Cardiovascular Physiology Colloquium Practice MCQs

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Cardiovascular Physiology practice mcq’s

Q1. The major regulatory proteins of the thin filament of Skeletal muscle are

Actin and Myosin
The myosin Light Chains
The Myosin Light Chain Kinase and Myosin Light Chain Phosphatase
Troponin and Tropomyosin

Answer – d. Troponin and Tropomyosin

Tropomyosin covers the myosin binding sites on actin when the muscle is at rest. With activation, calcium binds to troponin which moves tropomyosin deep into the groove of actin filaments exposing the myosin binding sites on thin filament’s actin molecules

Q2. Which of the following mechanisms does not contribute to gradation of force in smooth muscle?

Regulation of the availability of calcium
Frequency of activation
Regulation of no. of active smooth muscle cells in unitary smooth muscle
Alterations of cAMP and cGMP levels

Answer – c. Regulation of no. of active smooth muscle cells in unitary smooth muscle

The cells are well coupled with gap junctions such that if one cell is activated then all cells will become activated by conduction from cell to cell

Q3. If Lead 1 in ECG records a net positive potential of 0.5mV at the same instant that Lead 3 records a net positive potential of 0.7mV what would be recorded in Lead 2?

+1.2mV
-1.2mV
+0.2mV
-0.2mV

Answer- a. +1.2mV

Using a tri-axial diagram the point of intersection of the first and second lead axis’ is the voltage that would be measured in that lead. Roughly this would be +1.2mV

Q4. The major determinants of Resting Membrane Potential in muscle cells is

The Potassium gradient and high resting membrane potassium permeability
The Sodium gradient and low resting membrane sodium permeability
The chloride gradient and high resting membrane chloride permeability
The Calcium gradient and low resting membrane calcium permeability

Answer – a. The Potassium gradient and high resting membrane potassium permeability

The equilibrium potentials for potassium and sodium are -90mV and +65mV, respectively. These gradients are maintained by Na/k ATPase. The gradients and permeability of these ions then determine the RMP because potassium is most permeable and it the major determinant.

Q5. Which of the following Cardiac Tissues have the most rapid conducting velocity?

SA node
Atrial Muscle
AV node
Purkinje Fibers

Answer- d. Purkinje Fibers

These are the tissues of the heart that are specialized for conduction and due to this they have large number of gap junctions between the cells and fairly large size and comparatively little branching of cells

Q6. Simultaneous recordings of Leads 1,2 and 3 reveals that component vector amplitudes are negative in leads 1 and 2, and positive in lead 3. The axis of depolarization for this heart would therefore be between _______ degrees.

0 and 60
90 and 120
90 and 180
150 and 210

Answer- d. 150 and 210

(calculate summated vector)

Q7. The Calcium released channel in the sarcoplasmic reticulum of skeletal muscle requires which of the following to open?

The change in intracellular Na+ concentration occurring as a result of the AP
Binding of ACh to the channel
Mechanical interaction with DHP-receptor in the t-tubule as it undergoes a voltage induced conformational change
A change in intracellular calcium concentration as a result of calcium entry through DHP-receptor

Answer- c. Mechanical interaction with DHP-receptor in the t-tubule as it undergoes a voltage induced conformational change

DHPR in the t-tubular membrane is physically connected to the calcium release channel in the SR. When the muscle cell depolarizes, the DHPR Ca-channel undergoes a voltage dependent conformational change. This change is transmitted mechanically to release the Ca-release channel in the SR and induces the later channel to open.

Q8. Sliding Filament model of muscle contraction predicts which of the following?

Maximum contracted force will be generated when thick and thin filaments overlap is maximal between 2 and 2.2 microns
Contractile force is proportional to the no. of active cross bridges
Contractile force is diminished at sarcomere lengths greater than 2.5 microns
Contractile force is diminished at very short sarcomere lengths -less than 1.5 microns due to steric hinderance
All of the above

Answer- e. All of the above

Q9. Decrease in the velocity of impulse conduction through the AV node will usually cause:

The PR interval to increase
The PR interval to decrease
Disappearance of T wave
Increased Heart rate

Answer- a. The PR interval to increase

The PR interval contains AV node depolarization information, so if conduction through AV node is slowed, because this represents the only pathway for conduction to the ventricle, the PR interval will lengthen.

