Human Anatomy and Physiology : Circulatory and Lymphatic Physiology

Study concepts, example questions & explanations for Human Anatomy and Physiology

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Example Questions

Example Question #11 : Circulatory And Respiratory Physiology

Closure of the mitral valve prevents backflow of blood from the __________ into the __________.

Possible Answers:

left ventricle . . . right ventricle

right atrium . . . right ventricle

right ventricle . . . right atrium

left ventricle . . . left atrium

left atrium . . . left ventricle

Correct answer:

left ventricle . . . left atrium

Explanation:

The mitral valve is also known as the bicuspid valve, and/or the left atrioventricular valve. Closure of the mitral valve is intended to maintain forward, uni-directional flow of blood within the heart. During ventricular contraction, the mitral valve closes, preventing backflow of blood into the left atrium and instead out the aorta through the aortic semilunar valve. 

Example Question #12 : Help With Heart Physiology

What is the purpose of slowing conduction velocity across the atrioventricular node?

Possible Answers:

Allows time for the atria to empty before ventricular contraction occurs

None of these

It serves no purpose, the heart could pump blood efficiently without this conduction delay

Allows time for the ventricles to empty before atrial contraction occurs

It serves no purpose, this delay is simply the physical result of increased electrical resistance across the atrioventricular node

Correct answer:

Allows time for the atria to empty before ventricular contraction occurs

Explanation:

The  atrioventricular nodal delay helps the heart pump blood efficiently in one direction. The atrioventricular node slows electrical current sent by the sinoatrial node, before this signal is allowed to propagate down to the ventricles. This delay ensures that the atria have the time to fully empty all blood contents into the ventricles, before ventricular contraction takes place. The atrioventricular nodal delay also prevents the atria and ventricles from contracting against each other. 

Example Question #13 : Help With Heart Physiology

During which phase of a healthy patient's electrocardiogram (EKG) would you expect ventricular blood volume to be the lowest? 

Possible Answers:

P wave

T wave

During the QRS complex

Immediately before the QRS complex

PR-segment

Correct answer:

T wave

Explanation:

Ventricular blood volume should be lowest during the T wave of a healthy patient's electrocardiogram. This is because the T wave represents ventricular repolarization, which occurs after the ventricles have contracted and ejected their blood into the pulmonary and systemic circulation. 

Example Question #12 : Circulatory And Respiratory Physiology

The middle, muscular layer of the heart wall is called the __________.

Possible Answers:

Epicardium 

Parietal pericardium 

Myocardium 

Perimysium 

Endocardium 

Correct answer:

Myocardium 

Explanation:

The heart wall is made of three layers. The epicardium is the outer layer. The myocardium is the middle, muscular layer that accounts for the contractibility of the heart via pumping action. The endocardium is the inner layer that lines the cavities of the heart. The parietal pericardium consists of an inner layer of serous membrane. The perimysium is the outtermost connective tissue of a muscle. 

Example Question #13 : Circulatory And Respiratory Physiology

Blood enters the right heart through the __________.

Possible Answers:

pulmonary trunk 

superior vena cava only

superior vena cava and inferior vena cava 

aorta 

inferior vena cava only

Correct answer:

superior vena cava and inferior vena cava 

Explanation:

Both the superior vena cava and inferior vena cava drain into the right atrium. Blood leaves the right heart through the pulmonary trunk. Blood enters the left heart through the left and right pulmonary veins. Blood leaves the left heart via the aorta. 

Example Question #14 : Circulatory And Respiratory Physiology

The left atrium receives oxygen-rich blood from the lungs via the __________

Possible Answers:

superior vena cava 

pulmonary arteries 

inferior vena cava 

pulmonary veins 

aorta 

Correct answer:

pulmonary veins 

Explanation:

The pulmonary veins carry oxygen-rich blood from the lungs to the left atrium. Veins carry blood towards the heart, whereas arteries carry blood away from the heart. The superior and inferior vena cavae drain into the right atrium. The aorta distributes oxygen-rich blood to the systemic circulation.  

Example Question #486 : Systems Physiology

Which equation represents cardiac output? 

Possible Answers:

None of these

Correct answer:

Explanation:

Cardiac output is the amount of blood pumped by blood per minute. This can be measured by the equation: .  Ejection fraction is represented by: . Stroke volume is represented by the equation: . Pulse pressure is represented by the equation: .

Example Question #15 : Circulatory And Respiratory Physiology

Which of the following is not a determinant of cardiac output? 

Possible Answers:

Heart rate

Myocardial contractility 

Afterload

Preload

First heart sound

Correct answer:

First heart sound

Explanation:

Cardiac output is the amount of blood pumped by the heart per minute. The 4 factors that are important in determining cardiac output are preload, afterload, heart rate, and myocardial contractility. The first heart sound occurs at the onset of ventricular systole and is due to the closure of the atrioventricular valves. 

Example Question #16 : Circulatory And Respiratory Physiology

The first heart sound occurs at the onset of __________

Possible Answers:

ejection 

atrial systole 

ventricular systole 

atrial diastole 

filling 

Correct answer:

ventricular systole 

Explanation:

The first heart sound (s1) is due to the closure of the atrioventricular valves. This occurs at the onset of ventricular systole since, the ventricles are contracting and will eject blood through the pulmonary trunk and aorta.

Example Question #17 : Circulatory And Respiratory Physiology

Atrioventricular valves (AV) valves separate the two ventricles from the two atria. 

The right AV valve is the __________.

Possible Answers:

bicuspid valve 

mitral valve 

right semilunar valve

tricuspid valve 

left semilunar valve 

Correct answer:

tricuspid valve 

Explanation:

The tricuspid valve is the right AV valve. The left AV valve is referred to as the bicuspid, or mitral valve. Thus, these two names represent the same structure. The semilunar valves are responsible for guarding the exits from the two ventricles. 

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