Module 7 pulmonary

Question 1

What is Asthma?

Answer 1

The only reversible airway bronchoconstriction,most often due to allergic stimuli (type I HSR)

Question 2

There are different types of asthma and the order of the cards will follow the different types. The first type is Atopic (Extrinsic) Asthma, what are some features?

Answer 2

Much more common and is episodic
based on a familial predisposition to type I HSR to dust, pollen, animal dander and foods
Causes bronchial asthma, allergic asthma, allergic rhinitis and eczema (ectopic dermatitis)

Question 3

What happens with the first exposure to a trigger in a person with atopic extrinsic asthma?

Answer 3

Sensitization: so antigen presentation and isotype switching from THO to TH2 because of IL4 and IgE production.
IgE binds to the surface of mass cells and basophils and you get mast cell degranulation

Question 4

What happens with the second exposure to a trigger in a person with atopic extrinsic asthma?

Answer 4

Re-exposure to antigen induced cross linking of IgE on mast cells and basophils – brochoconstriction

• –production and activation of eosinophils (stimulated by IL-5), PMNs and T cells
• -epithelial cells are activated and recruit more TH2 cells and eosinophils = damage resp epithelium —- amplifies bronchospasm and edema
• -produces histamine, leukotrienes and Prostoglandins that cause bronchoconstriction and bronchospasms

Question 5

Review: What are the TH2 cytokines?

Answer 5

IL4-stimulates IgE production by turning THO to TH2 (isotype switching)
IL5: activates eosinophils
IL-13: stimulates mucus production and promotes IgE production by B cells IgE coats mast cells = degranulation with Ag exposure

Question 6

Review: What two diseases are associated with Eosinophils?

Answer 6

Asthma

Churg Strauss

Question 7

Patients with extrinsic bronchial asthma are at risk of developing what disease if exposed?

Answer 7

Allergic bronchopulmonary aspergillosis: which is a type I and III HSR

Question 8

What do patients with both types of bronchial asthma present with?

Answer 8

Expiratory wheeze, chest tightness, productive cough (Sputum), and SOB

Question 9

In sputum cytology what do you see on a patient with atopic extrinsic asthma? pics on slide 5b

Answer 9

Curschmann Spiral (shredding of bronchial epithelial cells) (pseudostratified) 
Charcot layden crystals: MBP and eosinophilic cationic protein

Question 10

On CXR what do you see in a patient with atopic extrinsic asthma?

Answer 10

Hyperinflated lung fields

Question 11

What do you see on pulmonary function test and ABG for extrinsic asthma?

Answer 11

Pul function test: decreased FEV:FVC ratio and Increased TLC:RV
ABG: low O2 and Low CO2 and elevated pH because you are hyperventilating. If CO2 becomes high and patient becomes acidotic then patient is decompensating (getting tired) and about to die.

Question 12

Now on histology, slide 5a, what do each of the arrows represent?

Answer 12

Green Arrow: Goblet cell hyperplasia no metaplasia
Black Arrow: thick BM
Yellow Arrow: eosinophils (inflammatory cells)
Blue arrow: bronchial SM hypertrophy

Question 13

What is reversible and irreversible in atopic bronchial asthma?

Answer 13

So the changes seen on histology are irreversible
but the symptoms are reversible
—remember only reversible obstructive disease
—remember REID index is normal

Question 14

How chronic bronchitis different from bronchial atopic asthma?

Answer 14

Chronic Bronchitis: no eosinophils, REID elevated, squamous metaplasia (Because cig smokers)

Question 15

The next type of asthma is non atopic bronchial asthma Intrinsic. What are the causes?

Answer 15

Most common is viruses

and then aspirin

Question 16

Explain how viruses cause non atopic bronchial asthma

Answer 16

Lower the threshold of the vago receptors (vago receptors bind acetylcholine and that increases PS response — bronchoconstriction
–give Albuterol (B2 agonist)–stimulates sympathetics — bronchodilation (but you can also give this to atopic bronchial asthma as well)

Question 17

Explain how aspirin can cause non atopic bronchial asthma?

