Difference between revisions of "Ventilation - Anatomy & Physiology"

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==Introduction==
 
==Introduction==
  
Ventilation is the movement of air into and out of the [[Lungs - Anatomy & Physiology|lungs]]. Air moves from high pressure to low pressure with the rate of flow being proportional to the pressure difference. As environmental pressure is generally constant, the [[Cardiorespiratory System Overview - Anatomy & Physiology|respiratory system]] must change its internal pressure to maintain air flow. The lungs are not fixed to the thoracic wall, but follow the changing volume of the thoracic cavity thanks to the [[Pleural Cavity and Membranes - Anatomy & Physiology#Pleural Membranes|pleura]].
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Ventilation is the movement of air into and out of the [[Lungs - Anatomy & Physiology|lungs]]. Air moves from high pressure to low pressure with the rate of flow being proportional to the pressure difference. As environmental pressure is generally constant, the [[Cardiorespiratory System Overview - Anatomy & Physiology|respiratory system]] must change it's internal pressure to maintain air flow.
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The lungs are not fixed to the thoracic wall but follow the changing volume of the thoracic cavity thanks to the [[Pleural cavity and membranes - Anatomy & Physiology#Pleural Membranes|Pleura]].
  
 
==Inspiration==
 
==Inspiration==
  
During Inspiration, the pressure within the [[Pleural Cavity and Membranes - Anatomy & Physiology|pleural cavity]] drops to less than the pressure of the external environment. This is achieved by increasing the [[Lungs - Anatomy & Physiology|lung]] volume, brought about by the inspiratory muscles. The [[Diaphragm - Anatomy & Physiology|diaphragm]] contracts, causing the dome to flatten and move caudally. The [[Ribs and Sternum - Anatomy & Physiology#Thoracic Musculature|external intercostal muscles]] contract, causing the [[Ribs and Sternum - Anatomy & Physiology|ribs]] to be pulled outwards cranially.
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*During Inspiration, the pressure within the [[Pleural cavity and membranes - Anatomy & Physiology|Pleural Cavity]] drops to less than the pressure of the external environment.  
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*This is achieved by increasing the [[Lungs - Anatomy & Physiology|lung]] volume, brought about by the Inspiratory Muscles:
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**[[Diaphragm - Anatomy & Physiology|Diaphragm]] - contracts - causing the dome to flatten and move caudally.
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**[[Ribs and Sternum - Anatomy & Physiology#Thoracic Musculature|Intercostal muscles]] - External Intercostal Muscles contract - causing the [[Ribs and Sternum - Anatomy & Physiology|ribs]] to be pulled outwards cranially.
  
 
==Expiration==
 
==Expiration==
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During Expiration, the pressure within the [[Pleural cavity and membranes - Anatomy & Physiology|Pleural Cavity]] increases to greater than that of the external environment, in order to expel air from the [[Lungs - Anatomy & Physiology|lungs]]. This is achieved by decreasing the lung volume, and is brought about by relaxation of Inspiratory Muscles:
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**Dome of the [[Diaphragm - Anatomy & Physiology|Diaphragm]] is pushed back by the intrathoracic pressure.
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**[[Ribs and Sternum - Anatomy & Physiology|Ribs]] recoil back to their original position.
  
During expiration, the pressure within the [[Pleural Cavity and Membranes - Anatomy & Physiology|pleural cavity]] increases to greater than that of the external environment, in order to expel air from the [[Lungs - Anatomy & Physiology|lungs]]. This is achieved by decreasing the lung volume, and is brought about by relaxation of inspiratory muscles. The dome of the [[Diaphragm - Anatomy & Physiology|diaphragm]] is pushed back by the intrathoracic pressure and the [[Ribs and Sternum - Anatomy & Physiology|ribs]] recoil back to their original position.
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==Species Differences==
  
==Species Differences==
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*[[Avian Respiration - Anatomy & Physiology|Avian Ventilation]] is different to mammalian ventilation, requiring different muscles.
  
[[Avian Respiration - Anatomy & Physiology|'''Avian''' ventilation]] is different to mammalian ventilation, requiring different muscles.
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==Links==
  
 
==References==
 
==References==
{{citation|initiallast = Budras|initialfirst = K.D|2last = McCarthy|2first = P.H|3last = Fricke|3first = W|finallast = Richter|finalfirst = R|year = 2002|title = Anatomy of the Dog|ed =4th|city = Hannover|pub = Schlutersche GmbH & Co. KG, Verlag und Druckerei}}
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*{{citation|initiallast = Budras|initialfirst = K.D|2last = McCarthy|2first = P.H|3last = Fricke|3first = W|finallast = Richter|finalfirst = R|year = 2002|title = Anatomy of the Dog|ed =4th|city = Hannover|pub = Schlutersche GmbH & Co. KG, Verlag und Druckerei}}
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[[Category:Respiratory System]]
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[[Category:Respiratory System - Anatomy & Physiology]]
 
[[Category:A&P Done]]
 

Revision as of 15:35, 9 September 2010


()Map CARDIORESPIRATORY SYSTEM (Map)



Introduction

Ventilation is the movement of air into and out of the lungs. Air moves from high pressure to low pressure with the rate of flow being proportional to the pressure difference. As environmental pressure is generally constant, the respiratory system must change it's internal pressure to maintain air flow.

The lungs are not fixed to the thoracic wall but follow the changing volume of the thoracic cavity thanks to the Pleura.

Inspiration

  • During Inspiration, the pressure within the Pleural Cavity drops to less than the pressure of the external environment.
  • This is achieved by increasing the lung volume, brought about by the Inspiratory Muscles:
    • Diaphragm - contracts - causing the dome to flatten and move caudally.
    • Intercostal muscles - External Intercostal Muscles contract - causing the ribs to be pulled outwards cranially.

Expiration

During Expiration, the pressure within the Pleural Cavity increases to greater than that of the external environment, in order to expel air from the lungs. This is achieved by decreasing the lung volume, and is brought about by relaxation of Inspiratory Muscles:

    • Dome of the Diaphragm is pushed back by the intrathoracic pressure.
    • Ribs recoil back to their original position.

Species Differences

  • Avian Ventilation is different to mammalian ventilation, requiring different muscles.

Links

References

  • Budras, K.D., McCarthy, P.H., Fricke, W. and Richter, R. (2002) Anatomy of the Dog. 4th ed. Hannover: Schlutersche GmbH & Co. KG, Verlag und Druckerei.