vena cava and through right atrium and right ventricle reaches the lung for oxygenation using pulmonary artery. On the other hand, oxygenated blood from lungs using pulmonary veins reaches left atrium and left ventricle and further with the help of aorta reaches the entire body part.
Aorta- This largest artery of the body starts from the left ventricle and the oxygenated blood from the left ventricle is pushed into the blood circulation system with the help of aorta (Ussher and Drucker 2012). Pulmonary artery- This artery transports the de-oxygenated blood from the right ventricle of heart to lungs and further makes the blood oxygenated (Ussher and Drucker 2012). Pulmonary vein- This vein helps to carry oxygenated blood from lungs to the left atrium of the heart and further pump them to the circulatory system (Pappano and Wier 2012). Task 3 of 6 (AC 1.3)
The heart is a single body part however, it pumps the blood in two different circuits and pumps oxygenated and de-oxygenated blood simultaneously. The perimary role of heart is to drive blood from the entire body to the lungs for oxygenaton and further pumping the oxygenated blood from the lungs ot the netire body. There are two circuits for blood flow, pulmonary circuit and systematic circuit. The pulmonary circuit involves right ventricle, lungs and left atrium. Through this circuit, the blood ggets pumped from right ventricle to the lungs, as it is deoxygenated blood and from the kungs to the left atrium, as it is the oxygenated blood. On the other hand, the systematic circuit involves left ventricle, the entire circulatory system and the right atrium.
Task 4 of 6 (AC 2.1)
Hence, these conductive tissues help the heart to create its own electrical impulse to pump blood from heart to the direction of lungs and again from heart to the direction of entire body simultaneously (Gaztañaga, Marchlinski and Betensky 2012).
Task 5 of 6 (2.2)
Task 6 of 6 (AC 2.3)
Billinger, S.A., Arena, R., Bernhardt, J., Eng, J.J., Franklin, B.A., Johnson, C.M., MacKay-Lyons, M., Macko, R.F., Mead, G.E., Roth, E.J. and Shaughnessy, M., 2014. Physical activity and exercise recommendations for stroke survivors: a statement for healthcare professionals from the American Heart Association/American Stroke Association. Stroke, 45(8), pp.2532-2553.
Boulpaep, E.L., 2012. Arteries and veins. Medical physiology, 2nd Edn, pp.467-81.
Fletcher, G.F., Ades, P.A., Kligfield, P., Arena, R., Balady, G.J., Bittner, V.A., Coke, L.A., Fleg, J.L., Forman, D.E., Gerber, T.C. and Gulati, M., 2013. Exercise standards for testing and training: a scientific statement from the American Heart Association. Circulation, 128(8), pp.873-934.
Gaztañaga, L., Marchlinski, F.E. and Betensky, B.P., 2012. Mechanisms of cardiac arrhythmias. Revista Española de Cardiología (English Edition), 65(2), pp.174-185.
Kenney, W.L., Wilmore, J. and Costill, D., 2015. Physiology of sport and exercise 6th edition. pp. 123-145, Human kinetics.
Oliveira, S.C., Gomes, E.F. and Jorge, A.M., 2014, July. Heart sounds classification using motif based segmentation. In Proceedings of the 18th International Database Engineering & Applications Symposium (pp. 370-371). ACM.
Pappano, A.J. and Wier, W.G., 2012. Cardiovascular Physiology E-Book: Mosby Physiology Monograph Series. 10th Edn, pp. 234-245, Elsevier Health Sciences.
Su, H.M., Lin, T.H., Hsu, P.C., Chu, C.Y., Lee, W.H., Chen, S.C., Lee, C.S., Voon, W.C., Lai, W.T. and Sheu, S.H., 2012. Association of interarm systolic blood pressure difference with atherosclerosis and left ventricular hypertrophy. PloS one, 7(8), p.e41173.
Ussher, J.R. and Drucker, D.J., 2012. Cardiovascular biology of the incretin system. Endocrine reviews, 33(2), pp.187-215.
