Baroreflex inhibition of the human sinus node: importance of stimulus intensity, duration, and rate of pressure change.

1. Carotid baroreceptors were stimulated with electronically controlled neck suction in five healthy young men and pulse interval prolongation was measured. Timing of the onset of stimuli in relation to cardiac activity was held constant, and stimulus intensity, duration, and dP/dt were varied independently. 2. In the subjects studied, sinus node responses to neck suction were proportional to dP/dt. However, variations of stimulus dP/dt within or above the normal range for arterial dP/dt did not influence the magnitude of integrated baroreflex responses, or the earliest portion of baroreflex sinus node inhibition. 3. Carotid baroreflex responses were linear over a wide range which extended beyond the normal range for human systolic arterial pressures. 4. Saturation of the carotid baroreceptor-cardiac reflex occurred at distending pressures of about 160 mmHg. 5. The average baroreflex responses of the group studied were highly reproducible over time. 6. Baroreflex gain correlated very strongly with base line pulse interval. 7. The magnitude of baroreflex responses increased linearly with the duration of carotid sinus distension and reached a maximum level with stimuli lasting 0-5 sec or more. 8. The results demonstrate that carotid sinus transfer characteristics can be measured in normal man, and that human response patterns are strikingly similar to those observed earlier in experimental animals.