Q10. Which of the following statements regarding length-tension relationships in skeletal muscles is false?

The active tension is that tension resulting from maximal stimulation of the muscle
The sub-cellular basis for the length-tension relationship is optimization of thick and thin filament overlap at the level of sarcomere
Passive tension is a measure of the force required to stretch an activated muscle

Answer- c. Passive tension is a measure of the force required to stretch an activated muscle

Q11. The CNS controls force production in skeletal muscle in which of the following ways?

Motor unit recruitment
Elevation of IP3
Frequency of activation
Elevation of cGMP
A and C are correct

Answer- e. A and C are correct

Q12. The Standard ECG Lead 1 consists of electrodes recording the potential difference between the _______ (A arms, L Legs, or AL arms and legs) so arranged as to normally yield an upright deflection of the p-wave when the right extremity is __________ (P positive or N negative) with respect to the other.

A, arms; P, Positive
L, legs; P, Positive
AL, arms and legs; P, Positive
A, arms; N, negative

Answers- d. A, arms; N, negative

Lead 1 is positive on the left arm and records between the left and right arms

Q13. The Phenomenon of summation of force in skeletal muscle involves:

Response of the muscle to increased frequency of stimulation
Recruitment of additional motor units
Optimization of thick and thin filaments to overlap
Phosphorylation of troponin to enhance its sensitivity to calcium

Answer- a. Response of the muscle to increased frequency of stimulation

Summation of force occurs when a muscle receives additional stimuli before the force transient from a previous stimulus has dissipated.

Q14. Which of the following regarding length-tension relationships in smooth muscles is true?

Smooth muscles can produce near maximum tension over a broad range of initial lengths
The basis of the length-tension relationship is smooth muscle lies in the sacromeric arrangement of thick and thin filaments
The passive tension curve rises steeply over the range of lengths wherein active tension declines
Steric hinderance accounts for loss of force production at short muscle lengths

Answer- a. Smooth muscles can produce near maximum tension over a broad range of initial lengths

Q15. A 55-year-old patient of yours begins a vigorous exercise program. As a precaution you assess his family history and noting that he is at a high risk for cardiac disease perform a routine ECG. You note in his ECG that not every P-wave is followed by a QRS complex and that the PR intervals lengthens with each successive beat until there is a dropped beat. The arrhythmia exhibited by this patient is:

First degree block
Second degree block
Third degree block
Mobitz II Block

Answer- b. Second degree block

This ECG observation is characteristic of WENCKEBACH phenomenon. This is a type of second-degree block also known as Mobitz I.

Q16. Which of the following is a determinant of myocardial function?

a. Afterload

b. Preload

c. Heart Rate

d. contractility

e. all of the above

Correct answer: E.) All of the above,

Reasoning: The four determinants of myocardial function are: Preload, Afterload, Heart

Rate and Contractility

Q17. Which of the following is true bout Frank-Starling’s Law of the Heart

a. Ensures sufficient calcium is available for each contraction

b. Ensures that are Output (CO) for the right and left ventricles are equal

Has its basis in optimization of thick and thin filament overlap
Has its basis in the rate and quantity of calcium delivered to the myofilaments

e. Both Band C are correct

f. Both A and D are correct

Correct answer: E. Both B and C are correct.

Q18. Heterometric Regulation occurs on a beat-to-heat basis. Homeometric Regulation

occurs over the course of many beats

A True

B. False

Correct answer: A.) True

Q19. At high heart rates __________ time is compromised, which initially (over a few heats)

compromises Stroke Volume (SV), and consequently, Cardin Output (CO) and mean

arterial pressure. Through intrinsic Regulatory strategies, the heart compensates for these

efforts with increased:

A. Filling Contractility

B. Contraction Filling Pressure

C. Filling Length-Dependent Force Development

D. Contraction: Blood Volume

Correct answer: A.) Filling: Contractility

Q20. If the aortic valve were stenotic (calcified such that it does not open fully during the

ejection phase), in what ways would you expect the Wiggers Diagram to be different

from normal control conditions?

A Peak systolic pressure in the aorta would be elevated

B. Peak systolic pressure in the ventricle would be cleated,

C End systolic volume in the ventricle would be reduced

D. End systolic volume in the ventricle would be elevated,

E. Both B and D are true.

Correct answer: E.) Both B and D are true.

