How would you describe the resting state of non-pacemaker versus pacemaker cells?

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Prepare for the Cardiac Electrophysiology Test. Enhance your knowledge with flashcards and multiple-choice questions, each supplemented with explanations and hints. Gear up for success on your exam!

Multiple Choice

How would you describe the resting state of non-pacemaker versus pacemaker cells?

Explanation:
Non-pacemaker (contractile) cells and pacemaker (automatic) cells differ in their resting electrical state. Contractile cells sit at a true resting membrane potential between beats, around -85 to -90 mV, maintained mainly by a high potassium conductance and minimal inward currents at rest. This stable potential is what allows a well-defined action potential to be triggered when the cell is stimulated. Pacemaker cells, however, do not hold a fixed resting voltage. After an action potential, they experience a diastolic depolarization—the pacemaker potential—driven by a funny current (If) through HCN channels and a gradual influx of Na+ and Ca2+ as the membrane potential slowly drifts upward toward threshold. This continuous drift means there isn’t a true resting potential; instead the membrane potential slowly depolarizes until it reaches the threshold to fire another action potential. That’s why the statement describing non-pacemaker cells as having a true resting potential while pacemaker cells do not best captures the distinction: contractile cells maintain a stable resting potential, whereas pacemaker cells do not.

Non-pacemaker (contractile) cells and pacemaker (automatic) cells differ in their resting electrical state. Contractile cells sit at a true resting membrane potential between beats, around -85 to -90 mV, maintained mainly by a high potassium conductance and minimal inward currents at rest. This stable potential is what allows a well-defined action potential to be triggered when the cell is stimulated.

Pacemaker cells, however, do not hold a fixed resting voltage. After an action potential, they experience a diastolic depolarization—the pacemaker potential—driven by a funny current (If) through HCN channels and a gradual influx of Na+ and Ca2+ as the membrane potential slowly drifts upward toward threshold. This continuous drift means there isn’t a true resting potential; instead the membrane potential slowly depolarizes until it reaches the threshold to fire another action potential.

That’s why the statement describing non-pacemaker cells as having a true resting potential while pacemaker cells do not best captures the distinction: contractile cells maintain a stable resting potential, whereas pacemaker cells do not.

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