Human

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    Created by
    Samuel Bulmer

    Cards (9)

    • Explain the essential features of the alveolar epithelium that makes it adapted as a surface for gas exchange
      • Flattened cells/1 cell thick - Short diffusion pathway
      • Folded - Large Surface Area
      • Permeable - Allows for diffusion of O2/CO2
      • Moist - Gasses can dissolve for diffusion
      • Good blood supply from large network of capillaries - Maintains concentration gradient
    • Describe how gas exchange occurs in the lungs
      • Oxygen diffuses from alveolar air space into blood down the concentration gradient
      • Across alveolar epithelium then across capillary endothelium
    • Explain the importance of ventilation
      • Brings in air containing higher conc of oxygen and removes air with lower conc of oxygen
      • Maintaining the concentration gradient
    • Explain Inspiration (Breathing in)
      1. Diaphragm muscles contract - Flattens
      2. External intercostal muscles contract, internal intercostal muscle relax (Antagonistic) - Rib cage is pulled up and out
      3. Increasing volume and decreasing pressure in thoracic cavity
      4. Air moves into lungs from high pressure to low pressure down pressure gradient
    • Explain Expiration (Breathing out)
      1. Diaphragm relaxes - Moves upwards and forms a dome shape
      2. External intercostal muscles relax, internal intercostal muscle may contract - ribcage moves down and in
      3. Decreasing volume and increasing pressure in thoracic cavity
      4. Air moves out of lungs from high pressure to low pressure down pressure gradient
    • Suggest why expiration is normally passive at rest
      • Internal intercostal muscles do not normally need to contract
      • Expiration is aided by elastic recoil in alveoli
    • Suggest how different lung diseases reduce the rate of gas exchange
      • Thickened alveolar tissue (E.g. fibrosis) - Increases diffusion pathway
      • Alveolar wall breakdown - Reduces surface area
      • Reduce lung elasticity - Lungs expand/recoil less - reduces concentration gradient of O2/CO2
    • Suggest how different lung diseases affects ventilation
      1)Reduce lung elasticity (E.g. fibrosis - build up of scar tissue) - Lungs expand/recoil less
      • Reducing volume of air in each breath (Tidal Volume)
      • Reducing maximum volume of air breathed out in one breath (Forced vital capacity)
      2)Narrow airways/reduce air flow in & out of lungs (E.g. asthma - inflamed bronchi)
      • Reducing maximum volume of air breathed out in 1 second
      3)Reduced rate of gas exchange - increased ventilation rate to compensate for reduced oxygen in blood
    • Suggest why people with lung disease experience fatigue?
      Cells receive less oxygen - rate of aerobic respiration reduced - less ATP made
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