Differential dynamic control of cardiac and splanchnic sympathetic nerve activity by the arterial baroreflex

机译：动脉压力反射法对心脏和内脏交感神经活动的差分动态控制

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The arterial baroreflex is the primary negative feedback system involved in stabilizing arterial pressure from external disturbances. Determining the dynamic characteristics of the baroreflex is important for our understanding of the mechanisms involved in rapid restoration of arterial pressure. This study examined the differences in the dynamic baroreflex control of cardiac (CSNA) and splanchnic (SSNA) sympathetic nerve activity. The baroreceptor region of the right aortic depressor nerve was isolated from the systemic circulation to control baroreceptor region pressure (BRP) with a Gaussian white noise signal while simultaneously recording CSNA and SSNA in anesthetized Sprague-Dawley rats. SSNA was recorded from a postganglionic branch of the splanchnic sympathetic nerve and CSNA was recorded from a branch of the left stellate ganglion. Neural arc transfer functions from BRP to SSNA (H

机译：动脉压力反射是主要的负反馈系统，可稳定外界干扰引起的动脉压。确定压力反射的动态特性对于我们理解与快速恢复动脉压有关的机制很重要。这项研究检查了心脏（CSNA）和内脏（SSNA）交感神经活动的动态压力反射控制的差异。从体循环中分离出右主动脉压抑神经的压力感受器区域，以控制高斯白噪声信号的压力感受器区域压力（BRP），同时在麻醉的Sprague-Dawley大鼠中记录CSNA和SSNA。从内脏交感神经的神经节后分支记录SSNA，从左星状神经节的分支记录CSNA。从BRP到SSNA的神经弧传递函数（H

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《Annual Conference of Japanese Society for Medical and Biological Engineering;Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2013年|3809-3812|共4页
会议地点 Osaka(JP)
作者
Turner, Michael J.; Kawada, Toru; Sugimachi, Masaru;
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Department of Cardiovascular Dynamics National Cerebral and Cardiovascular Center Osaka 565-8565 Japan|c|;

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1. High levels of circulating angiotensin II shift the open-loop baroreflex control of splanchnic sympathetic nerve activity, heart rate and arterial pressure in anesthetized rats [J] . Toru Kawada, Atsunori Kamiya, Meihua Li, The Journal of Physiological Sciences . 2009,第6期

机译：高水平的循环血管紧张素II改变了麻醉大鼠的内脏交感神经活动，心率和动脉压的开环压力反射控制
2. High levels of circulating angiotensin II shift the open-loop baroreflex control of splanchnic sympathetic nerve activity, heart rate and arterial pressure in anesthetized rats. [J] . Kawada T, Kamiya A, Li M, The journal of physiological sciences: JPS . 2009,第6期

机译：高水平的循环血管紧张素II改变了麻醉大鼠的内脏交感神经活动，心率和动脉压的开环压力反射控制。
3. Leptin acts in the forebrain to differentially influence baroreflex control of lumbar, renal, and splanchnic sympathetic nerve activity and heart rate [J] . LiB., ShiZ., CassagliaP.A., Hypertension: An Official Journal of the American Heart Association . 2013,第4期

机译：瘦素在前脑中发挥作用，以不同方式影响腰，肾和内脏交感神经活动和心率的压力反射控制
4. Differential Dynamic Control of Cardiac and Splanchnic Sympathetic Nerve Activity by the Arterial Baroreflex [C] . Michael J. Turner, Toru Kawada, Masaru Sugimachi Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2013

机译：动脉骨折差异动态控制动脉和SPRANCNIC交感神经活动
5. The neural modeling of sympathetic nerve activity and baroreflex hysteresis for the regulation of arterial pressure in humans. [D] . Ler, Albert Say Heong. 2007

机译：用于调节人体动脉压的交感神经活动和压力反射迟滞神经模型。
6. INCREASED CARDIAC SYMPATHETIC NERVE ACTIVITY IN HEART FAILURE IS NOT DUE TO DESENSITIZATION OF THE ARTERIAL BAROREFLEX [O] . A.M.D. Watson, S.G. Hood, R. Ramchandra, -1

机译：心脏衰竭中心脏交感神经活动的增加不是由于动脉压力反射变弱
7. Central command does not suppress baroreflex control of cardiac sympathetic nerve activity at the onset of spontaneous motor activity in the decerebrate cat [O] . Kanji Matsukawa, Kei Ishii, Ryota Asahara, 2016

机译：中央指挥不抑制Deferebrate Cat中的自发电机活性的心脏交感神经活动的Baroreflex控制
8. Estimation of Total Baroreflex Gain Using an Equilibrium Diagram Between Sympathetic Nerve Activity and Arterial Pressure. [R] . Kawada, T., Sugimachi, M., Sunagawa, K. 2001

机译：利用交感神经活动与动脉压之间的平衡图估算总压力反射增益。

Differential dynamic control of cardiac and splanchnic sympathetic nerve activity by the arterial baroreflex

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