Pacemaker cells Flashcards
What determines the resting membrane potential
The permeability of the membrane to different ions
What distributes Na+ and K+, what drives this?
Na+-K+ ATPase; 3 Na+ out, 2K+ in
*keeps electrochemical (-ve) and concentration gradients
What are the resting membrane potentials for the following ions…K+Na+Cl-
Cl-/K+ is -90 mV: if you let all K+ out, RMP would become -90 mV
Na+ higher outside cell: +50 mV
What determines the equilibrium?
Balance of concentration and electrochemical charge gradient
Briefly describe the myocardial AP
What happens in depolarization of cardiac cells?
- Rapid upstroke: Na+ channels open -> RMP more +ve
- Initial repolarization: VGNa+ inactivated, K+ opens
- Calcium channels open, balanced K+ loss and keeps membrane potential +ve -> stimulates SER to release calcium stores *calcium channels stay open 250 ms (time of systole)
- Rapid repolarization: Ca2+ channels close, more K+ open -> MP comes back to -90mV
What shape is the pacemaker’s AP, where does this occur?
why is it different than a normal cardiac cell’s?
SA and AV nodes: Short and triangular NO fast sodium channels (only HCN channels)
- Upstroke: slow opening Ca2+ channels
- Repolarization: closes Ca2+ channels, opens K+ = gradual downward
What stops hyperpolarisation in pacemaker cells from never-ending?
HCN channels/funny current -> allows Na+ in so RMP reaches threshold for Ca2+ channels to reopen
How does sympathetic/parasympathetic innervation affect the depolarization of pacemaker cells?
Sympathetic: NA steepens slope, next AP generated faster
Parasympathetic: Ach shallows slope, HR lowers
How does the myocardial AP differ from skeletal muscle? (3)
- has a plateau due to Ca2+ influx and K+ efflux
- contraction requires CICR
- cardiac myocytes electrically coupled via gap junctions
