Rush - Advanced Pharmacology - NSG 531 - Exam 3 Comprehensive Questions with Verified Answers Graded A+

Rush - Advanced
Pharmacology - NSG 531 -
Exam 3 Comprehensive
Questions with Verified
Answers Graded A+
what is the difference between cardiac myocyte action potential and that of the CNS or ANS? -
Answer: nerve cell action potential is very short

cardiac action potential is much longer

they are longer to have adequate filling time in order to get a good contraction for a reasonable
bolus of blood

the only way this can happen is if the action potential is longer

this will also mean that the refractory period will be longer



What are the 5 phases of the non-pacemaker action potential? - Answer: 0 - depolarization

1 - partial repolarization

2 - plateau

3 - repolarization

4 - resting membrane potential



what happens during phase 0 of the non-pacemaker action potential - Answer: depolarization

,voltage gated sodium channels are opening up until we get past threshold



what happens during phase 1 of the non-pacemaker action potential - Answer: partial
repolarization



what happens during phase 2 of the non-pacemaker action potential - Answer: plateau

calcium channels open (L-type because they are long)

potassium is still open

potassium out and calcium in - they are opposing each other in voltage giving the plateau

this is when the ventricles are filling



what happens during phase 3 of the non-pacemaker action potential - Answer: repolarization

calcium channels are closed

potassium channels are the only thing open taking their positive charge with them making the
interior more negative



what happens during phase 4 of the non-pacemaker action potential - Answer: resting
membrane potential where we are in between action potentials there is no net change in
ovltage inside the cell



When does contraction take place? - Answer: begins towards the end of repolarization and ends
at some point during repolarization



refractory period - Answer: during phase 0, 1, 2, and part of phase 3 the cell is refractory to the
initiation of new action potentials

many antiarrhythmic drugs increase the Refractory period which reduces myocyte excitability



what are the benefits of the refractory period - Answer: limits frequency of cardiac contractions

, allows for adequate filling time

prevents sustained contractions



how are pacemaker cells different from non-pacemaker cell - Answer: no resting membrane
potential - no point where it is flat

there are very few sodium channels in pacemaker - sodium channels are not driving
depolarization - calcium is

only 3 phases

comprised of cells within the SA node

generate regular, spontaneous action potentials



what are the phases of pacemaker action potential - Answer: 0 - rapid depolarization

3 - repolarization

4 - slow depolarization



what happens during phase 0 of the pacemaker action potential - Answer: Rapid depolarization

something is coming to open voltage gated calcium channels (L-type) calcium comes rushing in



what happens during phase 3 of the pacemaker action potential - Answer: repolarization

potassium channels now open up, potassium rushes out, repolarizes



what happens during phase 4 of the pacemaker action potential - Answer: slow depolarization

with potassium rushing out we are all the way down at -60

funny sodium channels open up until voltage reaches -50

T-type (transient) calcium channels open up until voltage reaches -40

L-type calcium channels then open back up