VAGAL AND SYMPATHETIC EFFECTS ON THE PACEMAKER FIBERS IN THE SINUS VENOSUS OF THE HEART

doi:10.1085/jgp.39.5.715

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ARTICLE

VAGAL AND SYMPATHETIC EFFECTS ON THE PACEMAKER FIBERS IN THE SINUS VENOSUS OF THE HEART

Otto F. Hutter ¹ and Wolfgang Trautwein ¹

¹ From the Wilmer Institute, Johns Hopkins Hospital and University, Baltimore

1. Action potentials from sinus venosus and auricle fibersof spontaneously beating frog hearts have been recorded withintracellular electrodes.

2. Sinus fibers show a slow depolarization,the pacemaker potential, during diastole. The amplitude of thispotential varies in different parts of the sinus. In some fibersthe membrane potential falls by 11 to 15 mv. during diastoleand the transition to the upstroke of the action potential iscomparatively gradual. In other regions the depolarization developsmore slowly and the action potential takes off more abruptlyfrom a higher membrane potential. It is proposed that the fibersshowing the largest fall in membrane potential during diastoleare the pacemaker fibers of the heart, and that the rest ofthe preparation is excited by conduction. In auricle fibersthe membrane potential is constant during diastole.

3. The maximumdiastolic membrane potential and the overshoot of the actionpotential vary inversely with the amplitude of the pacemakerpotential. The highest values were measured in auricle fibers.

4.Stimulation of vagi suppresses the pacemaker potentials. Whilethe heart is arrested the membrane potential of the sinus fibersrises to a level above the maximum diastolic value reached inprevious beats. In 28 experiments vagal stimulation increasedthe membrane potential from an average maximal diastolic valueof 55 mv. to a "resting" level of 65.4 mv. The biggest vagalpolarization was 23 mv.

5. In contrast to the sinus fibers vagalinhibition does not change the diastolic membrane potentialof frog auricle fibers.

6. Vagal stimulation greatly acceleratesthe repolarization of the action potential and reduces its amplitude.These changes were seen both in the sinus and in auricle fibersstimulated by direct shocks during vagal arrest.

7. The conductionvelocity in the sinus venosus of the tortoise is reduced byvagal stimulation. Block of conduction often occurs.

8. In thefrog sinus venosus sympathetic stimulation increases the rateof rise of the pacemaker potential, accelerating the beat. Thethreshold remains unchanged. The rate of rise of the upstrokeand the amplitude of the overshoot are increased.

9. The analogiesbetween the vagal inhibition of the heart and the nervous inhibitionof other preparations are discussed.

Submitted on October 11, 1955

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