approximately 1 to 2 inches above the bend in the elbow The cuff should be up far enough to prevent the stetho scope from touching it otherwise extraneous sounds which could interfere with an accurate measurement may be picked up 7 Compress the brachial artery completely Center the inner bladder of the cuff directly over the artery to be com pressed Most cuffs are labeled with arrows indicating the center of the bladder for the right and left arms Centering the inner bladder allows for complete compression of the brachial artery 8 Apply equal pressure over the brachial artery The cuff should be applied so that it fit
116. s smoothly and snugly around the patient s arm This prevents bulging or slipping and permits application of an equal pressure over the 6 6 2012 7 50 24 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Prevention of Errors in Blood Pressure Measurement cont d brachial artery A loose fitting cuff can cause a falsely high reading 9 Instruct the patient to relax as much as possible and to not talk during the procedure Patient anxiety and appre hension can increase the blood pressure reading Talking interferes with the medical assistant s ability to hear the Korotkoff sounds 10 Position the earpieces so that you can hear the sounds clearly Place the earpieces of the stethoscope in your ears with the earpieces directed slightly forward This allows the earpieces to follow the direction of the ear canal which facilitates hearing 11 Avoid extraneous sounds from the tubing Make sure the tubing of the stethoscope hangs freely and is not permitted to rub against any object If the stethoscope tubing rubs against an object extraneous sounds may be picked up and this could interfere wit
117. sevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication To obtain an accurate measurement the probe lens must be clean and shiny Dust and other minute particles of environmental debris can build up on the probe lens during normal use preventing the probe sensor from getting an accurate view of the heat emitted by the temporal artery and resulting in a falsely low reading The lens should be cleaned if it becomes dirty and as a part of routine mainte nance The lens is cleaned by gently wiping its surface with an antiseptic wipe and immediately wiping it dry with a cotton tipped applicator stick Chemical Thermometers Chemical thermometers contain chemicals that are heat sensitive and include disposable chemical single use ther mometers and temperature sensitive strips They are used most often by patients at home to measure body tempera ture Although chemical thermometers are less accurate than other types of thermometers they assist in providing a general assessment of body temperature Because of their chemical makeup they should be stored in a cool area preferably colder than 86 F 30 C and should not be exposed to direct sunlight because heat may cause the ther mometer to register a higher temperature Each type of chemical thermometer is described here D PROCEDURE 1
118. sician with various procedures examinations and minor office surgery and admin ister injections run electrocardiograms and perform various laboratory tests Taking vital signs and length and weight on small children can be very challenging at times Some children start to cry as soon as they are put on the scale Taking a temperature on an uncooperative toddler can be very difficult try to calm the child as much as possible and for good behavior give a lot of praise Stickers also are a great reward for cooperative behavior Usually when small children learn that they can trust you they are not as frightened by the experience It is rewarding when a child learns not to be afraid of being evaluated for routine vital signs m for patients with oral inflammation or who have had oral surgery The temperature obtained through the axillary method measures approximately 1 F lower than the same person s temperature taken through the oral route see Table 19 2 The medical assistant should make a notation to tell the physician that the temperature was taken through the axil lary route Rectal Temperature The rectal temperature provides an extremely accurate mea surement of body temperature because few factors can alter the results The rectum is highly vascular and of the five sites provides the most closed cavity The temperature obtained through the rectal route measures approximately 1 F higher than the same persons te
119. sment of Oxygen Saturation Mechanism of Action The probe of the pulse oximeter must be attached to a peripheral pulsating capillary bed such as the tip of a finger One side of the probe contains a light emitting diode LED that transmits infrared light and red light through the patient s tissues to a light detector located on the other side of the probe known as the photodetector Figure 19 15 Hemoglobin that is bright red in color has a high oxygen content oxygen rich and absorbs more of the infrared light 6 6 2012 7 50 13 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication ee Cable Display screen On off control Monitor Probe reusable Figure 19 14 Pulse oximeter Peripheral capillary bed Photodetector Oximeter probe LED transmits infrared and red light Figure 19 15 The probe of the pulse oximeter is attached to a periph eral capillary bed in the fingertip The LED transmits light through the capillary bed to a light detector photodetector located on the other side of the probe to measure the oxygen saturation of hemoglobin emitted by the LED Hemoglobin that
