Phase 0 in pacemaker cells is slower than Phase 0 in ventricular myocytes.

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Prepare for the EPU Electrophysiology Exam. Study with interactive quizzes and comprehensive questions, complete with detailed explanations and insights. Get ready to excel on your test

Multiple Choice

Phase 0 in pacemaker cells is slower than Phase 0 in ventricular myocytes.

Phase 0 rapid depolarization is defined by the inward current that drives the membrane potential upward. In ventricular myocytes, this upstroke is powered mainly by a large fast inward Na+ current through voltage-gated sodium channels, producing a very rapid and steep rise and, hence, fast conduction. Pacemaker cells in the SA and AV nodes rely on calcium entry for their phase 0, primarily through L-type calcium channels (with some contribution from T-type). Calcium channels activate more slowly and carry a smaller current than the fast sodium channels, so the rate of rise of the membrane potential is slower. This makes phase 0 in pacemaker cells slower than in ventricular myocytes, which fits their function of slower, automatic pacing and conduction through nodal tissue.

Phase 0 in pacemaker cells is slower than Phase 0 in ventricular myocytes.

Prepare for the EPU Electrophysiology Exam. Study with interactive quizzes and comprehensive questions, complete with detailed explanations and insights. Get ready to excel on your test

Phase 0 in pacemaker cells is slower than Phase 0 in ventricular myocytes.

Get the latest from Examzify