猫延髓腹侧神经元对顶核升压反应和躯体交感反射的介导作用。
Mediation of the fastigial pressor response and a somatosympathetic reflex by ventral medullary neurones in the cat.
作者信息
McAllen R M
出版信息
J Physiol. 1985 Nov;368:423-33. doi: 10.1113/jphysiol.1985.sp015866.
Abstract
In chloralose-anaesthetized, artificially ventilated cats, the effects have been studied of inactivating neurones of the 'glycine-sensitive area' of the rostral ventrolateral medulla on evoked renal sympathetic and vasomotor responses. Glycine applied topically and bilaterally to the 'glycine-sensitive area' besides markedly lowering blood pressure and heart rate, reversibly abolished or severely attenuated both the pressor response and the renal nerve volley produced by electrical stimulation of the fastigial nucleus as well as the tibial to renal nerve somatosympathetic reflex. Bilateral radio-frequency lesions of the 'glycine-sensitive area' similarly lowered blood pressure and heart rate, blocked the fastigial pressor response and abolished renal nerve responses to fastigial nucleus or tibial nerve stimulation. Effective lesions extended greater than or equal to 1 mm deep from the medullary surface. These results are discussed with reference to the view that the 'glycine-sensitive area' contains neurones constituting a final descending bulbo-spinal pathway to preganglionic vasomotor neurones.
摘要
在使用水合氯醛麻醉、人工通气的猫身上,研究了使延髓头端腹外侧“甘氨酸敏感区”的神经元失活对诱发的肾交感神经和血管运动反应的影响。双侧局部应用甘氨酸于“甘氨酸敏感区”,除了显著降低血压和心率外,还可逆地消除或严重减弱了电刺激顶核所产生的升压反应和肾神经放电,以及胫神经至肾神经的躯体交感反射。对“甘氨酸敏感区”进行双侧射频损伤同样降低了血压和心率,阻断了顶核升压反应,并消除了肾神经对顶核或胫神经刺激的反应。有效的损伤从髓质表面延伸至深部大于或等于1毫米处。结合“甘氨酸敏感区”包含构成节前血管运动神经元最终下行延髓-脊髓通路的神经元这一观点对这些结果进行了讨论。
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