120. t have changed color Figure 19 8 C The thermometer is discarded after use Temperature Sensitive Strips A temperature sensitive strip consists of a reusable plastic strip that contains heat sensitive liquid crystals designed to measure body temperature The plastic strip is pressed onto the forehead and is held in place until the colors stop changing generally for 15 seconds The results are read by observing the color change and noting the corresponding temperature indicated on the strip Figure 19 9 Text continued on p 315 e Plastic probe cover e Waste container Attach the oral probe to the thermometer Continued 6 6 2012 7 49 56 PM L GL 4uNdsI0 d which could result in an inaccurate reading To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication 306 CHAPTER 19 Vital Signs PROCEDURE 19 1 Measuring Oral Body Temperature Electronic Thermometer cont d 3 Procedural Step Greet the patient and introduce your self Identify the patient and explain the procedure If the patient has recently ingested hot or cold food or beverages or has been smoking you must wait 15
121. t in place for 60 seconds C The thermometer is read by noting the highest reading among the dots that have changed color ana BOX 19 1 Temporal Artery Thermometer Guidelines 1 The operating environmental temperature for a temporal artery thermometer is 60 F to 104 F 15 5 C to 40 2 Do not take temperature over scar tissue open sores or abrasions 3 Ensure that the side of the head to be measured is exposed to the environment Anything covering the area to be mea sured e g hair hat wig bandages traps body heat result ing in a falsely high reading 4 A falsely low temporal artery reading can result from the following e A dirty probe lens e Sweating of the forehead in this instance the earlobe measurement becomes the overriding temperature reading e Scanning the forehead too quickly e Not keeping the button depressed while scanning the forehead and the area behind the earlobe From Bonewit West K Clinical procedures for medical assistants ed 8 St Louis w 2011 Saunders Figure 19 9 Temperature sensitive strip The plastic strip is pressed onto the forehead and is held in place until the color stops changing generally for 15 seconds The results are read by observing the color G and noting the corresponding temperature indicated on the strip Bonewit_West_1506_Chapter 19_main indd 315 6 6 2012 7 50 11 PM To protect the rights of the author s and publisher we inform you that this PDF
122. tal screen The probe cover is ejected into a regular waste container The proce dure for taking aural body temperature using a tympanic membrane thermometer is presented in Procedure 19 4 6 6 2012 7 49 54 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Tympanic membrane Infrared waves Figure 19 5 The tympanic membrane thermometer functions by detecting thermal energy that is naturally radiated from the tympanic membrane Base Probe Probe lens Probe cover Figure 19 6 Tympanic membrane thermometer Temporal Artery Thermometer Measuring temperature using a temporal artery thermom eter is the newest method for assessing body temperature A temporal artery thermometer is an electronic device con sisting of a probe attached to a portable unit Figure 19 7 To perform the procedure a scan button is continually depressed while the probe is gently and slowly moved across the patients forehead During this process the probe sensor scans the forehead for the infrared heat given off by the temporal artery The probe sensor cap tures the highest temperature or peak temperatur
123. ter 19_main indd 298 baseline measurements against which future measurements can be compared The medical assistant should have a thor ough knowledge of the vital signs and should attain profi ciency in taking them to ensure accurate findings General guidelines that the medical assistant should follow when measuring the vital signs are as follows 1 Be familiar with the normal ranges for all vital signs Keep in mind that normal ranges vary based on the different age groups infant child adult elder 2 Make sure that all equipment for measuring vital signs is in proper working condition to ensure accurate findings 3 Eliminate or minimize factors that affect the vital signs such as exercise food and beverage consump tion smoking and emotional state 4 Use an organized approach when measuring the vital signs If all of the vital signs are ordered they are usually measured starting with temperature followed by pulse respiration blood pressure and pulse oximetry 6 6 2012 7 49 51 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication TEMPERATURE Regulation of Body Temperature Bod
124. th the thumb and forefinger of your dominant hand until it feels tight but can still be loosened with the thumb and forefinger of one hand when you need to deflate the cuff Pump air into the cuff as rapidly as possible to at least 30 mm Hg above the previously measured or palpated systolic pressure Principle Inflation of the cuff compresses and closes off the brachial artery so that no blood flows through the artery If the patient has had the blood pressure measured previously at the medical office the recorded systolic pressure can be used to determine how high to inflate the cuff Preliminary determination of the systolic pressure by palpation allows the medical assis tant to estimate how high to inflate the cuff Continued 6 6 2012 7 50 28 PM 6 6L 44NdI00dd To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication PROCEDURE 19 9 si h Li cc LLJ cc A Measuring Blood Pressure cont d Pump air into the cuff as rapidly as possible EER Procedural Step Release the pressure at a moderately steady rate of 2 to 3 mm H sec by slowly turning the thumbscrew c