Answer 17

Inhibits COX and favors lipooxygenase — increases leukotrienes — bronchoconstriction

Question 18

What are some differences in atopic and non atopic bronchial asthma

Answer 18

NO IgE
No family history
NO CHARCOT LEYDEN CRYSTALS
BUT DO SEE CURSCHMAN SPIRALS AND PMNs

Question 19

What are the complications of both types of bronchial asthma?

Answer 19

Status Asthmaticus: severe persistent bronchial asthma, the get mucus plugs, resorptive atelectasis and does not respond to albuterol only responds to intubation.
–more common with extrinsic

Question 20

Eosinophilic Granuloma as called pulmonary histiocytosis X and pulmonary langerhan cell histiocytosis (PLCH), occur when?

Answer 20

Pulmonary diseases in the adult almost exclusively involves smokers, treatment centers on cessation

• -results in dyspnea and cough, interstitial nodular and fibrocystic, disease, obstructive and restrictive changes on spiro.
• -culprit cell in the langerhans cell, not the eosinophil, contain Birbeck granules on EM

Question 21

The last obstructive lung disease bronchiectasis. What is bronchiectasis?

Answer 21

Permanent/ irreversible dilation of bronchi to pleural surface

Question 22

Bronchiectasis is not a primary disease but a secondary disease, what factors predispose an individual of getting bronchiectasis?

Answer 22

1. Congenital or Hereditary Conditions: CF is most common cause of bronchiectasis, also immunodeficiency states and Kartagener syndrome
2. Obstruction and Chronic Infection: Obstruction with either tumor or foreign body
3. Necrotizing/suppurative pneumonia: virulent organisms like S. aureus and Klebsiella

Question 23

What is the pathogenesis for bronchiectasis?

Answer 23

Obstruction hampers clearance — secondary infection — damaged/weakened bronchial walls — bronchiectasis

Question 24

What is the pathogenesis for a tumor/foreign body in bronchiectasis?

Answer 24

Impairs clearance of secretions, providing favorable substrate for superimposed infection
—centrally located tumors (bronchial carcinoid, squamous and small cell carcinoma)

Question 25

What is the pathogenesis for CF in bronchiectasis?

Answer 25

Widespread and severe bronchiectasis results from obstruction caused by the secretion of abnormally viscid mucus thus predisposing to infection of the bronchial tree

Question 26

What is the pathogenesis for Kartagener syndrome?

Answer 26

Is a rare autosomal recessive disorder that is frequently associated with bronchiectasis and sterility in males. In this condition structural abnormalities of the cilia impair mucocilliary clearance in the airways, leading to persistent infections and reduce mobility of spermatozoa.

Question 27

Bronchiectasis favors what lobes?

Answer 27

affects lower lobes bilaterally particularly those air passages that are most vertical
when causes by tumors or aspiration of foreign bodies the involvement may be localized to a single segment of the lungs

Question 28

What are the symptoms you see for a patient with bronchiectasis?

Answer 28

Fevers 
Halitosis (bad breath)
Productive cough with foul smelling sputum 
Finger Clubbing (Due to hypoxia)
Hemoptysis (coughing up blood)

Question 29

What do you see on CXR and cytology in a patient with bronchiectasis?

Answer 29

CXR :train track appearance (due to the dilation of the bronchi all the way to the pleura)
Cytology: mixed flora of anaerobes (foul smelling) and aerobes

Question 30

What are some complications of bronchiectasis?

Answer 30

1. Can lead to resp failure
2. Cor pulmonale (Enlargement of right side of heart due to a secondary pul condition)
3. Decreased FEV: FVC and Increased TLC:RV
4. Metastatic abscesses (from lung and brain)
5. Sepsis (if travels to blood)
6. Resorption atelectasis due to obstruction of bronchial lumen
7. AA amylodiosis due to chronic inflammatory condition – leading to restrictive cardiomyopathy

Question 31

Now bronchiectasis mimics a lung abscess, point out some differences between the two?

