093014 electrophysiology Flashcards
in non pacemaker cells of heart, what is responsible for the rapid upstroke of the action potential?
sodium entry-phase zero
calcium enters cell through calcium channel during what phase of muscle cell AP?
2
what contributes to the resting potential (phase 4) of nonpacemaker cells?
potassium
funny channel or HCN is activated during when
hyperpolarization in pacemaker cell–turned on by repolarization of membrane potential and you get increase in sodium conductance
after the inactivation gate on a sodium channel closes, what enables the activation gate to close and the inactivation gate to reopen again?
repolarization-as high negative membrane voltages are reachieved
resting potential of cardiac muscle cell is determined by
balance btwn concentration gradient and electrostatic forces for potassium b/c only potassium channels are open at rest
equilibrium potential of cardiomyocyte
-90mV
what is the major current passing through gap jxn in cardiomyoctyes?
Na+ current–spreads depolarization to neighboring cells
what contributes to the electrical delay btwn SA and AV nodes?
slower spread of depolarization by Ca2+ to neighboring cells
what can decreases pacemaker rate and slow conduction rate through AV node?
G protein activated K+ current (an inward K+ current mediated by GIRK K+ channels and regulated by acetycholine)
when is the If channel activated?
by hyperpolarization during phase 3 in pacemaker
delayed rectifier channels
allow potassium to flow out of cell and causes you to see the repolarization in phase 3 of cardiac cell AP
why is the SA node the dominant pacemaker?
because its cells have the fastest intrinsic spontaneous depolarization. normal resting rate sinus rhythm of 60-100 bpm
when does calcium influx occur in pacemaker action potential?
phase zero-once Na+ allows for reaching of threshold
why is upstroke of phase zero less rapid than in nonpacemaker cells?
because the current represents calcium influx through the relatively slow calcium channels
