1. Chapter 15 Bedside Assessment of the Patient
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2. Learning Objectives
Describe why patient interviews are necessary and the appropriate techniques for conducting an interview.
Identify abnormalities in lung function associated with common pulmonary symptoms.
Identify breathing patterns associated with underlying pulmonary disease.
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3. Learning Objectives (cont.)
Differentiate between dyspnea and breathlessness.
Identify terms used to describe normal and abnormal lung sounds.
Describe the mechanisms responsible for normal and abnormal lung sounds.
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4. Learning Objectives (cont.)
Explain why it is necessary to examine the precordium, abdomen, and extremities in a patient with cardiopulmonary disease.
Describe some of the common abnormalities found during the exam of the precordium, abdomen, and extremities in patients with cardiopulmonary disease.
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5. Introduction
Bedside assessment—process of interviewing & examining patient for signs & symptoms of disease
Inexpensive & little risk to patient
Part of initial assessment to identify diagnosis & to evaluate ongoing effects of treatment
2 key sources of patient data:
Medical history
Physical examination
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6. Interviewing Purposes Establish rapport with patient
Obtain essential diagnostic information
Help monitor changes in patient’s symptoms & response to therapy
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7. Helps identify the need for subsequent diagnostic tests
All of the following are reasons why a clinician should review a patient’s medical history and perform a physical examination, except:
Helps identify the need for subsequent diagnostic tests
Helps select the best approach for therapy
Helps monitor patient’s progress toward predefined goals
Determines how long the patient will remain in the hospital
Answer: D
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8. Interviewing (cont.) Technique
Introduce yourself in social space (~4-12 feet)
Interview in personal space (~2-4 feet)
Use appropriate eye contact
Assume physical position at same level as patient
Avoid use of leading questions; use neutral questions
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9. Interviewing (cont.) Common questions to ask for each symptom:
When did it start?
How severe is it?
Where on body is it?
What seems to make it better or worse?
Has it occurred before?
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10. Cardiopulmonary Symptoms
Dyspnea
Sensation of breathing discomfort by patient (subjective feeling)
Most important symptom RT is called upon to assess & treat
Breathlessness
Sensation of unpleasant urge to breathe
Can be triggered by acute hypercapnia, acidosis & hypoxemia
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11. Cardiopulmonary Symptoms
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12. Cardiopulmonary Symptoms
Dyspnea
Subjective experience. Should not be inferred from observing patient`s breathing pattern
Orthopnea: dyspnea in reclining position; associated w/ CHF
Platypnea: dyspnea in upright position associated w/ arteriovenous malformation
Degree of dyspnea is evaluated by asking about level of exertion at which it occurs
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13. Cardiopulmonary Symptoms (cont.)
Language of Dyspnea
Ask patient about quality & characteristics of dyspnea (may provide insight into its causes)
Patients w/ asthma frequently complain of chest tightness
Patients w/ interstitial lung disease may complain of increased WOB, shallow breathing & gasping
Patients w/ CHF may complain of feeling suffocated
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14. Cardiopulmonary Symptoms (cont.)
Assessing dyspnea during an interview:
Pay attention to whether patient can speak in full sentences
Questions should be brief & limited to quality & intensity of dyspnea & circumstances of symptom onset
Assessment should correspond with gross examination of patient’s breathing pattern
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15. Cardiopulmonary Symptoms (cont.)
Psychogenic Dyspnea: Panic Disorders & Hyperventilation
Patients have normal cardiopulmonary function of intense dyspnea & suffocation
May coincide w/ symptoms, such as chest pain, anxiety, palpitation & paresthesia
Anxiety often accompanied by breathlessness & hyperventilation
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16. A patient with congestive heart failure, complains that when he assumes a reclining position he begins to feel dyspneic, what kind of condition is this patient describing?
Platypnea
Orthopnea
Apnea
Eupnea
Answer: B
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17. Cardiopulmonary Symptoms (cont.)
Cough
Cough occurs when cough receptors in airways are stimulated by inflammation, mucus, foreign material, or noxious gases
Weak cough is often due to high Raw, poor lung recoil, weak muscles or pain
Patients with airways disease often have loose, productive cough
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18. All of the following are common causes of a weak cough effort, except:
steroid administration
high airway resistance (Raw)
weak respiratory muscles
poor lung recoil
Answer: A
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19. Cardiopulmonary Symptoms (cont.)
