Restrictive (Interstitial) Lung Diseases

Question 1

is pathological material stretchable?

Answer 1

no, not functional, lungs become stiff, none stretching and none complying

Question 2

can the damaged tissue be localised?

Answer 2

yes

Question 3

respiratory failure (type 1) + chronic hypoxia =

Answer 3

heart failure

Question 4

1 disease -> 1 outcome?

Answer 4

no, many diseases can lead to same outcome

Question 5

how likely is UIP going to progress to fibrosis, scarring or “end-stage honeycomb lung”

Answer 5

very likely

Question 6

how common is sarcoidosis?

Answer 6

most common granulomatous disorder

Question 7

is it a lung disease?

Answer 7

no, multi-system granulomatous disorder

Question 8

how does its pathology vary across systems?

Answer 8

it doesen’t

Question 9

usually associated with fibrosis?

Answer 9

not much, although variable

Question 10

what is the aetiology of sarcoidosis?

Answer 10

unknown

Question 11

what organs are most likely to be involved?

Answer 11

lymph nodes and lung

Question 12

do most patients with sarcoidosis progress to end stage fibrosis?

Answer 12

no

Question 13

what is thermophilic actinomycetes? responsible for what?

Answer 13

antigen on mouldy hay, responsible for farmer’s lungs (hypersensitivity reaction)

Question 14

how do you treat UIP?

Answer 14

you can’t you’re fucked

Question 15

what is the most likely reason for end-stage fibrosis of the lung?

Answer 15

UIP

Question 16

what is the interstitium of the lung?

Answer 16

the connective tissue space around the airways and vessels and the space between the basement membranes of the alveolar walls

Question 17

how close are pneumocytes and endothelial cells basement membranes in a normal alveolar wall?

Answer 17

direct contact

Question 18

why might alveolar wall thicken?

Answer 18

interstitial infiltrate

Question 19

what are the outcomes of restrictive/ diffuse/ interstitial lung disease on compliance, FEV1, FVC, V/Q ratio and gas transfer?

Answer 19

• reduced compliance (stiff lungs)
• low FEV1 and low FVC but FEV1/FVC normal ratio
• reduced gas transfer (diffusion abnormality)
• V/Q imbalance (when small airways affected by pathology)

Question 20

what is are the symptoms for diffuse lung disease?

Answer 20

• discovery of abnormal CXR

- dyspnoea (shortness of breath on exertion, at rest)

Question 21

what might chronic dyspnoea lead to?

Answer 21

type 1 respiratory failure

Question 22

what are the two possible responses to interstitial lung injury?

Answer 22

acute or chronic response

Question 23

what condition is an outcome of an acute response to interstitial lung injury?

Answer 23

diffuse alveolar damage

Question 24

what are diffuse alveolar damage’s causes?

Answer 24

• major trauma
• chemical injury/ toxic inhalation
• circulatory shock
• drugs
• infection
• autoimmune disease
• radiation
• idiopathic

Question 25

how many stages are there to DADS?

Answer 25

2 (exudative and proliferative)

Question 26

what are the histological features of DADS?

Answer 26

• protein rich oedema
• fibrin
• hyaline membranes
• denuded basement membranes
• epithelial proliferation
• fibroblast proliferation
• scarring - interstitium and airspaces

Question 27

what is the histopathology of sarcoidosis?

Answer 27

• epithelioid and giant cell granulomas
• necrosis/ caseation very unusual
• little lymphoid infiltrate
• variable associated fibrosis

Question 28

who does sarcoidosis commonly affect?

Answer 28

young adults, F>M

Question 29

what are the symptoms/signs of a sarcoidosis that will self-resolve?

Answer 29

• affects young adult
• acute arthralgia
• erythema nodosum
• bilateral hilar lymphadoenopathy

Question 30

what are the symptoms/signs of a sarcoidosis that will persist or progress?

Answer 30

incidental abnormal CXR, no symptoms, SOB, cough, abnormal CXR

Question 31

how do you treat sarcoidosis?

Answer 31

corticosteroids

Question 32

what is the aetiology of hypersensitivity pneumonitis?

Answer 32

antigen exposure

Question 33

what antigens cause hypersensitivity pneumonitis (HP)?

Answer 33

- Thermophilic actinomycetes
(Micropolyspora faeni
Thermoactinomyces vulgaris)
- bird / animal proteins (faeces, bloom)
- fungi  (Aspergillus spp)
- chemicals
- others

Question 34

what is the acute presentation of HP?

Answer 34

• fever, dry cough, myalgia
• chills 4-9 hours after Ag exposure
• crackles, tachypnoea, wheeze
• precipitating antibody

Question 35

what is the chronic presentation of HP?