125. tion PROCEDURE 19 7 Measuring Apical Pulse A j LLJ cc LL cc a Outcome Measure apical pulse Equipment Supplies 1 Watch with a second hand Stethoscope Procedural Step Sanitize your hands Greet the patient and introduce yourself Identify the patient and explain the procedure Observe the patient for any signs that might increase or decrease the pulse rate Procedural Step Assemble the equipment If the stethoscopes chest piece consists of a diaphragm and a bell rotate the chest piece to the bell position Clean the earpieces and chest piece of the stethoscope with an antiseptic wipe Principle The bell position allows better auscultation of heart sounds Cleaning the earpieces helps prevent the transmission of microorganisms 3 Procedural Step Ask the patient to unbutton or remove his or her shirt Have the patient sit or lie down supine Principle A sitting or supine position allows access to the apex of the heart EW Procedural Step Warm the chest piece of the stetho scope with your hands Insert the earpieces of the stethoscope into your ears with the earpieces directed slightly forward and place the chest piece over the apex of the patients heart The apex of the heart is located in the fifth intercostal space at the junction of the left midclavicular line Principle Warming the chest piece reduces the dis comfort of having a cold object placed on the chest
126. tiple blood pressure measurements Disadvantages l There are certain factors that can cause an auto mated device to fail to obtain a reading These include patient movement muscle tremors preeclampsia dysrhythmias such as atrial fibrillation and a very weak pulse If any of these conditions are present an alternative method of blood pressure measurement should be used Because the device relies on brachial artery oscillations to obtain a reading stiff arteries especially in older patients can interfere with obtaining an accurate reading Automated oscillometric devices are expensive e Antiseptic wipe Rotate the chest piece to the diaphragm position Continued 6 6 2012 7 50 26 PM 6 6L 4uNd4sI0 d To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication si k Li cc LLJ cc A Procedural Step Greet the patient and introduce yourself Identify the patient and explain the proce dure Explain to the patient that measuring blood pressure may normally cause a little numbing and tingling in the arm when the cuff is inflated While explaining the
127. to 30 minutes before taking the temperature Principle Ingestion of hot or cold food or beverages and smoking change the temperature of the mouth E Procedural Step Grasp the probe by the collar and remove it from the face of the thermometer Slide the probe into a disposable plastic probe cover until it locks into place Principle Removing the probe from the thermometer automatically turns on the thermometer The probe cover prevents the transfer of microorganisms from one patient to another Insert the probe under the patient s tongue 7 0 j LLJ z LLJ z o A H Procedural Step Hold the probe in place until you hear the tone At that time the patients temperature appears as a digital display on the screen Make a mental note of the temperature reading The tempera ture indicated on this thermometer is 98 2 F 36 8 C Slide the probe into a probe cover EN Procedural Step Take the patient s temperature by inserting the probe under the patients tongue in the pocket located on either side of the frenulum linguae Instruct the patient to keep the mouth closed Principle There is a good blood supply in the tissue under the tongue The mouth must be kept closed to prevent cooler air from entering and affecting the tem perature reading The patient s temperature appears as a digital display on the screen Bonewit_West_1506_Chapter 19_main indd 306 6 6 2012 7 49 58 PM To
128. w often should aerobic exercise be performed To promote and maintain health the American Heart Associa tion recommends that healthy adults aged 18 to 65 spend at least 30 minutes a day 5 days a week in moderately intense aerobic exercise e g brisk walking or 20 minutes 3 days each week in vigorous intensity exercise e g jogging or a combination of moderate and vigorous exercise These moder ate and vigorous intensity recommendations should be added to the light intensity activities of daily living such as washing dishes and taking out the trash In addition the AHA recom mends that adults perform activities that maintain or increase muscular strength and endurance a minimum of 2 days each week The American Heart Association further recommends that children and adolescents engage in at least 60 minutes per day of moderate to vigorous physical activity m respiration may be concerned that the child would cease to breathe The medical assistant should be able to explain that involuntary respiration would eventually occur and the child would resume breathing Assessment of Respiration Because an individual can control his or her respiration the medical assistant should measure respirations without the patient s knowledge Patients may change their respiratory rate unintentionally if they are aware that they are being measured An ideal time to measure respiration is after the pulse is taken Procedure 19 6 outlines the proc
