PSL 431 Exam 3 Questions and Answers

PSL 431 Exam 3 Questions and
Answers
pericardium - ANSWER-encases the heart in a fibrous sac

AV valves - ANSWER-one-way valves between the atrium and ventricle

semilunar valve - ANSWER-separates ventricles from downstream arteries,
preventing reflux of blood back into the heart chambers during diastole

coronary arteries - ANSWER-blood supply to the heart muscle from first branches of
the aortic arch

angina - ANSWER-cardiac chest pain

atherosclerosis - ANSWER-blockage of arteries caused by lipid plaques

embolus - ANSWER-dislodged blood clot

ischemia - ANSWER-inadequate blood supply to an organ or tissue, esp heart mm

myocardial infarction - ANSWER-local death of cardiac tissue due to sustained
blockage within one of the coronary arteries

right artery dominant - ANSWER-posterior part of the heart is served by the right
marginal (coronary) artery

systole - ANSWER-active, contraction of heart, decreased blood flow to tissue

diastole - ANSWER-passive, relaxation of heart, increased blood flow to tissue

striated - ANSWER-due to regular arrangement of myosin thick filaments and actin
thin filaments

intercalated discs - ANSWER-adjacent cells in cardiac mm joined end to end

autorhythmic cells - ANSWER-initiate cardiac AP and conduct electrical activity

contractile cardiac myocytes - ANSWER-bundled and spiral around ventricles

atrial natriuretic peptide - ANSWER-hormone released by myocytes in atrium in
response to atrial wall stretch and enhances Na+ excretion by kidneys

desmosomes - ANSWER-promote structural integrity

, gap junctions - ANSWER-provide electrical connectivity between cells

primary active transporter - ANSWER-use ATP hydrolysis to transport vs
concentration gradient

secondary active transporter - ANSWER-use pre-existing concentration gradient to
drive ion transport, no ATP hydrolysis

cardiac conduction system - ANSWER-specialized cardiac myocytes that accelerate
and direct wave of depolarization through the heart

autorhythmicity - ANSWER-capacity for spontaneous, rhythmic self-excitation

intrinsic rate - ANSWER-natural firing rate of SA node at 100 depol/min

leaky Kir channels - ANSWER-open in resting state, driving resting membrane
potential near -90 mV

rapid voltage gated Na+ channels - ANSWER-open with AP, triggering rapid
membrane depolarization

Kto channels - ANSWER-opening causes partial membrane repolarization

L-type Ca2+ channels - ANSWER-opening of these channels causes membrane pot
to be held near 0 mV for an extended period of time due to counter-balance by
continued leakage of K+ channels; maintain depolarization

Kv channels - ANSWER-opening causes repolarization, re-establishing resting state

calcium channel blockers - ANSWER-inhibit L-type Ca++ channels and decrease
Ca++ conductance, shortening length of plateau phase and reducing cardiac
contractility
Treat HTN, angina pectoris

cardiac glycosides - ANSWER-inhibit Na/K ATPase, lowering intracellular K+ and
raising intracellular Ca++, strengthened force of contraction
Treat CHF, cardiac arrhythmias

potassium channel blockers - ANSWER-prolong cardiac AP by slowing K+
conductance during Phase 3 repolarization, helping to restore NSR
Class III anti-arrhythmic drugs

ECG - ANSWER-a surface recording of electrical activity of the heart

Lead I - ANSWER-right arm and left arm

Lead III - ANSWER-left arm and left leg

Lead III - ANSWER-left arm and left leg