L73-76 Pulmonary Pathology I-IV

Question 1

Describe the lining of the trachea.

Answer 1

1. Cartilage
2. Mucosa (epithelium and submucosal glands)
3. Transverse muscle bundles
4. Longitudinal muscle bundles

Question 2

How do the trachea and bronchi differ?

Answer 2

Bronchial cartilage is discontinuous vs. Tracheal cartilage is continuous

Question 3

Describe the primary bronchial epithelium.

Answer 3

Pseudostratified ciliated columnar epithelium with some goblet cells (More ciliated than goblet normally)

Question 4

How do the tertiary bronchi and bronchioles differ?

Answer 4

Tertiary bronchi have cartilage and submucosal glands vs. Bronchioles lack cartilage and submucosal glands

Question 5

What types of cells line the bronchioles?

Answer 5

Ciliated and non-ciliated (clara) cells

Question 6

What are the types of cells in the alveoli?

Answer 6

1. Type I (squamous pneumocytes): gas exchange
2. Type II (granular pneumocytes): secrete surfactant
3. Alveolar macrophages
4. Endothelial cells (line blood vessels)
5. Fibroblasts (structural support)
6. Rare lymphocytes and mast cells

Question 7

The lungs develop from the ___.

Answer 7

Foregut

Question 8

What are the 4 common congenital lung abnormalities?

Answer 8

1. Agenesis
2. Hypoplasia
3. Atresia and tracheoesophageal fistula
4. Congenital Cystic Adenomatoid Malformation (CCAM/CPAM)

Question 9

Acute lung injury is a spectrum of bilateral pulmonary damage (epithelial and endothelial) which manifests as what three things?

Answer 9

1. Acute onset dyspnea (may also be tachypnic)
2. Hypoxemia (may lead to cyanosis)
3. Development of bilateral pulmonary infiltrates in the absence of cardiac failure

Question 10

What are clinical causes of ALI?

Answer 10

A: Aspiration, acute pancreatitis, air/amniotic fluid embolism
R: Radiation
D: Drug overdose, DIC< drowning
S: Shock, sepsis, smoke inhalation

Also: pneumonia, trauma, fat embolism, inhalation injury, reperfusion injury, uremia

Question 11

If ALI is severe, it can progress to ___.

Answer 11

ARDS (Acute Respiratory Distress Syndrome)

Question 12

Describe the pathogenesis of ALI.

Answer 12

Injury occurs. Macrophages secrete IL-1, IL-8, TNF, leading to neutrophil margination, sequestration, and migration into the alveolus. Local tissue damage occurs, edema enters the alveoli, surfactant is inactivated, and hyaline membrane forms.

Question 13

How is ARDS treated?

Answer 13

Supportive care, treat underlying condition

Question 14

What are the phases of ARDS?

Answer 14

1. Early exudative phase (acute)
2. Subacute proliferative phase (organizing)
3. Fibrotic phase (late)

Question 15

What is the primary histological finding in ARDS?

Answer 15

Diffuse alveolar damage

Question 16

What are some causes of respiratory distress syndrome in newborns?

Answer 16

1. Fetal injury during delivery
2. Aspiration
3. Cord compression
4. Excessive sedation of the mother
5. Hyaline membrane disease/RDS (most common)

Question 17

What is the fundamental abnormality in respiratory distress syndrome?

Answer 17

Insufficient pulmonary surfactant production by immature lungs, resulting in failure of lungs to inflate after birth

Question 18

Surfactant, synthesized in ___ cells, can be secreted as early as ___ weeks, but is not produced in sufficient amounts until ___ weeks.

Answer 18

Type II pneumocytes; 20; 34

Question 19

Discuss how prematurity leads to hyaline membrane formation.

Answer 19

1. Reduced surfactant synthesis, storage, and release
2. Increased alveolar surface tension
3. Atelectasis
4. Uneven perfusion and hypoventilation
5. Hypoxemia and CO2 retention
6. Acidosis
7. Pulmonary vasoconstriction
8. Pulmonary hypoperfusion
9. Endothelial and epithelial damage
10. Plasma leak into alveoli
11. Hyaline membrane formation

Question 20

What modulates surfactant synthesis?

