4 - Chronic Obstructive Lung Disease

Question 1

What is the acinus in the lung?

Answer 1

Distal to the terminal bronchiole.

Question 2

What are pores of kohn?

Answer 2

Small holes that you can only see on EM.

They allow communication between alveolar spaces.

Question 3

What is the definition of obstructive lung disease? What are obstructive lung diseases?

Answer 3

Diseases that cause increased resistance to airflow out of the lungs.

Types:

• emphysema
• chronic bronchitis
• asthma
• bronchiectasis

Asthma and bronchietasis are both related to smoking.

Question 4

What is emphysema? How common is it?

Answer 4

Permanent enlargement of all or part of the respiratory unit (respiratory bronchioles, alveolar ducts, alveoli).

Accompanied by wall destruction without obvious fibrosis.

Affects 5-8% of the US pop, men more than women.

Question 5

What are the cuases of emphysema? What are the types?

Answer 5

Causes: smoking, air pollution, a1-antitrypsin deficiency

Types:

• centriacinar (centrilobular) - 95% of cases, related to smoking
• panacinar (involved entire respiratory acinus)

Question 6

What cellular changes occur in emphysema?

Answer 6

Increased number of macrophages, CD8+ T lymphocytes, and PMNS.

PMNs and macrophages are activated by tissue damage from cigarette smoke.

Elastase and free radicals are derived from PMNs and macrophages.

• increased elastase and decreased antielastase (a1-antitrypsin)
• increased oxidants and decreased antioxidants

Destruction of elastic tissue and increased compliance and decreased elasticity.

Question 7

What happens to elastic tissue in emphysema?

Answer 7

Elastic tissue normally keeps the airway lumen open by applying traction > elastic destruction causes collapse of airways on expiration and prevents exit of air (airflow obstruction).

Question 8

Describe the difference btween pacinar and centriacinar (centrolobular) emphysema?

Answer 8

Panacinar emphysema: thorughout the whole lung we see dilation. No areas of sparingl; Affects whole acinar unit.

Centra-acinar: scattered foci with dilation of the alveolar spaces and areas of sparing in between; Dark pigment is depositions in the lungs secondary to smoking.

Question 9

What cause centriacinar vs panacinar?

Answer 9

Centriacinar:“smokers emphysema”; occurs in apical segments of upper lobes (where smoke primarily goes)

Panacinar: a1-antitrypson deficiency, autosomal dominant. PiZZ phenotype associated with severe disease and underproduction of functional antiproteinase in the liver. Affects lower lobes of the lung (increased # of PMNs which make elastase)

Question 10

What can be seen on liver biopsy and be a clue to an a1-antitrypsin deficiency?

Answer 10

With coexisting liver disease wioth emphysema, you will see globules in hepatocytes.

These are globs of a1-antitrypsin that get trapped in the liver so they have lower levels in other parts of the body such as the lungs.

Question 11

What are clinical findinds of emphysema? What is seen on CXR?

Answer 11

Clinical findings: dyspnea, pink puffers (hyperventilation to compensate for poor ventilation and typically don’t get deoxygenated), coexistence with chronic bronchitis.

CXR:

• increased AP diameter
• hyperlucent lung fields
• vertical heart
• depressed diaphragm

Question 12

What do the air spaces look like in emphysema?

Answer 12

Enlargement of air spaces/enlargement of the pores of kahn due to tissue obstruction.

Question 13

What is chronic bronchitis? How common is it? What are causes?

Answer 13

Productive cough for at least 3 months for 2 consectutive years. Affects 4-5% of the US pop.

Causes: smoking and air pollutants.

Question 14

What is the pathogenesis of chronic bronchitis?

Answer 14

Inhaled smoke is an irritant causing mucus hypersecretion in bronchi. This leads to airflow obstruction in terminal bronchioles (more in proximal than in emphysema)

Infection can maintain the disease and cause acute exacerbations.

Bronchospasm can occur.

Question 15

What are clinical findings seen in chronic bronchitis?

Answer 15

• Productive cough
• Cyanosis: due to decreased O2 saturation from hypoxemia
• “Blue bloaters”
• Expiratory wheezing
• Cor pulmonae (enlarged heart)

CXR: enlarged heart and horizontally oriented, increased bronchial markings because of bronchial inflammation

Question 16

What are the gross findings in chronic bronchitis?

Answer 16

Hyperemia, swelling and edema of mucous membranes.

Mucinous and mucopurulent secretions.

Question 17

What is seen on histology in chronic bronchitis?

Answer 17

Chronic inflammation of the airways: inflammatory infiltrate - lymphocytes and plasma cells. Increased mucous glands.

Question 18

What is the reid index? How does it change with chronic bronchitis?

Answer 18

Ratio of thickeness of the mucous gland layer to the thickness of the wall between the epithelium and cartilage (normally 0.4).