Answer 35

insidious, malaise, SOB, cough, low grade illness, crackles and some wheeze

Question 36

what is the histopathology of HP?

Answer 36

immune complex mediated combined type III and type IV hypersensitivity reaction, soft centriacinar epithelioid granulomata, interstitial pneumonitis, foamy histiocytes, bronchiolitis obliterans, upper zone disease

Question 37

what is the aetiology of usual interstitial pneumonitis (UIP)?

Answer 37

connective tissue diseases (esp. scleroderma and rheumatoid disease) drugs, infection, industrial exposure to asbestos, others

Question 38

what is the histopathology of UIP?

Answer 38

patchy interstitial chronic inflammation, type II pneumocyte hyperplasia (damage to alveolar epithelium), smooth muscle and vascular proliferation, evidence of old and recent injury (temporal heterogeneity, spatial heterogeneity), proliferating fibroblastic foci

Question 39

what does temporal heterogeneity mean?

Answer 39

can see disease at different stages of evolution

Question 40

what does spatial heterogeneity mean?

Answer 40

the disease is not in the same quantities everywhere in the lung

Question 41

what is the incidence of UIP?

Answer 41

elderly >50, M>F

Question 42

what are the symptoms of idiopathic pulmonary fibrosis (UIP)?

Answer 42

dyspnoea, cough, basal crackles, cyanosis, clubbing

Question 43

what is the prognosis for patients with idiopathic pulmonary fibrosis?

Answer 43

poor (most dead in 5 years)

Question 44

what exposures could lead to end-stage fibrosis?

Answer 44

NSIP, asbestos, silicosis, COP, BOOP, smoking related fibrosis

Question 45

what is normal FIO2?

Answer 45

0,21

Question 46

how fast does O2 equilibrate between blood and air (essentially, how long does it take to uptake O2)?

Answer 46

0,25s

Question 47

how fast does CO2 equilibrate between blood and air (essentially how long does it take to dump CO2)?

Answer 47

negligible (very high solubility)

Question 48

what four abnormal states are associated with hypoxaemia?

Answer 48

• alveolar hyperventilation
• shunt
• ventilation/ perfusion imbalance (V/Q)
• diffusion impairment

Question 49

what are the values for normal PaO2?

Answer 49

10,5-13,5kPa

Question 50

what are the values for normal PaCO2?

Answer 50

4,8-6,0kPa

Question 51

what are the values for PaO2 and PCO2 in type 1 respiratory failure?

Answer 51

PoO2 < 8kPa (PaCO2 normal or low)

Question 52

what are the values for PaO2 and PCO2 in type 2 respiratory failure?

Answer 52

PaCO2 > 6,5 kPa (PaO2 usually low)

Question 53

what are the outcomes of hypoventilation?

Answer 53

increase in PACO2, thus increase in PaCO2, increase in PACO2, decreases PAO2, causing PaO2 to fall

Question 54

how is hyperventilation corrected?

Answer 54

raising FIO2

Question 55

what is the commonest cause of hypoxaemia encountered clinically?

Answer 55

low V/Q

Question 56

why does low V/Q arise?

Answer 56

local alveolar hypoventilation due to some focal disease

Question 57

how does hypoxaemia respond to small increases in FIO2?

Answer 57

well

Question 58

how better is CO2 at diffusing that O2?

Answer 58

20 times

Question 59

do diseases which impair gas diffusion usually affect CO2 levels? why?

Answer 59

no, because increased diffusion abilities

Question 60

which gas is affected by diffusion impairment?

Answer 60

O2

Question 61

what factors do diffusion depend on?

Answer 61

surface area, thickness, gas pressure across the membrane

Question 62

how long does capillary transit time last normally? (maximum time spend collecting O2)

Answer 62

0,75s

Question 63

how may O2 equilibration time vary during disease?

Answer 63

may take close to 0,75s

Question 64

how may this increase be pathological?

Answer 64

serious falls in PaO2 may occur on exercise (when exertion, capillary transit time reduces -> hypoxia for those with interstitial lung disease)

Question 65

what is a shunt?

Answer 65

blood passing from right to left side of heart without contacting ventilated alveoli (within the heart, bypasses the lung)

Question 66

what percentage of blood normally passes through shunt? may this explain an Hb saturation of less that 100%?

Answer 66

2-4% (yes)

Question 67

when do you get pathological shunts?

Answer 67

AV malformations, congenital heart disease and pulmonary disease

Question 68

how well do large shunts respond to FIO2 increase?

Answer 68

poorly (blood leaving normal lungs is already 98% saturated, it’s just that large quantities of blood are not even going through to the lungs)