Reasoning. If the aortic valve fails to open completely, the ventricle has to eject through a

narrowed orifice. Like the nozzle on a hose when it is narrowed, a higher water pressure

is required to achieve the same flow. Thus, ventricular pressure will rise to a much higher

value than is observed in the aorta. The worse the stenosis, the greater the pressure

difference across the valve must be to develop the same amount of output. Ejection

fraction will likely decrease in the case, causing End Systolic Volume (ESV) and End

Diastolic Volume (EDV) to rise.

Q21. The first heart sound occurs when the ________ and ____________ valves _______

A. Mitral; Tricuspid; Close

B. Aortic; Pulmonic: Close

C. Mitral; Tricuspid; Open

D. Aortic; Pulmonic: Open

Correct answer: A.) Mitral; Tricuspid; Close

Reasoning: Valves make sounds only when they close, not when they open, unless when

they are diseased. In that regard, they are like doors. The cardiac cycle begins when the

SA node fires. At this point in time the aortic and pulmonic valves are already closed.

The mitral and tricuspid valves close as the ventricle is activated. They cause the first

heart sound in the cardiac cycle.

Q22. Put the following events in their proper order.

1. c-wave

2. a-wave

3. V-wave

4. P-wave

5. QRS complex

6. T-wave

A. 4, 2, 5, 1, 6,3

B.4, 1, 5, 2, 6,3

C. 4, 2, 5, 3, 6,1

Correct answer: A.) 4, 2, 5, 1, 6,3

Reasoning. The a-wave results from atrial contraction which is preceded by electrical

activation of the atrium, the signature of which is the P-wave. The c-wave results from

the AV valves ballooning back into the atrium as they slam shut due to the pressure rising

in the ventricle. Pressure rises in the ventricle due to contraction of the ventricle which is

initiated by the QRS complex. The v-wave results from the accumulation of blood in the

atrium while the AV valves are closed. The peak of this wave occurs when the AV valves

open, which occur when the ventricle is nearly completely relaxed. Ventricular relaxation

occurs due to repolarization which is represented by the T-wave. Thus, the proper order of

events are: P-wave, a-wave, QRS complex, c-wave, T-wave, V-wave.

Q23. During the isovolumetric contraction phase of the cardiac cycle, the A-V valves are ________

(C, closed; 0, open) and the aortic and pulmonic valves are _________ (C, closed; O, open)

A. O, open; O, open

B. O, open; C, close

C. C, close; O, open

D. C, close; C, close

Correct answer: D.) C, closed; C, closed

Reasoning: In order for the volume of the ventricles to be constant, all the valves must be

closed. Also, because the blood is incompressible, when the ventricles attempts to

contract, the pressure in the ventricles will rise but the volume will not change until the

valves open

Q24. A normal systolic / diastolic blood pressure of 22 / 14 is most likely measured in the:

A. Left Ventricle

B. Right Ventricle

C. Aorta

D. Pulmonary Artery

Correct answer: D.) Pulmonary Artery

Reasoning Pressures on the left side of the heart are significantly larger than the right

with typical pressures in the left ventricle being 120/10 and the aorta being 120/80

Corresponding pressures on the right side of the heart are for the ventricle 22/5 and the

pulmonary artery 22/14.

Q25. Ischemia of local areas of cardiac muscle caused by coronary thrombosis results in

localized partial ___________(D, depolarization; H, hyperpolarization) of cell

membranes and localized extracellular ____________ (EP, electro positivity, EN,

electronegativity).

A. D, depolarization; EP, electro positivity

B.D, depolarization; EN, electronegativity

C. H, hyperpolarization; EP, electro positivity

D. H, hyperpolarization; EN, electronegativity

Correct answer: B.) D, depolarization; EN, electronegativity

Reasoning: Ischemia reduces the availability of ATP in cardiac cells which has an

immediate and significant impact on resting membrane potential with a depolarizing

effect. Compared to normal conditions this depolarized tissue is relatively electronegative

in the extracellular space.

