Emphysema: Presentation & Pathogenesis (PDF)

Summary

This document presents a detailed overview of emphysema, covering its various types, pathogenesis, and clinical features. It discusses the morphology and histology of the disease, and explores different disease presentations. It touches upon the causes, leading to the development of the condition and the significant clinical manifestations.

Full Transcript

Emphysema
Abnormal permanent enlargement of the air spaces distal to the terminal
bronchioles accompanied by destruction of their walls & without obvious fibrosis

Incidence: Common

 50% of autopsies and cause of death in 6.5%
 Sex: M > F
 Clear cut association between cigarette smoking and emphysema, environmental
air pollution
 Genetic & familial predisposition (+)

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 PATHOGENESIS OF EMPHYSEMA:
Exposure to toxic substances such as tobacco

smoke and inhaled pollutants

 Ongoing inflammation with accumulation of

neutrophils, macrophages and lymphocytes in the

lung.

Release of pro-inflammatory cytokines(including

leukotriene B4, IL-8, TNF, and others)

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PATHOGENESIS OF EMPHYSEMA:

Elastases, cytokines (including IL-8) and oxidants are released causing epithelial injury, a

proteolysis of the extracellular matrix (ECM)

 Elastin degradation products further increase the inflammation.

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 Protease-anti-protease imbalance
 Patients with a genetic deficiency of the

antiprotease α1-antitrypsin

Markedly enhanced tendency to develop
pulmonary emphysema

Severity compounded by smoking.

 α1-antitrypsin is normally present in

serum, tissue fluids, and macrophages
Major inhibitor of proteases(elastase,
proteinase 3, cathepsin G) secreted by
neutrophils during inflammation.

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 Sequence of events

1. Neutrophils release cellular proteases

2. Oxidative stress  Increases the number of leukocytes  Increases proteolytic activity

3. Low levels of serum α1-antitrypsin  Unchecked elastase tissue destruction 
Emphysema

* Thus, emphysema is seen to result from the destructive effect of high protease
activity in subjects with low antiprotease activity.

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Oxidant-antioxidant imbalance

Natural Antioxidants in lung keep oxidative damage to a minimum.

Tobacco smoke contains abundant reactive oxygen species (ROS)
(free radicals)

ROS deplete these antioxidant mechanisms Induce tissue damage

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Other types of Emphysema :
i. Compensatory emphysema –
Dilation of alveoli in response to loss of lung substance elsewhere
Hyper expansion of residual lung parenchyma following surgical removal of a diseased
lung or lobe.
ii. Bullous emphysema:
Large subpleural blebs or bullae
Can occur in any form of emphysema.
These localized accentuations of emphysema occur near the apex, sometimes near old
tuberculous scarring.
Rupture of the bullae may give rise to pneumothorax.

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iii. Obstructive over inflation:
Common cause is subtotal obstruction of the airways by a tumor or foreign object.
Congenital lobar overinflation in infants, resulting from hypoplasia of bronchial cartilage
Occurs because of the obstructive agent acts as ball valve, allowing air on inspiration while
preventing its exodus on expiration
Occurs as collaterals bring in air behind the obstruction.
These collaterals consist of the pores of Kohn and other direct accessory bronchioloalveolar
connections (the canals of Lambert).

iv. Interstitial emphysema
Entrance of air into the connective tissue stroma of the lung, mediastinum, or
subcutaneous tissue

In most instances, alveolar tears causes it, secondary to raised intra-aveolar

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Depend on form & severity of emphysema.
PANACINAR TYPE : ( well developed )
Pale and voluminous lung, overlapping Heart
Emphysematous lobes ( lower zones ) - uniformly pale due to compression of
blood supply.
CENTRIACINAR TYPE :

May not appear pale or voluminous unless disease is well developed.
Upper 2/3 of lung is more severely affected.
IRREGULAR EMPHYSEMA:
Apical blebs / bullae , Secondary to scarring

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Centriacinar Panacinar 14
 Histological Morphology

 Destruction of alveolar walls without fibrosis, leading to enlarged air space
 Abnormally large alveoli separated by thin septa
 Loss of attachment of alveoli to outer wall of small airways
 Severe cases - alveoli fuse & form BLEBS or BULLAE.
 Alveolar capillaries - diminished

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Abnormal large alveoli with
destruction of the wall Normal alveoli

Histology: Thinning and destruction of
alveolar walls.

Large air spaces found. Alveolar loss.
Most of alveolar capillaries are
diminished. Fibrosis of respiratory
bronchioles +.

Loss of attachments of alveoli to the 16
outer walls of smaller airways.
Clinical features of
Emphysema:
 Only when 1/3 of lung function is
incapacitated

 Panacinar type is most disabling.

 DYSPNOEA - 1st symptom, begin
insidiously & progressive.

 COUGH + EXPECTORATION – variable &
depend on extent of associated
bronchitis

 WHEEZING

 WEIGHT LOSS

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 On clinical examination:
 Barrel chested & dyspnoeic
 Prolonged expiration, hunched over & slowing of
forced expiration.
 Pinched face & breath through pursed lips
 Patient is overventilated & well oxygenated
“PINK PUFFERS”

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 Diagnosis of Emphysema:

 Chest Radiograph: Hyper translucent lung with
small Heart

Pulmonary function test

 Reduced FEV1(forced expiratory volume)

 Normal FVC (forced vital capacity) ,ratio of FEV1
to FVC is reduced

 High Resolution CT Scan

 Detection, characterization and quantification of
emphysema & bullae

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