Brown D R, Brown L V, Patwardhan A, Randall D C
Center for Biomedical Engineering, University of Kentucky College of Medicine, Lexington 40536-0084.
Am J Physiol. 1994 Nov;267(5 Pt 2):R1378-84. doi: 10.1152/ajpregu.1994.267.5.R1378.
Interactions of sympathetic nerve activity (SNA) with blood pressure (BP) and heart rate (HR) were assessed in conscious rats while they rested quietly in a cloth sock (n = 7), roamed freely in their home cage (n = 6), and then after anesthesia with pentobarbital (30 mg/kg; n = 7). The power and coherence spectra below 3 Hz were calculated from data collected for 9.56 min. In the conscious rat, SNA spectral power peaked at 0.4 Hz, whereas the majority of spectral power for both BP and HR occurred at frequencies lower than 0.4 Hz. However, there was an inconspicuous peak in the BP power spectra at 0.4 Hz that was not seen in the HR spectra. Coherence between SNA and BP peaked at a frequency of approximately 0.4 Hz, the same frequency at which the SNA spectral peaks occurred. In contrast, at frequencies below 0.4 Hz where maximum BP power occurred, the coherence was considerably lower. Anesthesia with pentobarbital lowered spectral power for BP, SNA, and HR but essentially did not change the coherence between SNA and BP. Interactions between respiration and each of the other variables were weak in the conscious rat. However, prominent respiratory interactions at approximately 1.2 Hz were evident after anesthesia. These data indicate a close coupling between SNA and BP at 0.4 Hz, raising the possibility that the BP spectral power at 0.4 Hz reliably reflects sympathetic activity.
在清醒大鼠安静地躺在布套内(n = 7)、在其饲养笼中自由活动(n = 6)以及戊巴比妥(30 mg/kg)麻醉后(n = 7),评估交感神经活动(SNA)与血压(BP)和心率(HR)之间的相互作用。从收集的9.56分钟数据中计算出低于3 Hz的功率谱和相干谱。在清醒大鼠中,SNA频谱功率在0.4 Hz处达到峰值,而BP和HR的大部分频谱功率出现在低于0.4 Hz的频率处。然而,BP功率谱在0.4 Hz处有一个不明显的峰值,HR谱中未观察到。SNA与BP之间的相干性在约0.4 Hz频率处达到峰值,这与SNA频谱峰值出现的频率相同。相比之下,在BP最大功率出现的低于0.4 Hz的频率处,相干性明显较低。戊巴比妥麻醉降低了BP、SNA和HR的频谱功率,但基本上没有改变SNA与BP之间的相干性。在清醒大鼠中,呼吸与其他每个变量之间的相互作用较弱。然而,麻醉后在约1.2 Hz处有明显的呼吸相互作用。这些数据表明SNA与BP在0.4 Hz处紧密耦合,增加了0.4 Hz处的BP频谱功率可靠反映交感神经活动的可能性。
