延髓腹外侧神经元:对猫肠系膜神经和肾神经放电幅度及节律的影响
Ventrolateral medullary neurones: effects on magnitude and rhythm of discharge of mesenteric and renal nerves in cats.
作者信息
Stein R D, Weaver L C, Yardley C P
机构信息
John P. Robarts Research Institute, London, Ontario, Canada.
出版信息
J Physiol. 1989 Jan;408:571-86. doi: 10.1113/jphysiol.1989.sp017477.
Abstract
- Discharge of whole mesenteric and renal nerves was recorded in eighteen chloralose-anaesthetized, artificially respired cats. 2. Inhibition of tonic activity of neurones within the rostral ventrolateral medulla (RVLM blockade) by bilateral application of glycine caused significant reductions in discharge of renal and mesenteric nerves, arterial blood pressure and heart rate. The decrease in discharge of renal nerves was significantly greater than that of mesenteric nerves. 3. During the response to glycine application, the spinal cord was transected at the first cervical segment. The magnitude of renal nerve discharge after transection was not different from that during blockade of the RVLM. On the other hand, mesenteric nerve activity increased following spinal cord transection, returning to control levels. 4. Power spectral analysis revealed that mesenteric and renal nerves discharged with periodicities ranging from 1 to 6 Hz. Application of glycine to the RVLM reduced the slow rhythm in firing of mesenteric and renal nerves similarly. Transection of the spinal cord resulted in further reduction in the rhythmicity in discharge of both nerves. 5. The results indicate that excitatory drive from the RVLM is crucial for the maintenance of on-going discharge of renal, but not of mesenteric nerves. However, such inputs are apparently essential to maintain the slow rhythm in firing of both nerves.
摘要
- 在18只氯醛糖麻醉、人工呼吸的猫身上记录了整个肠系膜神经和肾神经的放电情况。2. 通过双侧应用甘氨酸抑制延髓头端腹外侧区(RVLM阻断)内神经元的紧张性活动,导致肾神经和肠系膜神经的放电、动脉血压和心率显著降低。肾神经放电的减少明显大于肠系膜神经。3. 在对甘氨酸应用的反应过程中,在第一颈椎节段横断脊髓。横断后肾神经放电的幅度与RVLM阻断期间无差异。另一方面,脊髓横断后肠系膜神经活动增加,恢复到对照水平。4. 功率谱分析显示,肠系膜神经和肾神经以1至6赫兹的周期放电。向RVLM应用甘氨酸同样降低了肠系膜神经和肾神经放电的慢节律。脊髓横断导致两条神经放电的节律性进一步降低。5. 结果表明,来自RVLM的兴奋性驱动对于维持肾神经而非肠系膜神经的持续放电至关重要。然而,此类输入显然对于维持两条神经放电的慢节律必不可少。
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