Sputum production
Mucus from tracheobronchial tree not contaminated by oral secretion is called “phlegm”
Mucus from lower airways but is expectorated through mouth is called “sputum”
Sputum having pus cells is said to be “purulent”
Foul smelling sputum is “fetid”
Recent changes in sputum color, viscosity, or quantity may indicate infection
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20. Cardiopulmonary Symptoms (cont.)
Hemoptysis
Coughing up blood or bloody sputum
Characterized—massive or non-massive
Massive
More than 300 ml of blood expectorated over 24 hours
Common causes: bronchiectasis, lung abscess, & acute or old tuberculosis
Distinguished from hematemesis (vomiting blood from gastrointestinal tract)
Non-massive
Common causes include: infection of airway, tuberculosis, trauma, & pulmonary embolism
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21. Cardiopulmonary Symptoms (cont.)
Chest pain
Pleuritic chest pain—located laterally or posteriorly - sharp in nature, & increases w/ deep breathing (pneumonia & pulmonary embolism)
Nonpleuritic chest pain—located in center of chest & may radiate to shoulder or arm—often caused by coronary artery disease & known as angina in such cases (other causes: gastroesophageal reflux & esophageal spasm)
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22. Cardiopulmonary Symptoms (cont.)
Fever
Elevation of body temperature due to disease
May occur w/ simple viral infection of upper airway or with serious bacterial pneumonia, tuberculosis, & some cancers
Causes increased metabolic rate, oxygen consumption & carbon dioxide production
Particularly dangerous in patients w/ severe chronic cardiopulmonary disease, as it may cause acute respiratory failure
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23. Cardiopulmonary Symptoms (cont.)
Pedal edema
Swelling of lower extremities - most often due to heart failure
2 subtypes;
Pitting edema—indentation mark left on skin after applied pressure
Weeping edema—small fluid leak occurs at point where pressure applied
Patients w/ chronic hypoxemic lung disease usually develop right heart failure (cor pulmonale) due to pulmonary hypertension
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24. Pleuritic chest pain can be associated with all these diseases, except:
Pneumonia
Pulmonary Embolism
Costochondritis
Pneumothorax
Answer: C
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25. Medical History Familiarizes clinician w/ patient’s condition
Reviewing patient’s chart:
Chief complaint (CC)/ history of present illness (HPI)—explains current medical condition
Past medical history (PMI)
Review of systems (ROS)
Social/Environmental history
Advance directive
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26. Medical History (cont.)
RT’s priority—ensure all respiratory care procedures are supported by physician order (current, clearly written & complete)
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27. 65 year-old female states that she has been smoking for 40 years and approximately 1/2 pack of cigarette per day. How would you document this patient’s smoking history for the record?
10 pack-year
20 pack-year
30 pack-year
40 pack-year
Answer: B
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28. Physical Examination
Essential for evaluating patient’s problem & determining ongoing effects of therapy
Consists of 4 steps:
Inspection (visually examining)
Palpation (touching)
Percussion (tapping)
Auscultation (listening with stethoscope)
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29. General Appearance Done during first few seconds of patient encounter
Indicators to assess:
Level of consciousness
Facial expression
Level of anxiety or distress
Body positioning
Personal hygiene
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30. Level of Consciousness
Sensorium: Level of consciousness & orientation to time, place, person & situation (oriented x 4)
Reflects oxygenation status of brain
Affected by poor cerebral blood flow (hypotension)
If patient not alert—standard rating scale is used to objectively describe patient’s level of consciousness (Box 15-5, p. 338)
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31. Vital Signs (VS)
Easy to obtain & provide useful information about current health status
VS provide first clue to adverse reactions to treatment
Vital Signs = RR, HR, BT, BP
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32. Vital Signs (VS)
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33. Body Temperature Normal: 98.6 oF or 37.0 oC
Increased temperature: Hyperthermia or hyperpyrexia (fever)
Decreased temperature: Hypothermia
Can be measured at: mouth, axilla, ear or rectum
Rectal temp: closest to core body temperature
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34. A patient presents to the ER complaining of chills and profuse sweating for the last two days. A rectal temperature shows 102.3oF. This patient is said to be:
