UW 1

Question 1

Acute bronchitis - etiology

Answer 1

preceding resp ilness (90% viral)

Question 2

acute bronchitis - clinical presentation

Answer 2

cough for more than 5 days to 3 wks ( +/- purulent sputum, +/- blood)
2. absent systemic findings
3. Wheezing or ronchi, chet wall tenderness
NO FEVER (if present think pneumonia or flu)

Question 3

acute bronchitis - diagnosis + treatment

Answer 3

1. clinical diagnosis, CXR only when pneumonia suspected

2. symptomatic treatment (eg. NSAID, bronchodilators)

Question 4

Bronchiectasis - sign and symptoms

Answer 4

1. cough with daily mucupurulent sputum production
2. rhinosinusitis, dyspnea, hemoptysis
3. crackles, wheezing

Question 5

bronchiectasis - etiology

Answer 5

1. airway obstraction (eg. ca)
2. rheumatic disease (eg. RA, Sjogren), toxic inhalation)
3. immunodef (eg. hypogammaglobulinemia)
4. Congenital (eg. CF, α-1-antitrypsin def)

Question 6

bronchiectasis - evaluation

Answer 6

1. high resolution CR (needed for initial diagnosis)
2. immunoglobulin quantification
3. CF testing, sputum culture (bacteria, fungi, mycobacteria
4. PFT

Question 7

the main cause of hypercapnia in COPD

Answer 7

increased dead space ventilaiton

Question 8

pneumonia mediated hypoventilation - mechanism

Answer 8

R to L intralpulmonary shunting and extreme ventilation /perfusion mismatched
- High O2 inspiration does not correct it

Question 9

causes of hypoxemia (and example)

Answer 9

1. hypoventilation: CNS depression, neuromuscular weakness
2. dead-space ventilation (V/Q=infinity): PE
3. diffusion limitation: emphysema, interstitial lung disease
4. intrapulmonary shunt (V/Q=0): pneumonia, pulm edema, atelectasis
5. intracradiac shunt (R-L): Fallot, Eisenmenger
6. Reduced PiO2: high altitude

Question 10

causes of hypoxemia - A-a gradient, corects with O2

Answer 10

1. hypoventilation: normal, yes
2. dead-space ventilation (V/Q=infinity), increased , yes
3. diffusion limitation: increased, yes
4. intrapulmonary shunt (V/Q=0): increased, no
5. intracradiac shunt (R-L): increased, no
6. Reduced PiO2: normal, yes

Question 11

PFT in asthma

Answer 11

normal to increased TLC
normal FEV1/FVC
normal to increased DLCO

Question 12

PFT in COPD

Answer 12

increased TLC
low FEV1/FVC
low DLCO (normal in the beginning)

Question 13

PFT in interstitial lung disease

Answer 13

Low TLC
NORMAL FEV/FVC (or increased)
low DLCO

Question 14

PFT in pulm arterial hypertension

Answer 14

normal TLC
normal FEV1/FVC
low DLCO

Question 15

Restrictive chest wall disease

Answer 15

low TLC
normal FEV1/FVC
normal DLCO

Question 16

DLCO in pulm arterial hypertention

Answer 16

low

Question 17

hypersensittivity pneomonitis - - definition / manifestation

Answer 17

inflammation of the lung parenchyma caused by antigen exposure

• acute episodes present with cough, breathlessness, fever, malaise that occure within 4-6 h of antigen exposure
  chronic: weight loss, clubbing, honycombing of the lung

Question 18

hypersensitivity pneumonitis - management

Answer 18

avoidance of responsible antigen

Question 19

sputum and blood culutres in outpatient pneumonia

Answer 19

not required

Question 20

lung compliance of ARDS

Answer 20

low

Question 21

ARDS - pulm arterial pressure

Answer 21

increased due to hypoxic vasconstriction, destruction of lung parechyma, and compression of vascular structures from positive airway pressure in mechanicall ventilated patinets

Question 22

severe asthma exacerbation - management

Answer 22

inhaled short acting β2 agonists, inhaled ipratropium , systemic corticosteroids –> elevated or even normal partial pressure of CO2 suggest failure of medical therapy and resp collapse –> entrotracheal intubation

Question 23

systemic epinephrine in severe astham exacerbation

Answer 23

only in severe when inhaled therapy cannot be given

Question 24

mild to moderate asthma asthma exacerbation - management

Answer 24

inhaled β2 agonists –> if no improvement –> systemic steroids

Question 25

Wegerer - giagnosis

Answer 25

ANCA: PR3, MPO
biopsy: skin (leukocytoclastic vasculitis), kidney (pauci-immune GN) lung (granulomatous vsculitis)

Question 26

Wegener - management

Answer 26

corticosteroids + immunomodulators (MTX, cyclophosphamide)

Question 27

it can increased the chance of FP ANCA

Answer 27

HIV

Question 28

ACEi cause chronic non-productive cough - mechanism

Answer 28

increaesd circulating levels of kinins, substance P, PGE, TXE
(MORE COMMON IN CHINESE)

