BIOL 1412 - CARDIOVASCULAR PHYSIOLOGY EXAM QUESTIONS WITH 100% CORRECT ANSWERS LATEST VERSION 2025/2026

BIOL 1412 - CARDIOVASCULAR
PHYSIOLOGY EXAM QUESTIONS WITH
100% CORRECT ANSWERS LATEST
VERSION 2025/2026.




Parts of the cardiac system - ANS - Heart

- Conduction System



Heart - ANS - Dual pump with valves

- Muscle cells connected by gap junctions



Conduction System - ANS - Non-contractile cardiac muscle cells that are modified to initiate &
distribute impulses throughout the heart

- Produce APs spontaneously (no stimulus required) BUT at different rates

- Multiple parts



Parts of the conduction system - ANS - Sinoatrial (SA) node - in right atrium

- Atrioventricular (AV) node - in right atrium

- Bundle of His (AV bundle)

- Purkinje fibres


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,Sinoatrial (SA) node - ANS - In right atrium

- Rate = 100 APs/min (modified by PSNS to be 75 APs/min

at rest)

- Produces APs faster than other areas, therefore is the pacemaker



Atrioventricular (AV) node - ANS - In right atrium

- Rate 50 APs/min



Bundle of His (AV bundle) - ANS - Originates at AV node

- ONLY route for electrical activity to go from atria to ventricles

- Bundle Branches (right and left) produce 30 APs/ min



Purkinje fibres - ANS - Terminal fibres

- Stimulate contraction of the ventricular

myocardium

- 30 APs/min



If a part in the conduction system is damaged, which part becomes the pacemaker? -
ANS The next fastest part



Artificial pacemaker - ANS Stimulates SA or AV node if they are damaged



APs of SA & AV nodes - ANS - Cells are non-contractile autorhythmic cardiac muscle cells
(self-excitable)

- Threshold = -40 mV

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, Phases of Pacemaker Activity - ANS - 1) Pacemaker Potential

- 2) AP Depolarization

- 3) AP Repolarization

- 4) Na+ channels open at -50 mV



Pacemaker phase 1: Pacemaker Potential - ANS - Low K+ permeability (K+ voltage gates
closed)

- Slow inward leak of Na+ (Na+ voltage gates open)

- Causes slow depolarization toward threshold (-40mV)



Pacemaker phase 2: AP Depolarization - ANS - At threshold → AP

- Ca++ voltage gates open and Ca++ moves in → depolarization (Na+ voltage- gates close at
threshold, therefore not involved in AP)

- Ca++ voltage-gates close at peak



Pacemaker phase 3: AP Repolarization - ANS - K+ voltage gates open at peak, K+ out →
repolarization

- K+ gates close below threshold



Pacemaker phase 4: Na+ channels open at -50 mV - ANS - Starts pacemaker potential (1)
again,

once K+ gates close (continuous cycle)



Does the pacemaker have resting membrane potential? - ANS No



APs in Ventricular Myocardium - ANS - Cells are contractile

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