Pulmonology

Question 1

Areas of gas exchange in the respiratory tract

Answer 1

Respiratory bronchiole

Question 2

4 basic lung volumes

Answer 2

Inspiratory Reserve Volume (IRV)

Question 3

Amount of air inhaled /exhaled with each normal breath

Answer 3

TV (~0.5L)

Question 4

Amount of air remaining in the lungs after full exhalation

Answer 4

RV (maintains oxygenation between breaths)

Question 5

Maximum amount of air that one can inhale/exhale

Answer 5

Vital Capacity (IRV + TV + ERV)

Question 6

Anatomic dead space volume

Answer 6

Area with no gas exchange from nose to terminal bronchiole (~150mL)

Question 7

Physiologic dead space volume

Answer 7

Anatomic dead space volume + alveolar dead space volume

Question 8

Alveolar Ventilation per minute

Answer 8

Respiratory Rate x (TV - Physiologic Dead Space Volume)

Question 9

Minute Respiratory Volume

Answer 9

TV x RR

Question 10

Stimulates central chemoreceptors in the medulla

Answer 10

Carbon Dioxide (as CSF +)

Question 11

Lung Zones

Answer 11

Zone 1 (no blood flow)

Question 12

Increase in the following factors would cause shift to the right of the O2-Hgb dissociation curve (unloading of O2 from Hgb)

Answer 12

Mnemonic: CADET face RIGHT: CO2, Acidosis, 2,3-DPG, Exercise, Temperature

Question 13

Increase in the following factors would cause shift to the left of the O2-Hgb dissociation curve (increased binding of O2 to Hgb)

Answer 13

Carbon monoxide, fetal hemoglobin

Question 14

Percentage of blood that gives up oxygen as it passes through the tissue capillaries

Answer 14

Utilization coefficient (25% at rest, 75-85% during exercise)

Question 15

Central control of inspiration; sends inspiratory ramp signals

Answer 15

Dorsal respiratory group (DRG) of the medulla

Question 16

Central control of both inspiration and expiration; sends overdrive mechanism in exercise

Answer 16

Ventral respiratory group (VRG) of the medulla

Question 17

Limits inspiration and increases respiratory rate

Answer 17

Pneumotaxic center of the pons

Question 18

Stimulates the inspiration and decreases the respiratory rate

Answer 18

Apneustic center of the pons

Question 19

Receptors in the ventral medulla that is stimulated by CSF H+ from blood CO2; adapts within 1-2 days

Answer 19

Central chemoreceptors

Question 20

Receptors in carotid bodies (CN IX) and aortic bodies (CN X); activated when PO2 < 70 mmHg and to a lesser extent, CO2

Answer 20

Peripheral chemoreceptors

Question 21

Reversibility in asthma (spirometry)

Answer 21

> 12% and 200mL increase in FEV1: 15 minutes after an inhaled short-acting B2-agonist; or

Question 22

Physiologic abnormality of asthma

Answer 22

Airway hyperresponsiveness

Question 23

Pathogenesis behind asthma

Answer 23

Imbalance favoring TH2 production over TH1 -> increases IL-1, IL-5 -> increased eosinophils

Question 24

Putative mediators of asthma

Answer 24

SRS-A (made up of leukotrienes C4, D4, E4)

Question 25

Whorls of shed epithelium in mucus plugs in asthma

Answer 25

Curschmann?s Spirals

Question 26

Crystalloid made up of eosinophil membrane protein seen in both asthma & amoebiasis

Answer 26

Charcot-Leyden Crystals

Question 27

Predominant key cell involved in asthma

Answer 27

None

Question 28

Characteristic feature of asthmatic airways

Answer 28

Eosinophil infiltration

Question 29

Most common triggers of acute severe asthma exacerbations

Answer 29

URTI: rhinovirus, respiratory syncytial virus (RSV), coronavirus

Question 30

Mechanism of exercise-induced asthma (EIA)

Answer 30

Hyperventilation

Question 31

EIA is best prevented by regular treatment with

Answer 31

Inhaled corticosteroids (ICS)