Answer 20

1. Glucocorticoids (increase production)
2. Insulin (decrease production)
3. Labor (induces production)
4. Prolactin
5. Thyroxine
6. TGF-beta

Question 21

What is atelectasis?

Answer 21

Complete or partial collapse of a lung or lobe of a lung

Question 22

What are the three types of acquired atelectasis and where does the mediastinum shift?

Answer 22

1. Resorption/obstruction - shifts toward affect lung
2. Compression - shifts away from affect lung
3. Contraction

Question 23

What can cause resorption/obstruction atelectasis?

Answer 23

Excessive secretions (asthma, COPD, bronchiectasis)

Question 24

What can cause compression atelectasis?

Answer 24

Effusions, tumors, CHF

Question 25

What can cause contraction atelectasis?

Answer 25

Fibrosis

Question 26

What is pneumothorax?

Answer 26

Air or gas in the pleural cavity that causes compression and atelectasis

Question 27

Broadly, what is the problem in obstructive vs. restrictive lung diseases?

Answer 27

Obstructive: increased resistance to airflow due to obstruction at any level

Restrictive: reduced expansion of lung parenchyma with decrease in total lung capacity

Question 28

What are the major pathologic features of asthma?

Answer 28

1. Chronic bronchial inflammation with eosinophils
2. Bronchial smooth muscle hyperreactivity
3. Increased mucus production

Question 29

What are the symptoms of asthma?

Answer 29

Wheezing, breathlessness, chest tightness, cough

Question 30

What is atopic asthma?

Answer 30

Immune-mediated, type I hypersensitivity reaction

Begins in childhood, triggered by environmental allergens

Family history of asthma, atopy

Positive skin and serum tests

Question 31

What is non-atopic asthma?

Answer 31

Non-immune triggering mechanisms

Negative skin and serum tests

Question 32

When should we suspect drug-induced asthma?

Answer 32

Patients with recurrent rhinitis and nasal polyps (particularly aspirin)

Question 33

Describe the pathogenesis of asthma.

Answer 33

APC presents antigen to Th2 cells. These produce IL-3, IL-5, GM-CSF, which recruit eosinophils. These degranulate and lead to increased mucus production and smooth muscle hyperactivity.

IgE also binds to mast cells, creating memory.

Question 34

Which chromosome has several susceptibility genes for asthma? What are the genes?

Answer 34

5q: IL-13 CD-14

Also 20q: ADAM 33

Question 35

What is status asthmaticus?

Answer 35

Prolonged bout of asthma lasting for days, responding poorly to treatment

Question 36

What can be seen on microscopy in asthma?

Answer 36

Curschmann spirals

Question 37

What can be seen on histology in asthma?

Answer 37

Eosinophils

Charcot Leydon Crystals (degranulated eosinophils)

Question 38

What are the 2 types of COPD? Compare them briefly.

Answer 38

Chronic bronchitis: tends to affect larger airways, results in mucus hypersecretion and inflammation

Emphysema: tends to affect lower airways, lose elastic recoil due to destruction of septa

Question 39

What is the clinical definition of chronic bronchitis?

Answer 39

Persistent productive cough for at least three consecutive months in at least two consecutive years

Question 40

What is at risk for chronic bronchitis?

Answer 40

1. Smokers
2. Urban dwellers
3. Middle aged men

Question 41

What are the 4 types of emphysema?

Answer 41

1. Centriacinar (centrilobular)
2. Panacinar (panlobular)
3. Distal acinar (paraseptal)
4. Irregular

Question 42

Centriacinar emphysema:

1. Location
2. Population
3. Associations

Answer 42

1. Respiratory bronchioles, upper lobes
2. Male smokers
3. Chronic bronchitis, coal-workers pneumoconiosis

Question 43

Panacinar emphysema:

1. Location
2. Associations

Answer 43

1. Lower lobes

2. Alpha-1-anti-trypsin deficiency

Question 44

Distal acinar emphysema:

1. Location
2. Can lead to ___ in young adults

Answer 44

1. Along pleura and lobular septa, adjacent to areas of fibrosis, scarring, atelectasis
2. Spontaneous PT

Question 45

Discuss the pathogenesis of emphysema.