Question 29

diagnosis from PFT

Answer 29

1. low FEV1/FVC ratio –> obstructive –> DLCO?
   - decreased: COPD
   - normal/increased: Asthma
2. normal or high FEV1/FVC –> restrictive –> DLCO?
   - normal: chest wall weakness
   - decreased: interstitial lung disease

Question 30

ARDS - how to improve oxygenation

Answer 30

by increaeing either FIO2 or positive end-expiratory prssure (PEEP
- if high levels of FIO2 (more than 60% are required to mainttain oxygenation, PEEP level should be increased to allow for reduction in the FIO2 as oxygenation improves (prolonged high FIO2 causes O2 toxicity)
ALWAYS KEEP LOW TV

Question 31

increasing of PEEP in ARDS - purpose

Answer 31

reopen of alveoli –> reduce shunting

Question 32

MC SE of inhaled corticosteroid therapy

Answer 32

oropharyngeal thrush (oral candidiasis)

Question 33

bornchodilator respone in asthma

Answer 33

improvement of FEV1 more than 12%

Question 34

asthma severity for patients not on controller medication (step 1)

Answer 34

step 1 (intermittent): max 2 days a week symptoms, max 2 nighttime awakening per month  
step 2 (mild persistent): more than 2 days / wk, 3-4 awaakenings per month
step 3 (moderate): daily symptoms, more than 1 awakening /wk
step 4 or 5) (severe): throughout day, 4-7 awakening / wk

Question 35

asthma treatment

Answer 35

step 1 –> SABA
step 2 –> Low dose inhaled cortic
step 3 –> low dose inhaled cosrticost + LABA or medium inhaled costic
step 4: medium dose inh cortic + LABA
step 5: High dose inh cosrtic + LABA + omalizumab if allegy
step 6: High dose inh cortic + LABA + Oral cortic + Omalizumab if allergy

Question 36

position dependent hypoxemia - mechanism

Answer 36

positional changes that make the consolidation more gravity dependen worsen ventilation/perfusion mismatch –> increase iintrapulmonary shunting –> worsened hpoxemia

Question 37

Aspirin exacerbated resp disease - mechanism

Answer 37

non-IgE mediated raction that results from aspirin induced prostagl/leukotriene misbalance

Question 38

Aspirin exacerbated resp disease - manifestation

Answer 38

mc in history of asthma or chronic rhinsinusitisis with nasal polyposis
- bronchospasm + nasal congestion following aspirin ingestion

Question 39

aspirin-exacerbated resp disease - treatment

Answer 39

avoidance of NSAID, desensitisation if NSAID are required, use of leukotriene receptor antagonists (eg. montelukast)

Question 40

illegal that can cause hemoptysis

Answer 40

inhaler cocaine

Question 41

radiation fibrosis

Answer 41

MC in patients who received lung field radiation –> dyspnea, nonproductive cough, chest pain within 4-24months after therapy
x-ray: volume loss with coarse opacities

Question 42

ARDS - always low TV - why

Answer 42

decrease the likelihood of overdistending alveoli

(improves mortality) –> causes barotrauma

Question 43

ARDS under ventilator - hypercapnia

Answer 43

setting the ventilator parameters to provide low TV and low RR decreases minute ventilation –> hypercapnia and acidosis

Question 44

ARDS - saturation target

Answer 44

greater than 88%

Question 45

allergic rhinitis - clinical features

Answer 45

1. watery rhinorrhea, sneezing, eye symptoms
2. early age of onset
3. identifiable allergen or seasonal pattern
4. pale/bluish nasal mucosa
5. associated with other allergic disorders (eczema, asthma etc)

Question 46

nonallergic rhinitis - clinical manifestation

Answer 46

1. nasal congestion, rhinorrhea, sneezing, postnasal drainage (dry cough)
2. onset after 20 years old
3. parennial symptoms (may worsen with seasonal changes)
4. erythematous nasal mucosa

Question 47

allergic rhinitis - treatment

Answer 47

intranasal glucocorticoids

antihistamines

Question 48

nonallergic rhinitis - treatment

Answer 48

mild: intranasal antihistamine or glucocorticoids

moderate to severe: combination therapy

Question 49

nasal cytology in nonallergic rhinitits

Answer 49

eosinophils

not required

Question 50

clinical signs of pulm hypertension

Answer 50

1. Left parasternal lift, RV heave
2. Loud P2, right dsided S3
3. pansystolic mmurmur of TR
4. JVD, periperal edema, hepatsplenomegaly

Question 51

systemic sclerosis on the lung

Answer 51

• hyperplasia of the intimal SMCs layer –> incr pulm resistance –> pulm hypertension
• interstitial fibrosis