Q26. Hemorrhage leads to hypovolemic hypotension in an effort to compensate for the loss

of blood, the reflex response to hemorrhage includes

A. Increased heart rate, increased cardiac contractility and demand total

peripheral resistance

B. Increased heart rate, decreased cardiac contractility and increased total

peripheral resistance

C. Decreased heart rate, decreased cardiac contractility and increased total

peripheral resistance

D. Increased heart rate, increased cardiac contractility and licensed total

peripheral resistance

Correct answer: D.) Increased heart rate, increased cardiac contractility and

increased total peripheral resistance.

Reasoning: Hypovolemic hypotension means that the systemic blood pressure is

decreased due to blood loss. Reflex compensatory mechanisms will attempt to return

blood pressure back to normal. Because the pressure is decreased and because MAP =

CO x TPR, the reflex response will be to increase both the cardiac output (CO) and the

total peripheral resistance (TPR). Thus, heart rate, contractility and total peripheral

resistance will all increase.

Q27. Increased sympathetic efferent activity in response to hemorrhage will cause

increase in venous tone, which will

A. Increase venous compliance and mores venous return

B. Decrease venous compliance and mobilize’ venous blood

C Decrease venous return and reduce pulmonary arterial pressure

D. Increase venous tone and decrease venous return

Correct answer: B.) Decrease venous compliance and ‘mobilize’ venous blood.

Reasoning: Increasing venous vascular tone will cause venoconstriction and decrease

venous compliance. The venous reservoir will be reduced, ‘mobilizing’ and redistributing

venous blood to the arterial side of the vasculature to help compensate for the loss of total

blood volume.

Q28. Cardiovascular mums may be caused by

A. Increased velocity of flow through a narrowed vessel

B. Significant irregularities in a vessel wall

C. Turbulent flow through a damaged cardiac valve

D. All of the above

Correct answer is: D.) All of the above.

Reasoning: Cardiovascular murmurs occur due to turbulent blood flow. Turbulent flow

occurs when 1.) the laminar flow of blood is disrupted by irregularities in the flow path,

or 2.) the velocity of flow is very high.

Q29. Flow of fluid through the lymphatic vessels will be decreased if there is an increase

A. capillary hydrostatic pressure

B. capillary permeability

C. interstitial protein concentration

D. capillary oncotic pressure

Correct answer: D.) Capillary oncotic pressure.

Reasoning: Lymph flow is related directly to the amount of fluid filtered out of the

capillaries. Fluid exchange depends on the capillary permeability and the Starling Forces

of hydrostatic and oncotic pressures. Increasing the plasma oncotic pressure will tend to

decrease fluid filtration from blood to tissue and thus will reduce lymph flow.

Q30. The Nucleus Tractus Solitarius (NTS) integrates information is receives from Cranial

Nerves (CN) IX and X. The NTS sends signals to the cardiovascular brain stem centers

Which of the three centers are stimulated in response to increased IX and X input to the NTS?

A Cardiac Accelerator

B. Vasoconstrictor

C. Cardiac Decelerator.

D. All of the above.

Correct answer: C.) Cardiac Decelerator.

Reasoning: The input to the NTS, via Cranial Nerves IX and X, is increased when blood

pressure is increased. In response, input to the cardiac decelerator center is increased.

Heart rate is reduced which will reduce cardiac output and return blood pressure back to normal levels

Q31. If there is inadequate blood flow to the brain, the body quickly responds by:

A. Inducing vasodilatation of cerebral arterioles by producing nitric oxide.

B. Causing sympathetic vasoconstriction and sympathetic cardiac stimulation

C. Increasing heart rate and inhibiting sympathetic stimulation of cerebral arterioles.

D. Causing release of epinephrine into the blood stream which binds to B- receptors of smooth muscle cells in cerebral arteries and causes their vasodilatation

Correct answer: B.) causing sympathetic vasoconstriction and sympathetic cardiac

stimulation.

Reasoning: An extremely strong autonomic response, called the cerebral ischemic

response, is triggered by inadequate brain blood flow, which can produce a more intense

sympathetic vasoconstriction and cardiac stimulation than is elicited by any other

influence on the cardiovascular control centers.