Answer 45

Tobacco generates ROS. These inactivate antiproteases (functional alpha-1-AT deficiency). Neutrophils produce elastase that cannot be broken down. This causes tissue damage.

Question 46

Discuss the gross lung appearance in emphysema.

Answer 46

Hyperinflated lungs with formation of bullae

Question 47

Discuss the histologic appearance in emphysema.

Answer 47

Destruction of septal walls, loss of elastic recoil, destruction of vascular bed, cystically dilated spaces

Question 48

Alpha-1-AT is encoded by codominantly expressed genes on chromosome ___.

Answer 48

14

Question 49

Compare the age of bronchitis vs. emphysema.

Answer 49

40-45 vs. 50-75

Question 50

Compare the dyspnea of bronchitis vs. emphysema.

Answer 50

Mild/late vs. Severe/early

Question 51

Compare the cough of bronchitis vs. emphysema.

Answer 51

Early/copious sputum vs. Late/scanty sputum

Question 52

Compare the frequency of infections of bronchitis vs. emphysema.

Answer 52

Common vs. Occasional

Question 53

Compare the airway resistance of bronchitis vs. emphysema.

Answer 53

Increased vs. Normal/slightly increased

Question 54

Compare the elastic recoil of bronchitis vs. emphysema.

Answer 54

Normal v. Low

Question 55

Compare the CXR of bronchitis vs. emphysema.

Answer 55

Prominent vessels/large heart vs. Hyperinflation/small heart

Question 56

Compare the appearance of bronchitis vs. emphysema.

Answer 56

Blue bloater (R heart failure, water weight gain) vs. Pink puffy (skinny, lanky)

Question 57

What is bronchiectasis?

Answer 57

Permanent dilation of bronchi and bronchioles caused by destruction of the muscle and elastic tissue caused by chronic necrotizing inflammation

Question 58

What are causes/predisoposing conditions of bronchiectasis?

Answer 58

1. Obstruction
2. Infection (TB, aspergillus)
3. Congenital/Hereditary (CF, Kartagener’s, immunodeficiency)
4. Other (RA, Lupus, Graft vs. Host disease)

Question 59

What are the 4 parts of Kartagener syndrome?

Answer 59

1. Sinusitis
2. Bronchiectasis
3. Situs inversus
4. Infertility

Question 60

What causes Kartagener syndrome?

Answer 60

Primary ciliary dyskinesia caused by absence/shortening of dynein arms

Question 61

What are the symptoms of restrictive/infiltrative lung disease?

Answer 61

1. Dyspnea
2. End inspiratory crackles
3. Hypoxia

Question 62

What are the CXR findings of restrictive/infiltrative lung disease?

Answer 62

1. Nodules
2. Irregular lines
3. Ground glass shadows

Question 63

What is the primary gross end stage pathology of restrictive/infiltrative lung disease?

Answer 63

Honeycomb lung

Question 64

What is the common pathogenesis of infiltrative lung disease?

Answer 64

Inflammation and fibrosis of the interstitium

Question 65

Sarcoidosis predominates in the ___ lobes of the lung.

Answer 65

Upper

Question 66

What CXR abnormalities are seen in 90% of patients with sarcoidosis?

Answer 66

Bilateral hilar lymphadenopathy

Question 67

What is seen on histology in sarcoidosis?

Answer 67

1. Non-caseating granulomas (rim of lymphocytes, found along lymphatic routes)
2. Multi-nucleated giant cells with cytoplasmic inclusions (Schaumann bodies, asteroid bodies)

Question 68

Sarcoid granulomas may include this cell, seen on histology.

Answer 68

Epithelioid histiocytes (flip flop cell)

Question 69

What are some lab abnormalities seen in sarcoidosis?

Answer 69

1. Elevated serum ACE
2. Hypercalcemia
3. Systemic immune abnormality markers

Question 70

Why is hypercalcemia seen in sarcoidosis?

Answer 70

Granulomas promote conversion of 25-OH Vitamin D to 1,25-OH Vitamin D, which promotes absorption of calcium from the gut

Question 71

What is the histologic pattern seen in idiopathic pulmonary fibrosis (IPF)?