129. weating than the forehead During sweating the blood vessels behind the earlobe dilate resulting in a constant steady flow of blood which provides an accurate measurement of body temperature After scanning the forehead the medical assistant must place the probe of the thermometer in the soft depression of the neck just below the mastoid process of the ear If the patient s forehead has cooled from sweating the earlobe temperature automatically registers as the peak temperature thereby overriding the forehead temperature The area behind the earlobe does not normally provide an accurate body temperature measurement and supersedes the forehead measurement only when the patient is in a diaphoretic state Additional guidelines for temporal artery temperature measurement are presented in Box 19 1 Care and Maintenance The temporal artery thermometer should be stored in a clean dry area The thermometer must be protected from extremes in temperature direct sunlight and dust The casing of the thermometer should be cleaned periodically with a soft cloth moistened with a solution of warm water and a disinfectant cleaner never splash water on or immerse the unit in water because this could damage the internal components of the thermometer 6 6 2012 7 49 55 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s El
130. xide is given off as a waste product Each respiration is divided into two phases inhalation and exhalation Figure 19 12 During inhalation or inspi ration the diaphragm descends and the lungs expand causing air containing oxygen to move from the atmosphere into the lungs Exhalation or expiration involves the removal of carbon dioxide from the body The diaphragm ascends and the lungs return to their original state so that air contain ing carbon dioxide is expelled One complete respiration is composed of one inhalation and one exhalation Respiration can be classified as external or internal Exter nal respiration involves the exchange of oxygen and carbon dioxide between the alveolus thin walled sacs of the lungs and the blood Figure 19 13 The blood located in small capillaries comes in contact with the alveoli picks up oxygen and carries it to the cells of the body At this point 6 6 2012 7 50 12 PM To protect the rights of the author s and publisher we inform you that this PDF is an uncorrected proof for internal business use only by the author s editor s reviewer s Elsevier and typesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication DMZ HN Aerobic Exercise Answer questions patients have about aerobic exercise What is aerobic exercise Aerobic exercise increase
131. y temperature is maintained within a fairly constant range by the hypothalamus which is located in the brain The hypothalamus functions as the body s thermostat It normally allows the body temperature to vary by only about 1 to 2 Fahrenheit F throughout the day Body temperature is maintained through a balance of the heat produced in the body and the heat lost from the body Figure 19 1 A constant temperature range must be main tained for the body to function properly When minor changes in the temperature of the body occur the hypo thalamus senses this and makes adjustments as necessary to ensure that the body temperature stays within a normal and safe range If an individual is playing tennis on a hot day the body s heat cooling mechanism is activated to remove excess heat from the body through perspiration Heat Production Most of the heat produced in the body is through voluntary and involuntary muscle contractions Voluntary muscle contractions involve the muscles over which a person has control for example the moving of legs or arms Involun tary muscle contractions involve the muscles over which a person has no control examples are physiologic processes such as digestion the beating of the heart and shivering Body heat also is produced by cell metabolism Heat is produced when nutrients are broken down in the cells Fever and strong emotional states also can increase heat production in the body Heat Loss Heat
132. ypesetter Toppan Best set It is not allowed to publish this proof online or in print This proof copy is the copyright property of the publisher and is confidential until formal publication Components of the Pulse Oximeter Most medical offices use a handheld pulse oximeter see Figure 19 14 which is portable lightweight and battery operated This is in contrast to a stand alone oximeter which is more apt to be used in a hospital setting for the continuous bedside monitoring of a patients oxygen satura tion level A pulse oximeter not only measures oxygen satu ration it also measures the pulse rate in beats per minute The two main parts of the pulse oximeter the monitor and the probe are described in detail next Monitor The monitor contains controls indicators and displays Figure 19 16 These may vary slightly depending on the brand of oximeter Those that are found on most handheld pulse oximeters include the following 1 On off control Turns the oximeter on and off 2 SpO display A digital display of the patient s oxygen saturation expressed as a percent This number is updated with each pulse beat 3 Pulse rate display This display indicates the patient s pulse rate in beats per minute This number is updated with each pulse beat Most oximeters emit a constant pitched audible beep with each pulse beat 4 Pulse strength bar graph indicator This indicator provides a visual display of the patients pulse st
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