Vaughan Williams Class 1 (electrolyte function) is associated with which mechanism?

Prepare for the COPR Advanced Care Paramedic Exam. Study with multiple choice questions covering key topics. Each question includes hints and explanations to aid your learning. Boost your confidence for the exam!

Multiple Choice

Vaughan Williams Class 1 (electrolyte function) is associated with which mechanism?

Explanation:
Fast sodium channel blockade in cardiac cells slows the rate of rise of the action potential (phase 0) and reduces conduction velocity through atrial, ventricular, and Purkinje pathways. This is the defining feature of Vaughan Williams Class I antiarrhythmics, which act by inhibiting the fast inward sodium current. The Class I drugs are subdivided based on their effects on action potential duration and refractoriness, but their common mechanism is blocking these Na+ channels rather than affecting potassium channels, calcium influx, or adrenergic receptors. Therefore, the mechanism described here is slowing of fast sodium channels.

Fast sodium channel blockade in cardiac cells slows the rate of rise of the action potential (phase 0) and reduces conduction velocity through atrial, ventricular, and Purkinje pathways. This is the defining feature of Vaughan Williams Class I antiarrhythmics, which act by inhibiting the fast inward sodium current. The Class I drugs are subdivided based on their effects on action potential duration and refractoriness, but their common mechanism is blocking these Na+ channels rather than affecting potassium channels, calcium influx, or adrenergic receptors. Therefore, the mechanism described here is slowing of fast sodium channels.

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