With chronic bronchitis there’s thickening of the walls and narrowing of the bronchiolar lumina due to hyperplasia; therefore, the ratio is larger.

Question 19

What is asthma? How common is it? What are the two types?

Answer 19

Chronic but reversible disorder of conducting airways caused by an immunological reaction resulting in bronchoconstriction, inlammation, and increased mucus secretion.

8-10% of US pop.

Types:

• Atopic (allergen sensitization)
• Non-atopic (no known allergen trigger)

Question 20

What causes atopic asthma? When does it begin?

Answer 20

Type I (IgE mediated) hypersensitivity rxn

Begins in childhood: 2/3 of pts diagnosed prior to age 18

Often coexisting allergic disorders (allegic rhinitis, eczema (atopic dermatitis)

Environmental allergens act synergistically with proinflamm factors (ie viral infection).

Question 21

What is the pathogenesis of atopic asthma?

Answer 21

Exaggerated TH2 response to antigen causes cytokinse production (IL-4, IL-5, IL-13) resulting in stimulation of B cells to produce IgE and activation of eosinophils.

IgE binds mast cells causing bronchoconstictoin, mucus, vasodilation (early phase) and recruitment of more leukocytes (late phase).

Question 22

What are characteristics of non-atopic asthma?

Answer 22

No evidence of allergen sensitization.

Respiratory infection and inhaled pollutants are common triggers.

Question 23

What are clinical findings seen with asthma?

Answer 23

• Wheezing
• Chest tightness
• Cough
• Dyspnea
• Peripheral eosinophilia (because these are activated in the process)

Question 24

What is seen grossly in asthma? What is seen histologically?

Answer 24

Autopsy - hyperinflated lungs. Plump and full because of obstruction of air flow out of the lungs. Also large mucus plugs that obstruct the larger airways.

Microscopically:

• Microscopic mucus plugs in the smaller airways called curshmann spirals.
• Eosinophils
• Charcot leyden crystals - made of protein granules from eosinophils

Question 25

How does the airway remodel in reasponse to chronic asthma?

Answer 25

Causes increased number of mucus cells, hyperplasia of smooth muscles around bronchiole wall. Increased fibrotic tissue.

Question 26

What is bronchiectasis? What are associated condiciotns?

Answer 26

Permanent dilation of bronchi and bronchioles caused by destruction of smooth muscle and supporting elastic tissue.

• secondary disorder due to obstruction and chronic infection

Associated conditions: bronchial obstruction, cystic fibrosis, primary ciliary dyskinesia, immunodeficiency, necrotizing pneumonia.

Question 27

What is cystic fibrosis?

Answer 27

Prototype of bronchiectasis.

Inherited disorder of ion transport that affects fluid secretion in exocrine glands and lining of the respiratory, GI, and reproductive tracts.

aut recessive mutations in cystic fibrosis transmembrane regulator gene (CFTR) chm 7q31.2.

Question 28

What results from cysti fibrosis?

Answer 28

Increased Na and water reabsorption from luminal secretions and decreased Cl secretions from epithelial cells into lumen > dehydration of body secretions due to lack of NaCl

• defective mucociliary action
• pooling of secretions and obstruction of airways leading to secondary infections and inflammation

Bronchiectasis.

Question 29

What are clinical findings seen in bronchiectasis? What is seen on the CXR?

Answer 29

• Copious amounts of sputum
• Hemoptysis
• Digital clubbing
• Cor pulmonale (enlarged heart)

CXR: bronchial markings extending to the periphery of the lungs (usually don’t see them extending out that far)

Question 30

What are gross findings of bronchiectasis?

Answer 30

Lower lobes

Dilated airways can be followed to pleural surfaces (usually don’t go out this far)

Question 31

What are microscopic findings are seen in bronchiectasis?

Answer 31

• Intense acure and chronic inflammatory exudate in bronchial walls, necrotizing ulceration
• Squamous metaplasia of bronchial epithelium
• Hyperplasia of mucus cells
• Lung abcesses may be present
• Fibrosis of bronchial walls leading to bronchiolitis obliterans

Question 32

What is the site of airway involvement in chronic bronchitis, emphysema, asthma and cystic fibrosis?

Answer 32

chronic bronchitis: bronchus

emphysema: acinus (alveoli)

asthma: bronchus

CF: bronchus

Question 33

What are the major histologic changes seen in chronic bronchitis?

Answer 33

Mucus gland hyperplasia and secretion

Question 34

What are the major histologic changes seen in emphysema?

Answer 34

Airspace enlargement and wall destruction

Question 35

What are the major histologic changes seen in asthma?

Answer 35

Smooth muscle hyperplasia, excess mucus, and eosinophils

Question 36

What are the major histologic changes seen in cystic fibrosis?

Answer 36

Airway dilation with intense acute and chronic inflammation.