Intro to Pulmonology

Question 1

Dependent lobe of the lung

Answer 1

Right lower lobe

Right bronchus (vs. left)

• more vertical
• larger
• more posterior

Question 2

Physical exam - inspection

Answer 2

• pursed lip breathing
• accessory muscle use
• clubbing
• cyanosis
• edema
• chest wall
• –> barrel chest
• –> kyphosis
• –> pectus excavatum
• –> pectus carinatum

Question 3

Physical exam - palpation

Answer 3

1. Expansion of the hemithoraces –> inspect and palpate
2. Tracheal shifts
   - loss of volume (atelectasis) –> shifts TOWARDS loss
   - increase in volume (effusion, pneumothorax) –> shits AWAY from increase
3. Crepitus
4. Tactile fremitus = vibration that is palpated on the chest wall when a patient is speaking (“99”)
   - increased = consolidation –> increased sound transmission from large airways to periphery
   - decreased = caused by processes that move the lung away from the chest wall –> pleural fluid (effusion) or air (pneumothorax)

Question 4

Physical exam - percussion

Answer 4

1. Normal/resonant = normal lung
2. Hyperresonance/tympanitic = increased air –> pneumothorax or hyperinflation (COPD, emphysema)
3. Dull = consolidation, atelectasis
4. Flat = effusion

Question 5

Physical exam - ausculation –> breath sounds

Answer 5

1. Normal/vesicular –> hear inspiration clearly, but only a short portion of expiration
2. Bronchial of tubular –> expiration is as prominent and sometimes more prominent than inspiration
   - normal over the trachea. abnormal over the lung
   - consolidation
3. Decreased breath sounds –> atelectasis, effusion, pneumothorax
4. Stridor –> mostly inspiratory coarse wheeze heard over the neck and due to upper airway narrowing

Question 6

Physical exam - auscultation –> adventitial sounds

Answer 6

1. Crackles/rales –> probably from opening of small airways that had been closed
   - generally heard at end inspiration
   - seen with diffuse lung disease (fibrosis) + pulmonary edema
2. Wheezing –> high pitched, generally heard on expiration
   - seen in asthma + COPD
3. Ronchi –> lower pitched wheezing

Question 7

Physical exam - auscultation –> voice generated sounds

Answer 7

1. Egophany = patient says “e” and it sounds like “a” –> consolidation
2. Whispered pectoriloquy = a patient’s whispering of “1,2,3” is exaggerated –> consolidation

Question 8

Physical exam - auscultation –> pleural friction rub

Answer 8

Creaking sound generated by the inflamed visceral and parietal pleural surfaces rubbing together

Question 9

Physical exam findings - Asthma/COPD

Answer 9

1. Inspection
   - pursed lip breathing
   - barrel chest
2. Palpation
   - decreased fremitus bilaterally
3. Percussion
   - hyperresonance bilaterally
4. Auscultation
   - wheezing or rhonchi bilaterally

Question 10

Physical exam findings - Pneumothorax

Answer 10

1. Inspection
   - hyperinflation of ipsilateral hemithorax
2. Palpation
   - decreased movement with inspiration of ipsilateral hemithorax
   - ipsilateral decreased fremitus
   - contralateral tracheal shift
   - subcutaneous crepitus
3. Percussion
   - hyperresonance of ipsilateral hemithorax
4. Auscultation
   - decreased breath sounds over ipsilateral hemithorax

Question 11

Physical exam findings - Pleural effusion

Answer 11

1. Inspection
2. Palpation
   - decreased movement with inspiration of ipsilateral hemithorax
   - ipsilateral decreased or absent fremitus
   - contralateral tracheal shift
3. Percussion
   - dull of flat over ipsilateral hemithorax
4. Auscultation
   - decreased breath sounds over the ipsilateral hemithorax
   - occasionally pleural rub

Question 12

Physical exam findings - Consolidation

Answer 12

1. Inspection
2. Palpation
   - increased fremitus over consolidated areas
3. Percussion
   - dull over consolidated areas
4. Auscultation
   - over consolidated areas
   - –> bronchial breath sounds
   - –> egophagny
   - –> whispered pectoriloquy

Question 13

Physical exam findings - Bronchial obstruction with atelectasis

Answer 13

1. Inspection
2. Palpation
   - decreased movement with inspiration of ipsilateral hemithorax
   - ipsilateral tracheal shift
   - ipsilateral decreased fremitus
3. Percussion
   - dull over ipsilateral hemithorax
4. Auscultation
   - decreased breath sounds over ipsilateral hemithorax