Question 32

Confirms airflow limitation with a reduced FEV1, FEV1/FVC ratio, and PEF

Answer 32

Spirometry

Question 33

Confirms diurnal variation in airflow obstruction

Answer 33

Measurements of PEF twice daily

Question 34

Primary action of B2-agonists

Answer 34

Relax smooth-muscle cells of all airways, where they act as functional antagonists

Question 35

Most common side effect of anticholinergics

Answer 35

Dry mouth

Question 36

Most common side effects of theophylline

Answer 36

Nausea, vomiting, headaches

Question 37

Most effective controllers for asthma

Answer 37

ICS

Question 38

Indicates the need for regular controller therapy

Question 39

Most common reason for poor control of asthma

Question 40

Drugs that are safe for asthma in pregnancy

Question 41

Most common pathogenesis of pneumonia

Answer 41

Aspiration

Question 42

Most common etiology of community-acquired pneumonia

Answer 42

Streptococcus pneumoniae

Question 43

Most common etiology of atypical pneumonia

Answer 43

Mycoplasma pneumonia

Question 44

Most common cause of nosocomial pneumonia and pneumonia in cystic fibrosis patients

Answer 44

Pseudomonas aeruginosa

Question 45

Most common viral cause of atypical pneumonia and bronchitis in children

Answer 45

Respiratory Syncytial Virus (RSV)

Question 46

Main purpose of the sputum gram stain

Answer 46

Ensure suitability of sample for culture

Question 47

To be adequate for culture, a sputum sample must have

Answer 47

> 25 neutrophils; and

Question 48

Most frequently isolated pathogen in blood cultures of community-acquired pneumonia

Answer 48

Streptococcus pneumoniae

Question 49

Irreversible airway dilation that involves the lung in either a diffuse or focal manner

Answer 49

Bronchiectasis

Question 50

Most common form of bronchiectasis

Answer 50

Cylindrical or tubular

Question 51

Most cited mechanism for infectious bronchiectasis

Answer 51

Vicious cycle hypothesis

Question 52

Most common clinical presentation

Answer 52

Persistent cough with production of thick sputum

Question 53

Imaging modality of choice for confirming bronchiectasis

Answer 53

Chest CT

Question 54

First step in diagnostic approach to pleural effusion

Answer 54

Determine whether the effusion is an exudate or a transudate

Question 55

Leading causes of transudative pleural effusion

Answer 55

LV failure and cirrhosis

Question 56

Leading causes of exudative pleural effusion

Answer 56

Bacterial pneumonia, malignancy, viral infection, pulmonary embolism

Question 57

Most common cause of chylous pleural effusion

Answer 57

Malignancy

Question 58

Three tumors that cause ~75% of all pleural effusions

Answer 58

Lung carcimona, breast carcimona, lymphoma

Question 59

Benign ovarian tumors producing ascites and pleural effusion

Answer 59

Meigs’ Syndrome

Question 60

The only symptom that can be attributed to the malignant pleural effusion itself

Answer 60

Dyspnea

Question 61

Condition most commonly overlooked in the differential diagnosis of a patient with undiagnosed effusion

Answer 61

Pulmonary embolism

Question 62

Most common cause of chylothorax

Answer 62

Trauma (most frequently, thoracic surgery)

Question 63

Treatment choice for most cases of chylothorax

Answer 63

Insertion of a chest tube plus administration of octreotide

Question 64

Population at risk for spontaneous pneumothorax

Answer 64

Tall, thin men 20-40 y/o, smoker

Question 65

Ipsilateral tracheal deviation

Answer 65

Tracheal deviation in spontaneous pneumothorax

Question 66

Contralateral tracheal deviation

Answer 66

Tracheal deviation in tension pneumothorax

Question 67

Coexistence of unexplained excessive daytime sleepiness with at least five obstructed breathing events (apnea or hypopnea) per hour of sleep

Answer 67

Obstructive sleep apnea

Question 68

Breathing pauses lasting >10 seconds

Answer 68

Apnea

Question 69

> 10 second events where ventilation is reduced by at least 50% from the previous baseline

Answer 69

Hypopnea

Question 70

First step in evaluating a mediastinal mass

Answer 70

Place it in one of the three mediastinal components

Question 71

Most common lesions in anterior mediastinum

Answer 71

Mnemonic: Terrible T?s!