Answer 71

Usual interstitial pneumonia

Question 72

Describe the pathogenesis of idiopathic pulmonary fibrosis.

Answer 72

1. Repeated cycles of epithelial activation/injury
2. Abnormal epithelial repair
3. Fibroblastic proliferation

Question 73

Describe the gross morphology of IPF.

Answer 73

1. Cobblestoning - pleural surface scarring
2. Firm, rubbery, white surface - fibrosis
3. Honeycombing (peripheral cysts)

Question 74

What are the symptoms of IPF?

Answer 74

1. Dyspnea on exertion
2. Dry cough
3. Velcro crackles

Question 75

What is a miscellaneous group of disorders characterized by the accumulation of dust in the lungs and the tissue reaction to its presence?

Answer 75

Pneumoconioses

Question 76

What happens in anthracosis?

Answer 76

Smokers, urban dwellers, coal miners, etc. inhale carbon pigment, which is engulfed by macrophages

Question 77

What is the difference between simple coal workers pneumoconiosis and progressive massive fibrosis?

Answer 77

In simple coal workers pneumoconiosis, accumulations of dust-laden macrophages lead to fibrosis. In progressive massive fibrosis, coal nodules coalesce, leading to fibrotic bulky black tissue masses - “black lung”

Question 78

What is Caplan Syndrome?

Answer 78

Rheumatoid pneumoconiosis - form of coal worker pneumoconiosis associated with RA; cavitating nodules on radiology

Question 79

In addition to fibrosis, what can asbestos cause?

Answer 79

Pleural effusions, pleural plaques, bronchgenic carcinoma, malignant mesothelioma, and laryngeal carcinoma

Question 80

What is seen on histology in asbestosis?

Answer 80

Ferruginous bodies

Question 81

Discuss the risks associated with asbestos exposure, lung cancer, malignant mesothelioma, and smoking.

Answer 81

Lung cancer: 5x increase risk for asbestos workers, 55x for those who also smoke
Malignant mesothelioma: 1000x increase for asbestos workers, no additional increase for those who also smoke

Question 82

What is the most prevalent chronic world occupational disease?

Answer 82

Silicosis

Question 83

What is seen on histology in silicosis?

Answer 83

1. Nodules with concentric hyalinzed collagen and a whorled appearance
2. Coalesced nodules
3. Progressive massive fibrosis
4. Fibrotic lesions in hilar lymph nodes, pleura

Question 84

What happens to the lymph nodes in silicosis?

Answer 84

Eggshell calcification

Question 85

Those who have silicosis are at increased risk for ___. Why?

Answer 85

TB - silica depresses cell-mediated immunity

Question 86

What is the most common benign lung tumor and what is it?

Answer 86

Hamartoma; benign neoplasm with various disorganized mesenchymal tissues; contains clefts and cartilage

Question 87

What are the dominant oncogenes involved in lung cancer?

Answer 87

C-MYC, KRAS, EGFR, c-Met, C-KIT

Question 88

What are the tumor suppressor genes involved in lung cancer?

Answer 88

p53, RB1, p16, other genes on chromosome 3

Question 89

Smokers tend to develop what kind of lung cancers and where?

Answer 89

Small cell and squamous cell carcinomas; central airway compartments (airway conducting system, proximal bronchus)

Question 90

Non-smokers tend to develop what kind of lung cancers and where? What genes are involved?

Answer 90

Adenocarcinoma; terminal respiratory units (gas exchange system, distal parenchyma)

Question 91

What gene is implicated in the development of adenocarcinoma in smokers? In non-smokers?

Answer 91

Smokers: KRAS

Non-smokers: EGFR

Question 92

What are the 4 common complaints involved with lung cancer?

Answer 92

1. Cough
2. Weight loss
3. Chest pain
4. Dyspnea

Question 93

What are other clinical features of lung cancer?

Answer 93

1. Pneumonia, abscess
2. Pleural effusion
3. Pericardial tamponade
4. Hoarseness (recurrent laryngeal nerve)
5. Dysphagea
6. Diaphragm paralysis (phrenic nerve)
7. Rib destruction

Question 94

What is SVC syndrome?