Q32. The enzyme ultimately responsible for the formation of fibrin monomers is:

A. Heparin

B. Thrombin

C. Plasminogen.

D. Kininogen.

Correct answer: B.) Thrombin

Reasoning: Thrombin is generated from pro-thrombin by activating factor X. Activation

of factor X occurs by both the extrinsic and intrinsic pathways, Kininogens are enzymes

responsible for the production of peptides (kinins) associated with inflammation

Plasminogen is the inactive precursor of plasmin, the proteolytic enzyme involved in clot

dissolution. Heparin is an anticlotting agent that is found on endothelial cell surfaces.

Q33 .Which of the following signs is observed in a patient who has lost a significant amount

of blood?

A. Respiratory acidosis.

B. Dry skin

C. Polyuria.

D. Low hematocrit.

Correct answer: D.) Low Hematocrit.

Reasoning: Blood loss causes the blood pressure to fall. The baroreceptor reflex will

cause arteriolar resistance to increase, decreasing capillary hydrostatic pressure. The

decrease in capillary pressure will cause a net fluid reabsorption from tissue to blood,

decreasing the hematocrit. Arteriolar constriction will lower blood flow to the kidney,

lowering urine output. The sympathetic outflow will increase sweating, causing cold,

damp skin

Q34. The renin-angiotensin-aldosterone system regulates blood pressure primarily by

Regulating __________. A decrease in blood pressure causes _____________ to be converted to _____

in the juxtaglomerular cells of the kidneys.

A. blood volume; prorenin; renin

B. red cell production; angiotensinogen; angiotensin

C. vasomotor tone; proadrenaline; adrenaline

D. blood volume; prothrombin; thrombin

Correct answer: A.) blood volume; prorenin; renin

Reasoning: The renin-angiotensin system is involved in long-term regulation of blood

pressure. The system influences blood pressure principally by regulating blood volume.

The decrease in perfusion pressure is sensed by mechanoreceptors in the afferent

arterioles in the kidney. The next step in the response is conversion of prorenin to renin in

the juxtaglomerular cells. Renin catalyzes the conversion of angiotensinogen to

angiotensin I. In the presence of angiotensin converting enzyme, angiotensin I is

converted to angiotensin II, which acts on the adrenal cortex, vascular smooth muscle, the

central nervous system, and the kidneys.

Q35. Mechanisms to regulate a long-term increase in arterial pressure would cause:

A. a decrease in urine output rate and an increase in blood volume.

B. no change in urine output rate

C. an increase in urine output rate and a decrease in blood volume.

D. a decrease in total peripheral resistance.

Correct answer: C.) an increase in urine output rate and a decrease in blood

volume.

Reasoning: Increased arterial pressure leads to increased urine output rate and hence fluid

volume depletion, and thus blood volume depletion. A reduced blood volume leads to a

decreased cardiac output, and hence a reduced arterial pressure. This is a negative

feedback mechanism. A decrease in total peripheral resistance arises from the baroreceptor response to an acute increase in arterial pressure.

Q36. According to Poiseuille’s Equation, blood flow through a blood vessel is directly

proportional to

A Vessel Length

B. Blood Viscosity

C. Vessel Radius, squared

D. Pressure Gradient along the vessel length:

Correct answer: D.) Pressure Gradient along the vessel length

Reasoning Upon examination of Poiseuille’s equation, it should be clear that blood flow

is inversely proportional to vessel segment length ( ) and Viscosity, but directly

proportional to the fourth power of the radius (R), and to the PRESSURI GRADUNT

(PL)

Q37. Arteries can withstand higher pressures than veins of similar diameter because:

A. A greater circumferential stress for a given pressure is generated in arteries than in veins.

B. Arteries do not contain valves.

C. Arteries have thicker media than veins of similar diameter

D. Arteries are more compliant than veins

Correct answer: C.) arteries have thicker media than veins.

Reasoning Stress (Pressure x Radius/Wall Thickness, so a thicker wall means loss

stress for a given pressure

Q38. Warfarin (coumarin) is an anti-coagulant that is often given to patients following a

heart attack. However, it too much warfarin is administered, the patient can have

episodes of bleeding. The bleeding produced by warfarin can be overcome by administering

A. Aspirin

B. Heparin.

C. Vitamin K

D. I-PA (tissue plasminogen activator)

Correct answer: C) Vitamin K.

