Respiratory system

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Created by
El Owen

Cards (22)

  • Inspiration at rest muscles used:
    • diaphragm
    • external intercostal muscles
  • Expiration at rest muscles used:
    • diaphragm
    • external intercostal muscles
  • Movement during inspiration at rest: ribs move up and out, diaphragm flattens
  • Movement during expiration at rest: ribs move down and in, diaphragm moves into a dome
  • Volume of air during inspiration at rest = increase
  • Volume of air in lungs during expiration at rest = decreases
  • Pressure in lungs during inspiration at rest = decreases
  • Pressure in lungs during expiration at rest = increases
  • Muscles used during inspiration while exercising:
    • Diaphragm
    • External intercostals
    • pectoralis minor
    • sternocleidonastoid
    (all contract with more force than during rest)
  • Muscles used during expiration while exercising:
    • rectus abdominals
    • internal intercostal muscles
  • Movement during inspiration while exercising: ribs move up and out further than at rest
  • Movement during expiration while exercising: ribs moving down and in faster + with more force than at rest
  • Volume of air in lungs during inspiration while exercising = increases more than at rest
  • Volume of air in lungs during expiration while exercising = decrease quicker than at rest
  • Pressure of air in lungs during inspiration while exercising = decreases more than at rest
  • Pressure of air in lungs during expiration while exercising = increases further + faster than at rest
  • Regulation of breathing: altering breathing frequency and depth to maintain the appropriate levels of oxygen and carbon dioxide
  • There are two centres within the RCC (Respiratory control centre):
    • The inspiration centre stimulates inspiratory muscles to contract at rest + during exercise
    • The expiratory centre is inactive at rest, but will stimulate additional expiratory muscles to contract during exercise
  • Signal from RCC travels down a nerve to cause muscle contraction at rest to inspire:
    • phrenic nerve causes diaphragm contraction
    • intercostal nerve causes external intercostals to contract
  • No muscles are stimulated to contract during expiration at rest, air is passively forced out
  • During exercise as well as the diaphragm and external intercostal muscles the sternocleidomastoid and pectoralis minor also contract to cause inspiration
  • Barorecepters detect increase in air pressure in lungs during exercise causing internal intercostals and rectus abdomini to be stimulated and contract to cause expiration