Levy M N, Blattberg B
Circ Res. 1976 Sep;39(3):341-8. doi: 10.1161/01.res.39.3.341.
The left of right cardiac sympathetic nerves in open-chest, anesthetized dogs were stimulated at mean frequencies of 2 or 4 Hz. The stimuli were applied intermittently, in patterns with repetition rates or either 60/min or 15/min, to simulate the spontaneous patterns of sympathetic neural activity that occur synchronously with the cardiac or respiratory cycles, respectively. With either repetition rate, intermittent stimulation of the left sympathetic nerves was about 10-20% less effective in enhancing myocardial contractile force (CF) and about 10% less effective in increasing coronary sinus blood flow than was steady stimulation at the same mean frequency. With right-sided stimulation, there was no appreciable difference between steady and intermettent stimulation patterns with respect to the effect on heart rate. With either left-or right-sided stimulation, the rate of norepinephrine (NE) overflow into the coronary sinus blood was 20-40% less with intermittent than with steady stimulation. Cocaine administration did not materially affect this difference in NE overflow. It was concluded that the higher instantaneous frequencies that prevail during intermittent stimulation result in a reduction in the rate of NE release at the sympathetic postganglionic nerve endings in the heart.
在开胸麻醉犬中,以平均频率2或4Hz刺激右侧或左侧心脏交感神经。刺激以60次/分钟或15次/分钟的重复率间歇施加,分别模拟与心脏或呼吸周期同步发生的交感神经活动的自发模式。无论重复率如何,与相同平均频率的持续刺激相比,间歇性刺激左侧交感神经增强心肌收缩力(CF)的效果约低10%-20%,增加冠状窦血流量的效果约低10%。右侧刺激时,持续和间歇刺激模式对心率的影响没有明显差异。无论左侧还是右侧刺激,间歇性刺激时去甲肾上腺素(NE)溢入冠状窦血中的速率比持续刺激时低20%-40%。给予可卡因对NE溢出的这种差异没有实质性影响。得出的结论是,间歇性刺激期间占主导的较高瞬时频率导致心脏交感神经节后神经末梢处NE释放速率降低。