Reasoning Warfarin is often prescribed for patients at risk for thromboembolic events,

Vitamin K is necessary for the conversion of prothrombin to thrombin. Thrombin

converts fibrinogen to fibrin and activates platelets Warfarin interferes with the activity

of Vitamin K and therefore reduces the likelihood of clot formation. Heparin prevents

clotting by inhibiting thrombin. Aspirin inhibits platelet aggregation Tissue plasminogen

activator is a thrombolytic agent

Q39. What type of blood vessel has the lowest mean blood velocity?

A. Arteries

B. Arterioles

C. Capillaries

D. Venules

E. Veins

Correct answer: C.) Capillaries

Q40. If total volumetric flow through a microvascular bed is 100 cubic centimeters per

second and mean velocity is 1 centimeter per second, what is the best estimate of the total

cross-sectional area of the microvascular bed?

A. I centimeter squared

B. 10 centimeters squared

C. 50 centimeters squared

D. 100 centimeters squared

Correct answer: D.) 100 centimeters squared.

Reasoning: Blood Flow – Velocity x Cross-Sectional Area

Q41. Vessel B has twice the length and double the radius of vessel A. Which vessel has the highest resistance to flow?

A Vessel A

B. Vessel B

Correct answer: A.) Vessel A

Reasoning: The resistance of vessel A is INVERSELY proportional to it’s radius raised

to the fourth power, whereas the resistance of vessel B, relative to vessel A, is

INVERSELY proportional to 8 times it’s radius raised to the fourth power. Hence, the

resistance of vessel A is 8 times greater than vessel B.

Q42. If the plasma protein concentration is suddenly decreased, the net filtration through the

capillary wall will:

A. Decrease

B. Increase

C. Stay the same

D. Change direction so that there is a net fluid absorption.

Correct answer: B. Increase

Reasoning Plasma colloid osmotic pressure in decreased so less fluid in reabsorbed into

the capillary from the tissue

Q43. A small molecule will tend to diffuse from the blood, across the capillary wall, and

into the tissue only if.

A. Hydrostatic pressure in the capillary is greater than the plasma colloid osmotic pressure.

B. The rate of blood flow is not too high.

C. The concentration of the molecule is higher in the blood than in the tissue

D. The capillaries contain fenestrae.

Correct answer C. the concentration of the molecule is higher in the blood than in the tissue

Reasoning : The driving force for the DIFFUSION of any molecule is its concentration gradient

Q44. If an organ’s metabolic activity increases, which one of the following events will most

likely occur?

A. Mean arterial pressure will increase and blood flow to the organ will increase

B. Parasympathetic nerves are stimulated and arterioles serving the organ dilate.

C. Epinephrine is released from the adrenal medulla and arterioles dilate.

D. Arterioles serving the organ dilate in response to local chemical changes

Correct answer: D.) Arterioles serving the organ dilate in response to local chemical

changes

Reasoning Arteriolar dilation is the response to increased accumulation of metabolites in

the tissue It leads to an increase in blood flow. This local response does not have to be

accompanied by an increase in mean arterial pressure

Q45. Venous return (VR) will increase if:

A. Central venous pressure (CVP) increases.

B. Venous resistance (Rv) increases,

C. Peripheral venous pressure (PVP) decreases.

D. Peripheral venous pressure (PVP) increases.

Correct answer: D. peripheral venous pressure (PVP) Increases

Q50. Turbulent flow can occur in:

A. veins

B. capillaries

C. arteries

D. lymphatics

Correct answer: C.) Arteries.

Reasoning: Inertial forces are too low in other vessels.

Q51. A high arterial pulse pressure together with a normal mean arterial pressure indicates:

A. arterial compliance is low.

B. total peripheral resistance is high.

C. cardiac output is low.

D. arterial compliance is high.

Correct answer: A.) arterial compliance is low.

Reasoning: The two determinants of pulse pressure are stroke volume and arterial

compliance. The two determinants of mean arterial pressure are cardiac output and total

peripheral resistance. If mean arterial pressure is normal, then it is fair to assume that

cardiac output and hence stroke volume are normal. It follows, then, that the high arterial

pulse pressure must be the result of a low arterial compliance. In other words, the arteries

are rigid and one should suspect problems with atherosclerosis.

