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大鼠背角细胞皮肤感觉输入产前发育的生理学研究。

A physiological study of the prenatal development of cutaneous sensory inputs to dorsal horn cells in the rat.

作者信息

Fitzgerald M

机构信息

Department of Anatomy and Developmental Biology, University College London.

出版信息

J Physiol. 1991 Jan;432:473-82. doi: 10.1113/jphysiol.1991.sp018395.

DOI:10.1113/jphysiol.1991.sp018395
PMID:1886065
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1181336/
Abstract
  1. The response of fetal dorsal horn cells to natural and electrical stimulation of the skin of the hindpaw was recorded in vivo from the lumbar spinal cord of anaesthetized rat fetuses still in contact with their mother via the maternal circulation. 2. Responses to electrical stimulation were obtained from embryonic day 17 (E17) but spikes were not evoked by natural skin stimulation until embryonic day 19 (E19). 3. At E19 responses were evoked by pressure or pinching the skin, but responses to low intensity brush and touch were not clear until E20. 4. Receptive fields were small and response amplitudes and frequencies initially very low. However, by E20 bursts of up to fifty spikes were recorded to a single pinch and some cells displayed responses that outlasted the stimulus by 10-15 s. 5. The development of dorsal horn cutaneous evoked spike activity and consequently the ability to transmit cutaneous sensory information to the brain therefore occurs some 2 days after the development of peripheral afferent receptive fields. It is concluded that this represents the maturation time for central synaptic connections.
摘要
  1. 在仍通过母体循环与母亲相连的麻醉大鼠胎儿的腰脊髓中,在体内记录了胎儿背角细胞对后爪皮肤自然刺激和电刺激的反应。2. 从胚胎第17天(E17)开始获得对电刺激的反应,但直到胚胎第19天(E19)才通过自然皮肤刺激诱发尖峰。3. 在E19时,按压或捏皮肤会诱发反应,但直到E20时,对低强度刷擦和触摸的反应才清晰。4. 感受野小,反应幅度和频率最初非常低。然而,到E20时,单次捏压可记录到多达50个尖峰的爆发,一些细胞的反应在刺激结束后持续10 - 15秒。5. 因此,背角皮肤诱发尖峰活动的发育以及将皮肤感觉信息传递到大脑的能力在外周传入感受野发育约2天后才出现。得出的结论是,这代表了中枢突触连接的成熟时间。

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本文引用的文献

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The normal postnatal development of synaptic end-feet in the lumbosacral spinal cord and of responses in the hind limbs of the albino rat.白化大鼠腰骶脊髓中突触终足的正常产后发育及后肢反应
Exp Neurol. 1971 Jun;31(3):337-57. doi: 10.1016/0014-4886(71)90237-8.
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10
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