Question 14

Physical exam findings - Fibrosis

Answer 14

1. Inspection –> clubbing
2. Palpation
3. Percussion
4. Auscultation –> crackles, usually bilaterally

Question 15

Lung pathology - methods for obtaining pathologic speciments

Answer 15

1. Cough –> sputum for gram stain
2. Percutaneous needle aspirate –> stain cells of small pieces of lung tissue
3. Bronchoscopy
   - –> bronchioalveolar lavage = stain cells in fluid
   - –> transbronchial needle aspirate = stain cells
   - –> small pieces of lung tissue
4. Surgical lung biopsy –> larger pieces of lung tissue

• **Important distinction
• –> cytology = loose cells, usually from sputum, fluid or needle aspirate
• –> histopathology = pieces of tissue from biopsy, can look at architecture

Question 16

Pathologic patterns that occur in response to lung injury

Answer 16

• acute inflammation = neutrophils
• diffuse alveolar damage
• organizing pneumonia
• granulomatous inflammation
• usual interstitial pneumonia
• non-specific interstitial pneumonia
• neoplasia

***al occur in response to injury of the lung, often unknown why one particular pattern occurs vs. another

Question 17

Mechanisms of injury of the lung

Answer 17

1. Inhalational injury (exogenous) –> starts with epithelial injury
   - microbes, toxins, allergens, smoke, mineral dusts, gastric acid, environmental spills, illicit substance abuse, etc…
2. Hematogenous (endogenous) –> starts with endothelial injury
   - sepsis, autoimmune disease, drug of med toxicity
3. “Organizing” pattern of injury –> foci of organization that is a non-specific response to lung injury, probably represents a form of wound healing
   - the pathologic term which is used in a particular instance depends on
4. the overall background pattern of lung injury ovserved on the slide under low power AND
5. by history/physical, whether or not this organization pattern has a readily identifiable etiology or is of unknown cause

Question 18

Pathologic terms to describe lung injury

Answer 18

• bronchiolitis obliterans organizing pneumonia
• organizing pneumonia –> focal
• organizing diffuse alveolar damage –> seen diffusely throughout the lung
• fibroblastic foci –> seen on a background of usualy insterstitial pneumonia pattern
• post infectious organizing pneumonia

Question 19

What can/can’t spirometry measure?

Answer 19

Measures:

1. FVC
2. Tidal volume
3. FEV1
4. FEV1:FVC ratio

Can’t measure

1. TLC
2. FRC
3. RV

Question 20

3 steps to interpreting spirometry

Answer 20

1. Look at the shapes of the volume time curve –> may be:
   - obstructed
   - not obstructed –> normal or restricted
2. Look at the FEV1/FVC ratio –> may be:
   - normal (or increased)
   - decreased
3. Look at the FEV1 and FVC values and the percents of their predicted values –> may be:
   - normal
   - low grade severity of obstruction, if present
   - low grade severity of restriction, if present

Question 21

Definition and grading of obstruction

Answer 21

Definition:

• flattened volume-time curve and scooped out expiratory limb of flow volume curve
• low FEV1/FVC ratio
• low FEV1

Grade obstruction:
- FEV1 % of predicted value
- FVC % of predicted value
>80% predicted value = normal

Question 22

Definition and grading of restriction

Answer 22

Definition:

• small volume time curves
• narrow and small flow volume curves
• normal or increased FEV1/FVC ratio
• low FEV1 and FVC (and TLC –> can’t measure on spirometry though)

Grade restriction:
- FVC % of predicted value

Question 23

Mixed ventilator defect

Answer 23

Obstruction and restriction –> both patterns seen on the same PFT maneuver

• low FEV1/FVC ratio = obstruction
• low TLC (need lung volumes) = restriction

Grade severity by FEV1 % of predicted

Question 24

Lung volume testing

Answer 24

Measures FRC –> perform spirometry to add/subtract to conclude a TLC and RV
- low TLC defines restriction

Two methods

1. Body plethysmography
2. Gas dilution
   - –> helium
   - –> nitrogen washout

Question 25

DLco

Answer 25

Reflects the amount of normally functioning alveolar capillary units = alveoli with voth alveolar gas and capillary blood flow

• reduced by diseases which temporarily or permanently decrease alveolar spaces and/or decrease alveolar capillaries
• –> emphysema
• –> fibrosis
• –> pulmonary vasculature disease

Grading severity –> % of predicted DLco

Question 26

Fixed upper airway obstruction

Answer 26

May be either an intrathoracic or extrathoracic upper airway lesion, but we cannot determine the location by the appearance of the FV loop because the lesion is fixed –> the airway will not change size in response to pressure changes

Question 27

Variable intrathoracic upper airway obstruction

Answer 27

Below the thoracic inlet (e.g. tracheal neoplasm)

- airway is more obstructed during exhalation –> inspiration will look normal, expiration will look decreased

Question 28

Variable extrathoracic upper airway obstruction

Answer 28

Above the thoracic inlet (e.g. vocal cord paralysis)
- upper airway wants to collapse a little bit during inhalation, and is more expanded during exhalation –> curve looks abnormal during inhalation and normal during exhalation