Difference between revisions of "Cardiorespiratory System Overview - Anatomy & Physiology"
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[[Nasal cavity - Anatomy & Physiology|Nasal Cavity]] | [[Nasal cavity - Anatomy & Physiology|Nasal Cavity]] | ||
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[[Paranasal sinuses - Anatomy & Physiology|Paranasal Sinuses]] | [[Paranasal sinuses - Anatomy & Physiology|Paranasal Sinuses]] | ||
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[[Pharynx - Anatomy & Physiology|Pharynx]] | [[Pharynx - Anatomy & Physiology|Pharynx]] | ||
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[[Guttural pouches - Anatomy & Physiology|Guttural Pouches]] | [[Guttural pouches - Anatomy & Physiology|Guttural Pouches]] | ||
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[[Larynx - Anatomy & Physiology|Larynx]] | [[Larynx - Anatomy & Physiology|Larynx]] | ||
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[[Trachea - Anatomy & Physiology|Trachea]] | [[Trachea - Anatomy & Physiology|Trachea]] | ||
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===Cardiovascular System=== | ===Cardiovascular System=== | ||
− | Blood, which has been oxygenated by the [[Lungs - Anatomy & Physiology|lungs]], flows through the pulmonary vein to the left atrium of the heart and subsequently to the left ventricle from which it is ejected by the heart during ventricular systole. Oxygenated blood is then distributed to the different parts of the body via the aorta. The distribution of blood is controlled by vascular tone which dictates the degree of perfusion of capillary beds and therefore the amount of oxygen available to the various tissues. Carbon dioxide produced from cellular respiration is removed from the tissues and transported either attached to proteins, in solution or as bicarbonate via the venous system to the vena cavae and ultimately to the right atrium. The passage of venous blood is a product of blood flow, vascular valves and muscular and respiratory function. Carbon dioxide rich blood enters the right ventricle and is then pumped to the lungs via the pulmonary artery. | + | Blood, which has been oxygenated by the [[Lungs - Anatomy & Physiology|lungs]], flows through the pulmonary vein to the left atrium of the [[Heart - Anatomy & Physiology|heart]] and subsequently to the left ventricle from which it is ejected by the heart during ventricular systole. Oxygenated blood is then distributed to the different parts of the body via the aorta. The distribution of blood is controlled by vascular tone which dictates the degree of perfusion of capillary beds and therefore the amount of oxygen available to the various tissues. Carbon dioxide produced from cellular respiration is removed from the tissues and transported either attached to proteins, in solution or as bicarbonate via the venous system to the vena cavae and ultimately to the right atrium. The passage of venous blood is a product of blood flow, vascular valves and muscular and respiratory function. Carbon dioxide rich blood enters the right ventricle and is then pumped to the lungs via the pulmonary artery. The arteries, veins and capillaries are collectively referred to as the [[Vascular System - Anatomy & Physiology|vascular System]] |
===Integration=== | ===Integration=== | ||
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The function of the cardiac and respiratory systems are tightly linked and regulated to maintain blood pressure, tissue oxygen delivery and carbon dioxide removal. Cardiac function is controlled by baroreceptors (pressure receptors) which result in changes to the heartrate, contractility and vascular tone. Respiratory function is controlled centrally by chemoreceptors to maintain rate and both centrally and locally to maintain bronchiolar tone. | The function of the cardiac and respiratory systems are tightly linked and regulated to maintain blood pressure, tissue oxygen delivery and carbon dioxide removal. Cardiac function is controlled by baroreceptors (pressure receptors) which result in changes to the heartrate, contractility and vascular tone. Respiratory function is controlled centrally by chemoreceptors to maintain rate and both centrally and locally to maintain bronchiolar tone. | ||
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==Test yourself - Cardiorespiratory Anatomy videos == | ==Test yourself - Cardiorespiratory Anatomy videos == |
Revision as of 16:25, 12 June 2010
This article has been peer reviewed but is awaiting expert review. If you would like to help with this, please see more information about expert reviewing. |
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Introduction
The mammalian cardiovascular and respiratory systems have evolved primarily to provide the tissues of the body with oxygen and to remove carbon dioxide. The cardiorespiratory system also has metabolic and heat exchange roles.
Respiratory System
Air is inhaled and passes through the upper respiratory tract (nares, nasal cavity, nasopharynx, larynx, trachea) where it is heated and moistened. It then passes to the lower respiratory tract (bronchi, bronchioles, alveoli) where oxygen diffuses across the alveolar wall and into the blood, forming oxyhaemoglobin.
Upper Respiratory Tract
Nasal Cavity Paranasal Sinuses Pharynx Guttural Pouches Larynx Trachea
Lower Respiratory Tract
Cardiovascular System
Blood, which has been oxygenated by the lungs, flows through the pulmonary vein to the left atrium of the heart and subsequently to the left ventricle from which it is ejected by the heart during ventricular systole. Oxygenated blood is then distributed to the different parts of the body via the aorta. The distribution of blood is controlled by vascular tone which dictates the degree of perfusion of capillary beds and therefore the amount of oxygen available to the various tissues. Carbon dioxide produced from cellular respiration is removed from the tissues and transported either attached to proteins, in solution or as bicarbonate via the venous system to the vena cavae and ultimately to the right atrium. The passage of venous blood is a product of blood flow, vascular valves and muscular and respiratory function. Carbon dioxide rich blood enters the right ventricle and is then pumped to the lungs via the pulmonary artery. The arteries, veins and capillaries are collectively referred to as the vascular System
Integration
The function of the cardiac and respiratory systems are tightly linked and regulated to maintain blood pressure, tissue oxygen delivery and carbon dioxide removal. Cardiac function is controlled by baroreceptors (pressure receptors) which result in changes to the heartrate, contractility and vascular tone. Respiratory function is controlled centrally by chemoreceptors to maintain rate and both centrally and locally to maintain bronchiolar tone.
Test yourself - Cardiorespiratory Anatomy videos
Acknowledgements and Reference Material
- References
- Creators: