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Chapter 18 - Cardiovascular System: The Heart Part B

1.

Cardiac muscle contraction: What opens voltage-gated fast Na+ channels in the sarcolemma?

depolarization

2.

Depolarization wave in T tubules causes the SR to release what?

Ca2+

3.

Depolarization also opens slow _____ channels in the sarcolemma

Ca2+

4.

In cardiac muscle contraction, there is a reversal of membrane potential from _____ mV to _____ mV

-90, +30

5.

Repolarization results from inactivation of _____ channels and opening of voltage-gated ____ channels

Ca2+, K+

6.

A network of noncontractile cells that initiate and distribute impulses to coordinate the depolarization and contraction of the heart

intrinsic cardiac conduction system

7.

What has unstable resting potentials (pacemaker potentials) due to open slow Na+ channels?

autorhythmic cells

8.

Sequence of excitation: What is present in the right atrium and generates impulses about 75 times/minute?

sinoatrial (SA) node (pacemaker)

9.

Sequence of excitation: what depolarizes faster than any other part of the myocardium?

SA node

10.

Sequence of excitation: What has smaller diameter fibers, fewer gap junctions, and delays impulses approximately 0.1 second?

atrioventricular (AV) node

11.

What depolarizes 50 times per minute in the absence of SA node input?

AV node

12.

Sequence of excitation: What is the only electrical connection between the atria and ventricles - divides into the left and right bundle branches?

atrioventricular (AV) bundle (bundle of His)

13.

What are the two pathways in the inter-ventricular septum that carry the impulses toward the apex of the heart?

right and left bundle branches

14.

What completes the pathway into the apex and ventricular walls?

purkinje fibers

15.

What depolarize only 30 times per minute in the absence of AV node output?

AV bundle and Purkinje fibers

16.

What are irregular heart rhythms?

arrhythmias

17.

What are rapid, irregular contractions, useless for pumping blood?

fibrillation

18.

A defective SA node may result in?

ectopic focus (abnormal pacemaker takes over) or if AV node takes over, a junctional rhythm (40-60 bpm)

19.

A defective AV node may result in?

partial or total heart block; few or no impulses from SA node reach the ventricle

20.

Intrinsic innvervation of the heart involves:

SA node generating impulse, which pauses at AV node; AV bundle connects atria to ventricles; bundle branches conduct impulses through interventricular septum; Purkinje fibers depolarize contractile cells of both ventricles

21.

Defects in the intrinsic conduction system may result in?

arrhythmias; uncoordinate atrial and ventricular contractions; fibrillations

22.

Extrinsic innervation of the heart: heartbeat is modified by the?

ANS

23.

Extrinsic innervation of heart: what center innervates SA and AV nodes, heart muscle, and coronary arteries through sympathetic neurons?

cardio-acceleratory center

24.

Extrinsic innervation of the heart: What center inhibits SA and AV nodes through parasympathetic fibers in vagus nerves?

cardio-inhibitory center

25.

What part of the ANS increases heart rate?

sympathetic

26.

Which part of the ANS slows heart rate?

parasympathetic

27.

What is a composite of all the action potentials generated by nodal and contractile cells at a given time?

electrocardiogram (EKG/ECG)

28.

What are the three waves of an EKG?

P wave, QRS complex, T wave

29.

Which EKG wave is the depolarization of the SA node?

P wave

30.

Which EKG wave is ventricular depolarization (activation of muscle fibers, contraction, blood pumped out)?

QRS complex

31.

Which EKG wave is ventricular repolarization (coming back to the original state, heart filled with blood)?

T wave

32.

When atrials contract, what do ventricles do?

relax

33.

What is low oxygen tension in the blood called?

hypoxemia

34.

What is low oxygen tension called?

hypoxia

35.

An EKG that shows no irregularites is called?

normal sinus rhythm

36.

An EKG that shows the SA node is nonfunctional, P waves are absent, and the heart is paced by the AV node at 40-60bpm is called?

junctional rhythm

37.

An EKG that shows some P waves are not conducted through the AV node, resulting in more P waves than QRS complexes (ratio 2 to 1) is called?

second-degree heart block

38.

Chaotic, grossly irregular EKG deflections are seen in acute heart attack and electrical shock. They are called?

ventricular fibrillation

39.

Hearts sounds are caused by what?

closing heart valves

40.

Which heart sound occurs as AV valves close, signifying the beginning of systole/ blood pumping away from the heart?

the first sound (lub)

41.

Which heart sound occurs when SL valves close at the beginning of ventricular diastole/blood going back into the heart?

the second sound (dup)

42.

What are abnormal heart sounds most often indicative of valve problems

heart murmurs

43.

Which heart sound is the closing of the mitral and tricuspid valves?

the first sound

44.

Which heart sound is the closure of semilunar walls of aorta and pulmonary trunk?

the second sound

45.

All events associated with blood flow through the heart during a complete heartbeat is called?

cardiac cycle

46.

What are the phases of the cardiac cycle?

ventriuclar filling, ventricular systole, isovolumetric relaxation

47.

What is the volume of blood in each ventricle at the end of ventricular diastole?

End diastolic volume (EDV)

48.

What is the volume of blood remaining in each ventricle after the end of systole?

End systolic volume (ESV)

49.

When does isovolumetric relaxation occur?

in early diastole

50.

What is a brief rise in aortic pressure that leads to the closure of the semilunar valves?

dicrotic notch

51.

What is the volume of blood pumped by each ventricle in one minute?

cardiac output (CO)

52.

How do you determine cardiac output?

heart rate (HR) x stroke volume (SV)

53.

Heart rate is?

number of beats per minute

54.

Stroke volume is ?

volume of blood pumped out by a ventricle with each beat

55.

What is the difference between resting and maximum cardiac output?

cardiac reserve

56.

What are the three main factors affecting stroke volume (SV)?

preload, contractibility, after load

57.

What is the degree of stretch cardiac muscle cells have before they contract ?

preload

58.

What is the Frank-Starling law of the heart?

the shorter the fiber, the shorter the power of contractibility

59.

What is the contractile strength at a given muscle length, independent of muscle stretch and EDV?

contractibility

60.

What is the pressure that must be overcome for ventricles to eject blood?

afterload

61.

Hypertension increases afterload, resulting in ?

increased ESV and reduced SV

62.

What hormones are involved with regulation of heart rate?

epinephrine and thyroxine

63.

What is an abnormally fast heart rate called?

tachycardia

64.

What is the bpm of tachycardia?

>100 bpm

65.

What is a heart rate slower than 60 bpm called?

bradycardia

66.

What is a progressive condition where the cardiac output is so low that blood circulation is inadequate to meet tissue needs?

congestive heart failure

67.

What is dilated cardiomyopathy?

muscle fibers elongate and stretch - heart enlarges/bursts

68.

Why do you see swelling/edema in the ankles of someone with congestive heart failure?

there is no venous return, blood pools to lower extremeties

69.

Blood travels into the right atrium via what?

superior and inferior vena cava

70.

Blood travels from the right atrium to the right ventricle via?

tricuspid valve

71.

Blood travels from the right ventricle through _____ to the lungs

pulmonary valve

72.

Blood travels from the left atrium to the left ventricle through what?

mitral valve

73.

What is the final valve blood travels though to get to the rest of the body?

the aortic valve (through the aorta)