Tank Jens, Diedrich Andre, Szczech Elke, Luft Friedrich C, Jordan Jens
Department of Nephrology and Hypertension, Franz-Volhard-Clinic, Medical Faculty of the Charité and HELIOS Klinikum, Berlin, Germany.
Hypertension. 2004 May;43(5):1035-41. doi: 10.1161/01.HYP.0000125729.90521.94. Epub 2004 Mar 22.
We observed earlier that central alpha-2 adrenoceptor stimulation in mice greatly augments parasympathetic tone. To test the effects in humans, we assessed autonomic vasomotor tone and baroreflex regulation in 9 normal young adults on 2 occasions, once with and once without clonidine. We determined heart rate (HR), beat-by-beat blood pressure (BP), and muscle sympathetic nerve activity. HR variability was analyzed in the time and frequency domain. Pharmacological baroreflex slopes were determined using incremental phenylephrine and nitroprusside infusions. Clonidine lowered resting BP (122+/-4/73+/-3 versus 100+/-7/55+/-3 mm Hg, P<0.01), muscle sympathetic nerve activity (18+/-3 versus 4+/-2 bursts/min, P<0.01), and HR (62+/-3 versus 56+/-3 bpm, P<0.05). The baroreflex heart rate curve was reset to much lower HR values and showed no saturation at low HR. HR variability profoundly increased during clonidine plus phenylephrine (total power: 3224+/-843 versus 8943+/-2329 ms2, P<0.05). High-frequency power was 1451+/-520 at baseline and 6720+/-2475 ms2 during baroreceptor loading (P<0.05). The low-frequency/high-frequency ratio decreased (1.94+/-0.41 versus 0.69+/-0.10, P<0.05). In contrast, clonidine reduced resting sympathetic vasomotor tone and shifted the operating point of the sympathetic baroreflex to a flat part of the sympathetic baroreflex curve. The shift decreased the ability of the baroreflex to withdraw sympathetic vasomotor tone during baroreflex loading. These baroreflex changes were associated with a moderate increase in phenylephrine responsiveness. We conclude that alpha-2 adrenoceptor stimulation has a differential effect on baroreflex HR and vasomotor regulation. alpha-2 Adrenoceptor stimulation greatly augments baroreflex-mediated bradycardia, most likely by parasympathetic activation.
我们之前观察到,小鼠体内中枢α-2肾上腺素能受体受到刺激会极大地增强副交感神经张力。为了测试对人类的影响,我们在9名正常年轻成年人身上分两次评估自主血管运动张力和压力反射调节,一次使用可乐定,一次不使用。我们测定了心率(HR)、逐搏血压(BP)和肌肉交感神经活动。在时域和频域分析了心率变异性。使用递增剂量的去氧肾上腺素和硝普钠输注来测定药理学压力反射斜率。可乐定降低了静息血压(122±4/73±3与100±7/55±3毫米汞柱,P<0.01)、肌肉交感神经活动(18±3与4±2次/分钟,P<0.01)和心率(62±3与56±3次/分钟,P<0.05)。压力反射心率曲线被重置为更低的心率值,并且在低心率时未显示出饱和。在可乐定加去氧肾上腺素期间,心率变异性显著增加(总功率:3224±843与8943±2329毫秒²,P<0.05)。高频功率在基线时为1451±520,在压力感受器负荷期间为6720±2475毫秒²(P<0.05)。低频/高频比值降低(1.94±0.41与0.69±0.10,P<0.05)。相反,可乐定降低了静息交感神经血管运动张力,并将交感神经压力反射的工作点转移到交感神经压力反射曲线的平坦部分。这种转移降低了压力反射在压力反射负荷期间撤回交感神经血管运动张力的能力。这些压力反射变化与去氧肾上腺素反应性的适度增加有关。我们得出结论,α-2肾上腺素能受体刺激对压力反射心率和血管运动调节有不同的影响。α-2肾上腺素能受体刺激极大地增强了压力反射介导的心动过缓,最可能是通过副交感神经激活实现的。