Answer 94

Facial swelling, cyanosis, dilation of veins in head and neck when SVC is involved in lung cancer

Question 95

What are pancoast tumors?

Answer 95

Apical tumors

Question 96

What can pancoast tumors cause?

Answer 96

1. Destruction of 1st/2nd rib

2. Horner syndrome

Question 97

What are the symptom of Horner syndrome?

Answer 97

Ptosis
Anhidrosis
Miosis
Enopthalmos
Loss of ciliospinal reflex

Question 98

What are 3 common paraneoplastic syndromes?

Answer 98

1. SIADH
2. Cushings
3. Calcitonin

Question 99

What are some other systemic manifestations of lung cancer?

Answer 99

1. Eaton-Lambert
2. Sensory neuropathy
3. Acanthosis nigricans
4. Clubbing

Question 100

What happens in Eaton-Lambert?

Answer 100

Muscle weakness due to autoantibodies against calcium channels

Question 101

What cancer is Eaton-Lambert most commonly associated with?

Answer 101

Small cell carcinoma

Question 102

What are the 2 types of lung carcinoma?

Answer 102

1. Small cell carcinoma (20%)

2. Non-small cell carcinoma (80%)

Question 103

What are the 3 types of non-small cell carcinoma?

Answer 103

1. Squamous cell carcinoma (25-30%)
2. Adenocarcinoma (30-40%)
3. Large cell carcinoma (10-15%)

Question 104

Squamous cell carcinoma is more common in ___ (men v. women) and is associated with ___. It tends to arise ___ (centrally vs. peripherally).

Answer 104

Men; smoking; centrally

Question 105

What are some histologic features of squamous cell carcinoma?

Answer 105

Intercellular bridges and keratinization

Question 106

Squamous cell carcinoma has a high frequency of ___ mutations.

Answer 106

p53 (rarely EGFR and KRAS)

Question 107

Adenocarcinoma is more common in ___ (men v. women) and is less associated with smoking. It tends to arise ___ (centrally vs. peripherally).

Answer 107

Women; peripherally

Question 108

Describe the gross mass in adenocarcinoma.

Answer 108

Spiculated mass and central scarring

Question 109

What are the three precursor lesions in adenocarcinoma?

Answer 109

1. Atypical Adenomatous Hyperplasia (AAH)
2. Adenocarcinoma in situ (AIS)
3. Minimally invasive adenocarcinoma

Question 110

Describe the AAH lesions.

Answer 110

1. Well-demarcated focus
2. <5 mm
3. Lined by cuboidal to low columnar epithelium

Question 111

Describe the AIS lesions.

Answer 111

1. 3cm or less
2. Grow along pre-existing structures
3. Preservation of alveolar architecture
4. No invasion

Question 112

Describe the MIA lesions.

Answer 112

1. 3cm or less AND
2. Invasive focus <5 mm
3. No invasion into pleura, lymphatics, or blood vessels

Question 113

Adenocarcinomas are often ___ positive and 80% contain ___.

Answer 113

TTF-1; mucin

Question 114

What happens in the EGFR mutations?

Answer 114

Mutations occur in the kinase receptor of the tyrosine kinase domain resulting in constitutive activation

Question 115

What is the targeted therapy available for EGFR mutations?

Answer 115

Erlotinib

Question 116

What is the targeted therapy available for ALK mutations/gene fusions?

Answer 116

Crizotinib

Question 117

What is the targeted therapy available for KRAS mutations?

Answer 117

No specific targeted therapy

Question 118

Describe small cell carcinoma on histology.

Answer 118

Oat cells, densely packed small blue tumor, scant cytoplasm, finely dispersed chromatin, high mitotic activity, necrosis

Question 119

What 2 genes are inactivated in 100% of cases of small cell carcinoma?

Answer 119

p53 and RB

Question 120

Where does mesothelioma originate from?

Answer 120

Pleura (mesothelial cells)

Question 121

Which tumor suppressor genes are involved in mesothelioma?

Answer 121

p16/CDKN2A

NF2

Question 122

What are the 2 histologic types of mesothelioma?

Answer 122

1. Epithelioid

2. Sarcomatoid

Question 123

What is seen on EM in mesothelioma?

Answer 123

Microvilli