Emphysema Flashcards
Emphysema?
Characterized by the destruction of the alveoli, its walls and its elasticity.
What does destruction of alveolar walls and capillary beds cause?
- Loss of compliance (decreased elastic tissue of the alveoli [reduced stretch & recoil when filling/emptying NOT decrease in compliance)
- Enlarged distal airspaces (by destroying the walls adjoining the millions of alveoli, fewer & larger alveoli are created -> decreased SA for exchange)
Etiology of emphysema?
- Smoking
- Genetic deficiency of alpha-1 antitrypsin
Trypsin?
breaks down proteins in gut, but also breaks down aging structures for regeneration of tissues
Alpha-1 antitrypsin?
Opposes the breakdown of protein so that trypsin does not excessively breakdown useful tissue
What happens if deficient in alpha-1 antitrypsin?
functional tissue of the respiratory tract is lost (trypsin breaks down walls of alveoli and capillaries)
What does alpha-1 antitrypsin do in terms of the lungs?
Protects the lungs from breakdown
What inhibits alpha-1 antitrypsin?
smoking
Explain the pathology of chronic bronchitis.
Cigarette smoke inhibits alpha 1 antitrypsin (antitrypsin is an inhibitor, so by inhibiting an inhibitor, no inhibition of trypsin exits -> allows trypsin to freely break down structures in the respiratory tract causing damage. The activity of trypsin is no longer limited but the concentration of the protease remains the same. Smoke also attracts inflammatory cells to the area (lungs). Inflammation -> inflammatory damage (on top of the damage being caused by trypsin) Furthermore, inflammatory cells can result in a release of more trypsin (increase concentration of trypsin) -> trypsin is usually helpful in aiding healthy tissue regrowth by breaking down tissue to regenerate new functional tissue, but with an increase concentration and no limitation of trypsin activity, sever damage to the alveoli occurs. Trypsin destroys the alveolar walls.
When alpha-1 antitrypsin is inhibited, what happens to the concentration and limit of trypsin?
Trypsin is no longer limited but the concentration of the protease remains the same.
What is the result of trypsin destroying the alveolar walls?
instead of many many little air sacs with walls dividing them providing surface area for gaseous exchange, the destruction of wall surface results in larger air pockets and less surface area for gas exchange.
Is the destruction reversible?
NO it is irreversible resulting in permanent distended air spaces where there is no gas exchange
Bullae?
Large airspaces
Blebs?
Small airspaces
Where does air become trapped and what does this cause?
Between alveoli -> causes an increase in the work of breathing
What will be the ventilation:perfusion ratio?
It will be normal. This does not reflect their level of health, as the only reason it is normal is that both ventilation and perfusion are impaired..
Why is ventilation impaired?
D/t the increase of dead space (area where no gaseous exchange takes place)
Why is perfusion impaired?
B/c the capillaries that adjoin alveoli are also damaged in the process
Acinus?
refers to the functional unit of the respiratory system (includes terminal bronchioles, respiratory bronchioles, and alveoli)
Acini?
lobed sacs containing groups of alveoli
What are the 2 types of emphysema?
- centrilobular
2. panacinar
What is centrilobular also referred to as?
Centriacinar or proximal acinar
Centrilobular?
When most of the damage occurs in the terminal and respiratory bronchioles, while the alveoli are mostly intact
Panacinar?
when there is damage to the entire acinus (branches+alveoli)