Hypothermic
Febrile
Confused
Emaciated
Answer: B
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35. Heart Rate (HR) Evaluate rate, rhythm & strength
Tachycardia: HR>100 beats/min.Treat causes first
Bradycardia: HR<60 beats/min
Measure for full minute if pulse is irregular
Pulsus paradoxus vs. pulsus alternans
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36. Respiratory Rate (RR)
Resting adult RR is 12 to 18 breaths per minute (bpm)
Tachypnea >20 bpm
Bradypnea <10 bpm
Do not reveal assessment of RR to patient
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37. Blood Pressure (BP) Systolic: 90 to 140 mmHg Diastolic: 60 to 90 mmHg
Pulse pressure: difference between systolic & diastolic. Usually 30 to 40 mmHg
Hypertension: BP persistently >140/90
Hypotension: Systolic BP <90 mmHg or mean art. pressure <65 mmHg
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38. Head & Neck Exam
Head
Abnormal signs help indicate respiratory problems
Nasal flaring: often seen in infants w/ respiratory distress—increased WOB
Cyanosis of oral mucosa (central cyanosis) indicates respiratory failure due to low oxygen levels
Pursed-lip breathing—seen in patients w/ COPD to prevent collapse of small airways
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39. Head & Neck Exam (cont.) Neck
Trachea should be midline;may shift away from midline in certain thoracic disorders
Jugular venous distention (JVD) is seen in patients w/ CHF & cor pulmonale
Enlarged lymph nodes in neck may occur w/ infection or malignancy
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40. pulmonary hypertension
A COPD patient arrives in the ER complaining of swollen ankles and shortness of breath while laying flat. On physical exam a positive JVD is noted. You should suspect all of the following, except:
right heart failure
cardiac tamponade
cor pulmonale
pulmonary hypertension
Answer: B
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41. Examination of Thorax
Barrel chest—seen w/ emphysema; indicates poor lung recoil
Fig 15-3
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42. Examination of Thorax (cont.)
Pectus carinatum—abnormal protrusion of sternum
Pectus excavatum—abnormal depression of sternum
Kyphoscoliosis—abnormal curvature of spine; often causes severe restrictive lung disease
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43. Examination of Thorax (cont.)
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44. Breathing Pattern
Abnormal breathing pattern—broken into 2 broad categories:
Associated w/ thoracic or pulmonary disease that increases WOB (asthma)
Associated w/ neurologic disease (central sleep apnea)
Rapid & shallow breathing is consistent w/ restrictive lung diseases
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45. Breathing Pattern (cont.)
Prolonged expiratory time—consistent w/ obstructive lung disease
Upper airway obstruction often causes prolonged inspiratory time
Deep & fast breathing is consistent with Kussmaul breathing (ketoacidosis)
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46. Diaphragmatic Fatigue
Found in many types of chronic & acute pulmonary diseases
Signs of acute fatigue:
Tachypnea
Diaphragm & rib cage muscles take turns powering breathing (respiratory alternans)
Abdominal paradox occurs w/ complete diaphragmatic fatigue
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47. All of these are common causes of an abnormal breathing pattern associated with thoracic or pulmonary disease that increases work of breathing, except:
Central sleep apnea
COPD
Asthma
Pulmonary edema
Answer: A
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48. Chest Palpation
Vocal & tactile fremitus is increased w/ pneumonia & atelectasis (consolidation)
Vocal & tactile fremitus is reduced w/ emphysema, pneumothorax, & pleural effusion
Bilateral reduction in chest expansion—seen in neuromuscular disorders & COPD
Unilateral reduction in chest expansion: consistent w/ pneumonia or pneumothorax
Air leaks into subcutaneous tissues causes “crepitus”—sign of subcutaneous emphysema
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49. Chest Percussion Resonance of chest evaluated w/ percussion
Findings should be labeled as “normal,” “increased,” or “decreased” resonance
Decreased resonance—pneumonia or pleural effusion (consolidation)
Increased resonance—emphysema or pneumothorax (air)
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50. Chest Auscultation Lung sounds come in 2 varieties
Breath sounds
Adventitious lung sounds
Breath sounds = normal sounds of breathing
Adventitious lung sounds = abnormal sounds
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51. Breathing Pattern
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52. Chest Percussion
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53. Chest Auscultation (cont.)
