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Example Questions
Example Question #1 : Understanding Other Vascular Physiology
Which of the following helps cool the body temperature?
None of these
Peripheral vasoconstriction
Shivering
Hyperventilation
Peripheral vasodilation
Peripheral vasodilation
When the body temperature is too high, peripheral vasodilation can help exchange heat from the body to the environment. Warm blood from the center of the body is pumped to the extremities, which have a high surface area. The surface area is used to allow the heat from the blood to dissipate before it returns to the center of the body.
Peripheral vasoconstriction and shivering help increase the body temperature. Hyperventilation have no noticeable effect on body temperature.
Example Question #2 : Understanding Other Vascular Physiology
The exchange of oxygen and carbon dioxide occurs in which of the following structures?
Lymph ducts
Capillaries
Arteries
Sinusoids
Veins
Capillaries
Capillaries are minute blood vessels that connect the arterial and venous systems. The walls of these vessels are extremely thin, allowing easy diffusion of gases, nutrients, and waste particles between the capillary and adjacent cells. Oxygen diffuses into cells from the capillary, and carbon dioxide diffuses into the capillary from the cells.
Example Question #3 : Understanding Other Vascular Physiology
Which blood vessel type can be constricted in order to reroute blood?
Capillary
Arteriole
Venule
Artery
Arteriole
Vasoconstriction is a function of the smooth muscle that surrounds the vasculature. In order to reroute blood, the vessel needs to have a substantial amount of smooth muscle.
Arterioles have a relatively small diameter and a relatively large amount of smooth muscle. When contracted, this smooth muscle can obstruct the arteriole and route blood away from connected capillary beds. Capillaries do not have smooth muscle linings, and cannot constrict or reroute blood on their own. Arteries have a relatively large diameter; contraction of the surrounding smooth muscle can affect blood pressure, but will rarely be capable of rerouting the blood flow.
Example Question #4 : Understanding Other Vascular Physiology
What prevents backflow of blood in veins?
Nothing; blood often flows backward in veins
Blood pressure by itself is enough to keep blood flowing in a single direction
Veins contain a series of one-way valves that allow blood to only flow in one direction
Veins contain cilia which push the blood forward
Veins contain a series of one-way valves that allow blood to only flow in one direction
Veins contain a series of one way valves that prevent blood from flowing backwards. This is particularly important in larger veins in the legs that are further below the heart, and must oppose gravity to get blood back to the heart. Almost all of the blood pressure produced by the heart is lost along capillaries, thus the blood pressure in the veins is almost zero. Blood is "squished up" a little at a time due to the contraction of the skeletal muscles around veins and the presence unidirectional valves.
Example Question #5 : Understanding Other Vascular Physiology
Oxygen-poor blood returns to the heart via which structure?
Left atrium
Pulmonary artery
Left ventricle
Pulmonary vein
Vena cava
Vena cava
The venae cavae are the largest veins in the body. They return deoxygenated blood to the heart. The pulmonary veins bring oxygenated blood from the lungs to the left atrium. The pulmonary arteries bring deoxygenated blood from the right ventricle to the lungs to become oxygenated. The left ventricle hold oxygen-rich blood, and pumps it to the rest of the body. The left atrium is where freshly oxygenated blood is received via the pulmonary veins.
Example Question #4 : Understanding Other Vascular Physiology
The stable pH of human blood is closest to which of the following?
2-7
7-10
6.5
7.5
7.5
The stable pH of blood is around 7.5 and is maintained by buffers, especially carbon dioxide/bicarbonate. Note that the blood pH is very tightly regulated and is adjusted by the respiratory and urinary systems.
Example Question #6 : Understanding Other Vascular Physiology
Blood with the highest oxygen content would be found where?
Coronary artery
Pulmonary arteries
Pulmonary veins
Vena cava
Aorta
Pulmonary veins
The correct answer is pulmonary veins. The pulmonary veins transfer the newly oxygenated blood towards the heart. Blood in these veins is highly concentrated with oxygen unlike any of the other locations mentioned. The pulmonary arteries bring oxygen-poor blood towards the lungs to be oxygenized.
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