本文将重点介绍阿霉素对感觉神经节细胞的毒性机制、特点及其临床应用。
This paper introduces mechanism and feature of the toxicity in sensory ganglion of adriamycin as well as clinical application.
研究背景:外周神经损伤及慢性炎症或感觉神经节炎症可导致慢性疼痛状态。
BACKGROUND: chronic pain conditions may result from peripheral nerve injury, chronic peripheral inflammation, or sensory ganglia inflammation.
躯体感觉神经节内的P物质和生长抑素神经元,在躯体感觉信息的传导和整合中,可能发挥一定的作用。
Substance P-containing neurons and somatostatin-containing neurons in the somatic sensory ganglia might play certain role in the transmission and integration of somatic sensory information.
目的应用外源性表皮生长因子(EGF)观察神经损伤后对背根神经节感觉神经元超微结构改变的影响。
Purpose To observe exogenous epidermal growth factor (EGF) influence upon sensory neurons axotomy induced and change ultra structure of sensory.
被标记的嗉囊感觉神经元出现于远神经节、岩神经节和颈静脉神经节内。
The labeled sensory neurons were found in the distal, petrosal and jugulargonglia.
被标记的嗉囊感觉神经元出现于远神经节、岩神经节和颈静脉神经节内。
The labeled sensory neurons were found in the distal, petrosal and jugulargonglia.
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