Answer 31

Lung Abscess: Spike fever (Abscess in general have this feature) and Cavity with air fluid level (all pus in that cavity)
Bronchiectasis: just fever and train track appearance on CT or xray

Question 32

Now moving onto restrictive lung diseases, what are some general characteristics of restrictive lung diseases?

Answer 32

Heterogenous group of disorders
Bilateral, patchy chronic lung involvement
Involves the interstitium of alveolar walls
may involve the intra alveolar space
Fibrosis therefore decreased lung compliance = increased work to breathe = dyspnea
Progression to resp failure with pul HTN and cor pulmonale

Question 33

There are 5 main categories of restrictive lung diseases the first is fibrosing, what are the 4 diseases in this category?

Answer 33

1. IPF/UIP
2. NSIP
3. COP
4. CVD

Question 34

The first fibrosing restrictive lung disease is Idiopathic pulmonary fibrosis (IPF) also called usual interstitial pneumonia (UIP), what are some features?

Answer 34

UIP is the pattern seen on histology
Involves fibrosis of the lung interstitum
Involves more Males over Females are over 60 years old and are smokers

Question 35

Why is IPF/UIP considered a diagnosis of exclusion?

Answer 35

because we dont know the etiology ( idiopathic)

Question 36

What is the pathogenesis for IPF/UIP?

Answer 36

TGFbeta responsible for IDF (macrophages and type I pneumocytes make TGFbeta) and they bring in fibroblasts which bring in collagen and hence fibrosis

Question 37

There are two types of heterogeneity involved in UIP, geographic and temporal, explain the differences

Answer 37

Geographic or spatial: favors the lower lobe first

Temporal: indicates new and old fibrosis so you will have acellular type I HSR and cellular fibroblasts

Question 38

On microscopy slide 7, how do you differentiate the new and old fibrosis?

Answer 38

Temporal
so old would be the pink acellular spots
new fibrosis is the cellular or fibroblast foci

Question 39

What other disease, that we have discussed does heterogeneity?

Answer 39

Polyarteritis Nodosa

–displaced temporal heterogenity: old (fibrosis) and new (PMNs and fibrinoid necrosis) inflammatory changes

Question 40

What is the presentation for UIP/IPF?

Answer 40

Dry cough (Nothing in alveolar space) with dyspnea on exertion, finger clubbing, pulmonary fibrosis

Question 41

What does the CXR and gross specimen for patients with UIP/IPF look like?

Answer 41

CXR: bilateral reticular nodular shadowing
Gross: honey comb parachyma (distention of lungs) lined by type II pneumocytes (pleural cobblestone)

Question 42

What is the course and treatment for UIP/IPF?

Answer 42

Progressive and relentless —- need a lung transplant

• -alot of times too old to get a transplant
• -most patients die about 3 years after dx

Question 43

What are the complications of UIP/IPF?

Answer 43

1. Contraction atelectasis (fibrosis)
2. Cor pulmonale (fibrosis)
3. AIP (Acute interstitial pneumonia, is the acute accelerated phase, like an acute on chronic thing) (looks like ARDS)

Question 44

What is the histological appearance of UIP/IPF?

Answer 44

Diffuse alveolar damage with hyaline membrane with AIP (also called Hamman Rich) on top of UIP

Question 45

What is AIP also known as hamman rich syndrome?

Answer 45

• -very aggressive form of interstitial lung disease
• –may also occur as an acute phase of accelerated IPF( so like an acute on chronic thing)
• -presents with diffuse alveolar damage and hyaline membranes, similar to those found in the acute resp distress syndrome ARDS and Diffuse Alveolar Damage (DAD)
• if there is no known cause of ARDS then called acute interstitial pneumonia