Question 72

Most common lesions in middle mediastinum

Answer 72

Vascular masses, Lymphadenopathy from metastases or granulomatous disease, Pleuropericardial and bronchogenic cysts

Question 73

Most common masses in the posterior mediastinum

Answer 73

Neurogenic tumors, Meningocoelesm Meningomyelocoeles, Gastroenteric cysts, Esophageal diverticula

Question 74

First step in evaluating a mediastinal mass

Answer 74

Place it in one of the three mediastinal components

Question 75

Most common lesions in anterior mediastinum

Answer 75

Mnemonic: Terrible T?s!

Question 76

Most common lesions in middle mediastinum

Answer 76

Vascular masses, Lymphadenopathy from metastases or granulomatous disease, Pleuropericardial and bronchogenic cysts

Question 77

Most common masses in the posterior mediastinum

Answer 77

Neurogenic tumors, Meningocoelesm Meningomyelocoeles, Gastroenteric cysts, Esophageal diverticula

Question 78

One of the three major cardiovascular causes of death, along with MI and stroke

Answer 78

Venous thromboembolism

Question 79

Causes of pulmonary embolism

Answer 79

Fat, foreign body, air, DVT, bone marrow, ambiotic fluid, tumor

Question 80

Population at risk for pulmonary embolism

Answer 80

Patients with preexisting heart/lung disease (occurs in lower lobes)

Question 81

Usual cause of death from pulmonary embolism

Answer 81

Progressive right HF

Question 82

Most frequent history in DVT

Answer 82

Cramp in the lower calf that persists and worsens for several days

Question 83

Most frequent history in PE

Answer 83

Unexplained breathlessness

Question 84

Classic signs of PE

Answer 84

Tachycardia, low-grade fever, neck vein distension

Question 85

Most frequent symptom of PE

Answer 85

Dyspnea

Question 86

Most frequent sign of PE

Answer 86

Tachypnea

Question 87

Useful rule-out test: >95% of patients with normal levels (<500 ng/ml) do not have PE

Answer 87

Quantitative plasma D-dimer ELISA

Question 88

Most frequently cited ECG abnormality in PE (in addition to sinus tachycardia)

Answer 88

S1 Q3 T3 Sign (specific but insensitive)

Question 89

Most common ECG abnormality in PE

Answer 89

T-wave inversion leads V1 to V4

Question 90

Principal imaging test for the diagnosis of PE

Answer 90

Chest CT scan with IV contrast

Question 91

Second-line diagnostic test for PE, used mostly for patients who cannot tolerate IV contrast

Answer 91

Lung scanning

Question 92

Best known indirect sign of PE on transthoracic echo

Answer 92

McConnell’s sign: hypokinesis of the RV free wall with normal motion of RV apex

Question 93

Definite diagnostic test for PE, used mostly for patients who cannot tolerate IV contrast PE which visualizes an intraluminal filling defect in more than one projection

Answer 93

Lung scanning

Question 94

Foundation for successful treatment of DVT and PE

Answer 94

Anticoagulation

Question 95

Massive pulmonary embolism

Answer 95

Systemic arterial hypotension with usually anatomically widespread thromboembolism

Question 96

Moderate to large pulmonary embolism

Answer 96

RV hypokinesis with normal systemic arterial pressure

Question 97

Small to moderate pulmonary embolism

Answer 97

Normal RV function and normal systemic arterial pressure (excellent prognosis with adequate anticoagulation)

Question 98

Definition of ARDS

Answer 98

Acute onset (<24 hours), Bilateral patchy airspace disease, Absence of of left atrial hypertension (PCWP < 18 mmHg), Profound shunt physiology

Question 99

Top 3 causes of ARDS

Answer 99

Gram-negative sepsis, gastric aspiration, severe trauma

Question 100

Short-term morphology of ARDS

Answer 100

Waxy hyaline membranes

Question 101

Long-term morphology of ARDS

Answer 101

Intra-alveolar fibrosis

Question 102

Histologic manifestation of ARDS

Answer 102

Diffuse alveolar damage