背根神经节的机械刺激会诱导P物质产生增加：神经根受损后疼痛的一种机制？

Mechanical stimulation of dorsal root ganglia induces increased production of substance P: a mechanism for pain following nerve root compromise?

作者信息

Badalamente M A, Dee R, Ghillani R, Chien P F, Daniels K

机构信息

Department of Orthopaedics, State University of New York, Stony Brook School of Medicine.

出版信息

Spine (Phila Pa 1976). 1987 Jul-Aug;12(6):552-5. doi: 10.1097/00007632-198707000-00008.

DOI:10.1097/00007632-198707000-00008

PMID:2443985

Abstract

The undecapeptide, substance P, is known to be synthesized in cell bodies of dorsal root ganglia. This neuropeptide is also known to modulate sensory, nociceptive transmission postsynaptically on dorsal horn interneurons. In the animal model used in the current study, experimental mechanical stimulation of dorsal root ganglia and nerve roots increased the amounts of substance P, as well as substance P immunoreactivity in cell bodies of the dorsal root ganglia and in the substantia gelatinosa of the spinal dorsal horn that the cell bodies innervated. These results were determined by using both immunohistochemistry and radioimmunoassay. This study suggests that substance P may modulate nociception when lumbar nerve roots are stimulated mechanically.

摘要

十一肽P物质已知在背根神经节的细胞体中合成。这种神经肽还已知在背角中间神经元上对感觉、伤害性传递进行突触后调节。在本研究使用的动物模型中，对背根神经节和神经根进行实验性机械刺激，增加了P物质的量，以及背根神经节细胞体和这些细胞体所支配的脊髓背角胶状质中P物质的免疫反应性。这些结果是通过免疫组织化学和放射免疫测定法确定的。本研究表明，当腰神经根受到机械刺激时，P物质可能调节伤害感受。

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Mechanical stimulation of dorsal root ganglia induces increased production of substance P: a mechanism for pain following nerve root compromise?背根神经节的机械刺激会诱导P物质产生增加：神经根受损后疼痛的一种机制？

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背根神经节的机械刺激会诱导P物质产生增加：神经根受损后疼痛的一种机制？

Mechanical stimulation of dorsal root ganglia induces increased production of substance P: a mechanism for pain following nerve root compromise?

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