Examples of artery in the following topics:
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- Arteries take blood away from the heart.
- The main artery is the aorta that branches into other major arteries, which take blood to different limbs and organs.
- These major arteries include the carotid artery, which takes blood to the brain; the brachial arteries, which take blood to the arms; and the thoracic artery, which takes blood to the thorax and then into the hepatic, renal, and gastric arteries for the liver, kidneys, and stomach, respectively.
- The iliac artery takes blood to the lower limbs.
- The major arteries diverge into minor arteries, and then into smaller vessels called arterioles, to reach more deeply into the muscles and organs of the body.
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- The renal arteries split into several segmental arteries upon entering the kidneys.
- Each segmental artery splits further into several interlobar arteries that enter the renal columns, which supply the renal lobes.
- The interlobar arteries split at the junction of the renal cortex and medulla to form the arcuate arteries.
- The arcuate, "bow shaped" arteries form arcs along the base of the medullary pyramids.
- Cortical radiate arteries, as the name suggests, radiate out from the arcuate arteries, branch into numerous afferent arterioles, and then enter the capillaries supplying the nephrons.
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- Coronary circulation intrinsic to the heart takes blood directly from the main artery (aorta) coming from the heart.
- After it is filled, the right ventricle pumps the blood through the pulmonary arteries to the lungs for re-oxygenation.
- The coronary arteries branch from the aorta, surrounding the outer surface of the heart like a crown.
- Atherosclerosis is the blockage of an artery by the buildup of fatty plaques.
- The heart muscle will die without a steady supply of blood; because of the narrow size of the coronary arteries and their function in serving the heart itself, atherosclerosis can be deadly in these arteries.
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- In the arteries, the hydrostatic pressure near the heart is very high.
- Blood flows to the arterioles (smaller arteries) where the rate of flow is slowed by the narrow openings of the arterioles.
- The systolic pressure is defined as the peak pressure in the arteries during the cardiac cycle; the diastolic pressure is the lowest pressure at the resting phase of the cardiac cycle.
- During systole, when new blood is entering the arteries, the artery walls stretch to accommodate the increase of pressure of the extra blood.
- Blood pressure is related to the blood velocity in the arteries and arterioles.
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- As cardiac output increases, the number of capillaries and arteries that are perfused (filled with blood) increases.
- These capillaries and arteries are not always in use, but are ready if needed.
- Anatomical dead space, or anatomical shunt, arises from an anatomical failure, while physiological dead space, or physiological shunt, arises from a functional impairment of the lung or arteries.
- An anatomical shunt develops because the ventilation of the airways does not match the perfusion of the arteries surrounding those airways.
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- The heart pumps oxygenated and deoxygenated blood throughout the body in a complex system of arteries, veins, and capillaries.
- With each rhythmic pump of the heart, blood is pushed under high pressure and velocity away from the heart, initially along the main artery, the aorta .
- From the aorta, blood flows into the arteries and arterioles and, ultimately, to the capillary beds.
- Blood leaves the heart through the pulmonary artery and aorta, while blood enters the heart through the two venae cavae and pulmonary veins.
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- Non-physiological flow conditions (especially high values of shear stress) caused by arterial stenosis or artificial devices (e.g. mechanical heart valves or blood pumps) can also lead to platelet activation.
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- The circulatory system is effectively a network of cylindrical vessels (the arteries, veins, and capillaries) that emanate from a pump (the heart).
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- Free radicals are thought to play a role in many destructive processes in the body, from cancer to coronary artery disease.
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- A nephron consists of three parts: a renal corpuscle, a renal tubule, and the associated capillary network, which originates from the cortical radiate arteries.