pathology and mechanism of airflow obstruction

Last edited 12/2018 and last reviewed 02/2021

Pathological changes in COPD seen in the airways, lung parenchyma and in pulmonary vasculature.  These changes include:

  • chronic inflammation
    • increased numbers of specific inflammatory cell types in different parts of the lung
    • results from an enhanced or abnormal inflammatory response to chronic irritants such as cigarette smoke
  • structural changes due to repeated injury and repair (1)

These pathological changes in turn results in the following physiological abnormalities:

  • mucous hypersecretion
    • an increase in the number of goblet cells and size of bronchial submucosal glands (caused by noxious particles and gases) is the cause
    • causes a chronic productive cough which is characteristic of chronic bronchitis
    • not necessarily associated with airflow limitation (1)
    • all COPD patients do not have symptomatic mucous hypersecretion

  • ciliary dysfunction
    • caused by squamous metaplasia of epithelium
    • results in dysfunction of the mucociliary escalator and difficulty expectorating

  • airflow limitation and hyperinflation/air trapping
    • airflow limitations are seen mainly in the small airways (<2mm in diameter) caused by
      • inflammation, narrowing (airway remodelling) and inflammatory exudates
      • loss of lung elastic recoil (due to destruction of alveolar walls)
      • destruction of alveolar support (from alveolar attachments)
    • progressive air trapping during expiration causes hyperinflation of the lungs at rest and dynamic hyperinflation during exercise
    • hyperinflation is thought to develop early in the disease and is the main mechanism for exertional dyspnoea (1,2)

  • gas exchange abnormalities
    • characterised by arterial hypoxaemia with or without hypercapnia
    • results from an abnormal distribution of ventilation/perfusion ratios

  • pulmonary hypertension
    • occurs in late COPD where there is severe gas exchange abnormalities
    • contributing factors include
      • small pulmonary arterial vasoconstriction (due to hypoxia)
      • endothelial dysfunction
      • remodelling of the pulmonary arteries smooth muscle (hypertrophy and hyperplasia)
      • destruction of the pulmonary capillary bed (1,2)

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