West, J.B., 2012. Respiratory physiology: the essentials. 9th Edn, pp. 234-256, Lippincott Williams & Wilkins.
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Structure |
Function |
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Superior vena cava |
Superior vena cava helps to collect de-oxygenated blood from systemic circulation (specifically upper half of the body) to reach the heart (Ussher and Drucker 2012). |
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Right atria |
The right atria further helps to pump the deoxygenated blood to right ventricle (Pappano and Wier 2012). |
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Pulmonary valve |
As the blood pressure in the right ventricle increases, the pulmonary valves opens up and helps to push the blood from right ventricle to out of the heart into the arteries (Ussher and Drucker 2012). |
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Right ventricle |
Right ventricle contraction helps to push the de-oxygenated blood out of the heart into the lungs through arteries. |
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Aorta |
Hearts muscular pumping chamber helps to pump oxygenated blood from left ventricle to entire circulation system (Ussher and Drucker 2012). |
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Pulmonary Artery |
The pulmonary artery transfers blood with carbon dioxide from the right ventricle to lungs. . |
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Pulmonary vein |
It helps to transport blood having oxygen from lungs to left atrium. |
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Mitral valve |
This valve differentiates the left atrium and left ventricle. After the blood, having oxygen arrives the heart through pulmonary vein and stop up the left atrium, the mitral valves opens and helps to pump the blood in left ventricle. Further, while pumping blood from left ventricle to aorta, the mitral valve remains closed to prevent the backflow of blood from ventricle to left atrium (Ussher and Drucker 2012). |
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Left ventricle |
Blood I left ventricle is dependable as this ventricle determines the blood pressure. The contraction of left ventricle pumps the blood into entire body (Pappano and Wier 2012). |
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Function |
Structure of wall |
Size of lumen |
Presence of valves |
How structure fits function |
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Artery |
The primary function of the artery is to carry oxygenated blood and nutrients from heart to rest of the body (Boulpaep 2012). |
The structure of artery is divided into three sections. the innermost layer is tunica intima (a squamous epithelium surrounded by a basement membrane), the middle layer is known as tunica media that helps to regulate artery diameter and flow of blood and the outermost layer is tunica adventitia that helps to attach the artery to tissues and maintain the structure |
The size of lumen is shorter than that of veins but bigger than the capillaries. This is because to maintain the blood pressure and prevent the back flow of the blood |
Arteries do not have valves, as the blood pressure is very high in heart that helps to flow the blood in one direction only. |
As the pressure of blood is high in heart, and the lumen of arteries are small and the wall is thicker. This structure helps to maintain a good pressure in the artery and the bloods in one direction only without the presence of any valve (West 2012) |
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Vein |
These vessels carries the deoxygenated blood from the circulatory system ti the heart (Boulpaep 2012) |
The structure is also divided in three sections that is tunica intima, tunica media and tunica adventitia. However, the difference is presence of less smooth tissue and less connective tissue. |
The size of lumen is bigger than the artery as does not determine the blood pressure, further the lumen is bigger as the presence of valves prevent the back flow of blood and the blood need extra space to make the blood flow from the veins |
Veins contains valves to stop the backflow of blood. |
The wall structure is important for the flow rate for the collection of blood from the body circulation to the heart. As the blood pressure is low, to prevent back valves are present (West 2012). |
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Capillary |
Capillaries exchanges the materials between blood and tissue cells (Boulpaep 2012). |
The wall structure of capillaries are different from veins and arteries. The capillary wall is made up of single layer of endothelial cells that helps to diffuse materials into body. |
The lumen size is shorter than that of the arteries and veins. This is because the capillary is responsible for the exchange of nutrients, oxygen and other requiring materials in the tissue joints. Therefore, the blood flow need to be slower. |
It does not possess any valve |
The structure of the capillary is important for ts function. As the capillary is responsible for diffusion of nutrients and food and blood exchange, the single epithelial layer of capillary helps to diffuse those materials (West 2012) |
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