Q52. Most of the total blood volume in the body is contained in:

A. systemic arteries

B. systemic veins

C. capillaries

D. pulmonary circulation.

Correct answer: B.) systemic veins.

Q53. During exercise, arterioles in the coronary circulation relax, while those in the

gastrointestinal circulation constrict because:

A. coronary arteriolar smooth muscle cells do not possess alpha-receptors.

B. coronary arterioles do not possess adrenergic nerves.

C. cardiac metabolism increases and functional hyperemia occurs.

D. gastrointestinal metabolism increases causing vasoconstriction,

Correct answer: C.) cardiac metabolism increases and functional hyperemia occurs.

Reasoning: During exercise, the total body oxygen demand increases, largely due to

increased skeletal muscle metabolism. To meet the increased demand, the total body

oxygen delivery, and thus the cardiac output, must increase. Increased cardiac work and

increased cardiac metabolism are required to increase the cardiac output. Functional

hyperemia in the heart means that the coronary blood vessels reflexly vasodilate,

increasing blood flow, nutrient delivery and removal of waste products to meet the

increased cardiac demand. This response is localized and does not require central control

mechanisms

Q54. When a subject is frightened, blood flow through skin arterioles is reduced. This is

caused by:

A. release of nitric oxide.

B. stimulation of the sympathetic nervous system.

C. decreased production of norepinephrine.

D. increased concentration of Potassium in tissues.

Correct answer: B.) stimulation of the sympathetic nervous system.

Reasoning: A, C and D would all result in arteriolar dilation and increased flow through

the skin.

Q55. Small (less than 1 nm diameter) lipid insoluble molecules, such as glucose, may cross

the endothelium by passing through:

A. the cell membrane.

B. junctions between cells.

C. fenestrae.

D. pinocytotic vesicle channels.

E. A and B above.

F. B and D above.

G. B, C and D above.

H. C and D above.

Correct answer: G.) B (junctions between cells), C (through fenestrae), and D

(through pinocytotic vesicle channels).

Reasoning: Lipid insoluble molecules do not pass through the cell membrane.

Q56. Plasma colloid osmotic pressure is dependent on:

A. the number of protein molecules per unit volume of plasma.

B. plasma viscosity.

C. temperature.

D. blood flow rate.

E. A only

F. A and C above.

G. C and D above

H. A, B and C above.

Correct answer: F.) A (the number of protein molecules per unit volume of plasma),

and C (the absolute temperature).

Reasoning: The Plasma Colloid Osmotic Pressure = sigma * R*T*(Ci – Co).

Q57. When a person lies down horizontally after standing for a long period of time, their

venous blood will be redistributed more evenly between their leg veins and their thoracic

veins. This will immediately result in which of the following responses:

A. a decrease in central venous pressure (CVP).

B. a decrease in cardiac output (CO).

C. an increase in central venous pressure (CVP).

D. an increase in resistance of the peripheral veins.

Correct answer: C.) An increase in central venous pressure (CVP).

Reasoning: Veins contain the greatest percentage of blood in the body and they are very

compliant. When a person stands, the combined effects of gravity and venous compliance

cause blood to pool in the leg veins. Assuming a horizontal position will shift some of

this blood to the vena cava because gravity no longer exerts its downward force on this

volume of blood. The volume of blood that shifts into the vena cava is large enough to

increase the pressure in the thoracic vena cava so that central venous pressure (CVP) will

increase

Q58. Which of the following statements is FALSE. The myogenic response is associated

with:

A. a change in smooth muscle cell membrane potential.

B. opening of calcium channels in smooth muscle cell membrane.

C. stimulation of G-protein by norepinephrine.

D. stretching of the arteriolar wall.

Correct answer: C.) stimulation of G-protein by norepinephrine.

Reasoning: The myogenic response is thought to act by opening stretch-sensitive cation

channels. Sodium ions then enter the cell and depolarize the membrane gradually, which

will subsequently open voltage-dependent calcium channels.

Q59. Which of the following statements is FALSE. The net rate at which water filters

across capillary walls from blood to tissue depends on:

A. capillary pressure.

B. sodium pumps.

C. capillary filtration coefficient,

D. reflection coefficient to albumin.

Correct answer: B.) sodium pumps.

Reasoning: See the Starling Equation for transcapillary fluid flow.

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