Question 52

strongest RF for obstructive sleep apnea

Answer 52

obesity

Question 53

there are 2 types of abnormal ventilation during sleeping

Answer 53

1. apnea: cessation of breathing for 10 or more sec)
2. hypopnea: reduced airflow causing SaO2 to decrease by 4%
   in symptomatic paitnes, experiencing 5 or more obstructive resp events (apneas or hypopneas) per hour is diagnostic of obstructive sleep apnea)

Question 54

Obesity hypoventilatin syndrome - diagnostic criteria

Answer 54

1. BMI more than 30
2. awake daytime hypercapnia (more than 45)
3. no alternate cause of hypoventilation

Question 55

obesity hypoventilation syndrome - workup

Answer 55

ABG on room air (normal Aa gradient, hypercapia))

2. no intrinsic pulm disease on chest x-ray
3. restrictive PFT
4. Normal TSH
5. polysomonography

Question 56

obesity hypobentilation synrome - treatment

Answer 56

1. nocturnal positive pressure ventilation as 1st line
2. wight loss
3. avoidance of sedative medication
4. resp stimulants (acetazolamide) as last choice

Question 57

test to confirm bronchiectasias

Answer 57

high resolution CT

Question 58

Beta 2 agonists - SE

Answer 58

1. hypokalemia –> muscle weakness, arrhythnia, EKG abnormalities
2. tremor
3. palpitations
4. headache

Question 59

asthma related with GERD - management

Answer 59

omeprazole

Question 60

sarcoidosis effect on the musculoskeletal system

Answer 60

acute polyarthritis

chronic arthritis

Question 61

Lofgren syndrome

Answer 61

1. erythema nodosum
2. hilar adenopathy
3. migratory polyarthralgia
4. fever

Question 62

ankylosing spondylitis effect in lungs

Answer 62

limited chest expansion + spinal mobility–> restrictive lung disease

Question 63

sleep apnea syndrome - best initial steps

Answer 63

weight reduction, avoidance of sedatives, avoid alcohol, acoid supine posture during sleep

Question 64

peak airway pressure

Answer 64

the maximum pressure measured as the TV is being delivered = the sum of the resistive pressure (flow x resistance) and the platue pressure

Question 65

COPD - seizures after 02 supplementation

Answer 65

increased CO2 retention due to

• loss of compensatory vasoconstriction in areas of ineffective gas exhange worsens V/Q mismatch
• increase on HbO2 reduces the uptake of CO2 from tissues
• Decreased resp drive and slowing of the resp rate causes reduced minute ventilation
• -> reflex cerebral vasodilation –> seizures

Question 66

pulm contusion - symptoms can be worsen by

Answer 66

fluid overvolume

Question 67

resp arkalosis in incubated patient - next step

Answer 67

if appropriate TV –> decrease RR

Question 68

intemediate vs low risk solitary pulm nodule

Answer 68

interm is 8 mm or bigger

Question 69

pneumothorax - hypertension and tachycardia due to

Answer 69

compression of structures in the mediastinum –> impaired RV filling

Question 70

ideal location of endotracheal tube / if displaced to bronchus, which bronchus MC

Answer 70

2-6 cm above carina

- right (so left atelectasis)

Question 71

intubated patients - atelectasis due to misplacement vs pneumothorax

Answer 71

pneumothorax causes hemodynamically instability

Question 72

parapneumonic effusions - uncomplicated vs complicated regarding etiology

Answer 72

uncompl: sterile exudate in pleural space
complicaetd: bacterial invasion of pleural space –> continue to have symptoms despite antibiotics

Question 73

parapneumonic effusions - uncomplicated vs complicated regarding pleural fluid analysis

Answer 73

uncompl: ph 7.2 or more, glucose 60 or more, WBC 50.000 or less
complic: ph less than 7.2, glucose less than 60, WBC more than 50.000

Question 74

parapneumonic effusions - complc vs uncomplicated regarding gram stain + culture

Answer 74

uncompl: negative
complic: FN due tto low bacter count

Question 75

parapneumonic effusions - uncomplc vs complic regarding treatment

Answer 75

uncomplicated: antibiotics
complic: antibiotics + drainage

Question 76

increased risk of pneumonia complicated with pleural effusion

Answer 76

immunodeficiency

Question 77

acute exacerbation of COPD is characterized by a change in at least 1 of the following

Answer 77

1. cough severity or frequency
2. volume or character of sputum production
3. levels of dyspena

Question 78

Light criteria

Answer 78

at least 1

1. Pleural protein/serum protein more than 0.5
2. pleural LDH/ serume LDH more than 0.6
3. Pleural LDH more than 2/3 of the upper limit of normal for serum LDH

Question 79

exercise induced bronchoconstriction - management

Answer 79

short acting beta-adrenergic agnostis administered 10-20 mins before exercise are the 1st line treatment if only few times a week
- if daily: inhaled corticosteroids or antileukotriene

Question 80

normal pleural fluid ph / trandudate fluid ph / edudate

Answer 80

• 7.6
• 7.4-7.55
• exudate: 7.3-7.45 (may be lower)

Question 81

CHF - where is the fluid

Answer 81

61% bilateral
27% only R
12% only left