Breath sounds
Tracheal breath sounds: heard directly over trachea; created by turbulent flow; loud with expiratory component equal to or slightly longer than inspiratory component
Bronchovesicular breath sounds: heard around sternum; softer & slightly lower in pitch
Vesicular breath sounds: heard over lung parenchyma; very soft & low-pitched
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54. Chest Auscultation (cont.)
Breath sounds
Reduced w/ shallow breathing; when attenuation is increased (when lung is hyperinflated—emphysema)
Increased when attenuation is reduced & turbulent flow sounds pass through lung faster (pneumonia)
Increased breath sounds often called “bronchial” breath sounds
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55. Chest Auscultation (cont.)
Adventitious lung sounds
2 varieties:
Discontinuous
Intermittent crackling
Bubbling sounds of short duration
Referred to as “crackles”
Continuous
Referred to as “wheezes”
Heard over the upper airway is called “stridor”
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56. Chest Auscultation (cont.)
Bronchial breath sounds
Abnormal if heard over peripheral lung regions
Replacing normal vesicular sounds when lung tissue density increases
Diminished breath sounds
Occur when sound intensity at site of generation (larger airways) is reduced due to shallow or slow breathing, or
When sound transmission through lung or chest wall is decreased (COPD or asthma)
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57. Chest Auscultation (cont.)
Wheezes are
Consistent w/ airway obstruction
Monophonic wheezing indicates one airway is affected
Polyphonic wheezing indicates many airways are involved
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58. Chest Auscultation (cont.)
Stridor
Upper airway compromised
Chronic stridor—laryngomalacia
Acute stridor—croup
Inspiratory stridor—narrowing above glottis
Expiratory stridor—narrowing of lower trachea
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59. Chest Auscultation (cont.)
Coarse crackles
Airflow moves secretions or fluid in airways
Usually clears when patient coughs or upper airway is suctioned
Fine crackles
Sudden opening of small airways in lung deep breathing
Heard w/ pulmonary fibrosis & atelectasis
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60. Chest Auscultation (cont.)
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61. What condition may cause an RT to hear sudden high-pitched popping noises during the late-inspiration phase?
Atelectasis
Asthma
Croup
Bronchitis
Answer: A
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62. Cardiac Examination Chest wall overlying heart is known as precordium
Inspected, palpated, & auscultated for abnormalities
Right ventricular hypertrophy causes an abnormal pulsation can be seen & felt near lower margin of sternum; consistent w/ cor pulmonale (COPD)
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63. Cardiac Examination (cont.)
Heave is abnormal pulsation felt over precordium
Murmur is abnormal heart sound, often heard over precordium
Murmurs produced by blood flowing through narrowed opening
Systolic murmurs caused by stenotic semilunar valves & incompetent AV valves
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64. Cardiac Examination (cont.)
Diastolic murmurs caused by stenotic AV valves or incompetent semilunar valves
Murmurs may also be created by rapid blood flow through normal valve in healthy people during heavy exercise
Murmurs in babies may suggest cardiovascular abnormalities related to inadequate adjustment to extrauterine life
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65. Cardiac Examination (cont.)
S1: created by closure of AV valves
S2: created by closure of semilunar valves
S3: abnormal in adults & caused by rapid filling of stiff left ventricle
S4: caused by atrial “kick” of blood into noncompliant left ventricle
When patient has both S3 & S4—gallop rhythm is present
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66. Abdominal Exam Abdomen inspected & palpated for distention tenderness
Abdominal compartment syndrome – when intra-abdominal pressures >20mmHg.
An enlarged liver (hepatomegaly) is consistent with cor pulmonale.
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67. Examination of Extremities
Digital clubbing (not common) - seen in large variety of chronic conditions: congenital heart disease, bronchiectasis, various cancers, & interstitial lung diseases
Fig 15-10
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68. Examination of Extremities (cont.)
Digital cyanosis (acrocyanosis): often sign of poor perfusion; hands& feet typically cool to touch in such cases
Acrocyanosis occurs frequently in newborns; usually disappears w/in 24 to 72 hrs after birth
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