家兔味觉-唾液反射的神经机制研究。
Studies on neural mechanisms of the gustatory-salivary reflex in rabbits.
作者信息
Kawamura Y, Yamamoto T
出版信息
J Physiol. 1978 Dec;285:35-47. doi: 10.1113/jphysiol.1978.sp012555.
Abstract
- Submandibular salivary secretion and the electrical activity of the parasympathetic preganglionic fibres innervating the submandibular gland were recorded in decerebrated rabbits in response to taste stimulation of the tongue. The electrical activity of a taste nerve (chorda tympani) responding to varying taste stimuli was also recorded in the deeply anaesthetized rabbits. These data representing input and output information were compared with each other. 2. Sucrose, quinine, tartaric acid, NH4Cl and KCl which induced a long-lasting response in the taste nerve evoked a continuous salivary secretion, and those chemicals such as NaCl, CaCl2 and MgCl2 which induced a transient activity of the nerve evoked a transient salivary secretion. 3. The magnitude of responses of the whole taste nerve to moderate concentrations of chemical stimuli applied to the anterior part of the tongue was statistically significantly correlated with the volume of reflex submandibular salivation. 4. Parasympathetic preganglionic fibres to the salivary gland were classified into two types according to their responsiveness to taste stimuli; taste-sensitive and taste-insensitive fibres. The magnitude of electrical activity of the taste nerve fibres was significantly correlated with that of the taste-sensitive preganglionic fibres to stimulation of the tongue with varying taste stimuli. 5. By calculating correlations between responses of the taste fibres to each of the four basic taste stimuli and all the stimuli tested, it was concluded that afferent inputs from the taste of sucrose and NaCl were different, while those of HCl and quinine were similar. On the other hand, it was found by the same procedure for the preganglionic fibres that sucrose and NaCl, and HCl and quinine produced a similar response profile, respectively. This result means that the afferent taste inputs are processed into appropriate outputs (perhaps on a hedonic basis) in the lower brain stem without involvement of higher central nervous mechanisms.
摘要
- 在去大脑的兔子中记录下颌下腺唾液分泌以及支配下颌下腺的副交感神经节前纤维的电活动,以响应舌部的味觉刺激。在深度麻醉的兔子中还记录了对不同味觉刺激产生反应的味觉神经(鼓索神经)的电活动。将这些代表输入和输出信息的数据相互比较。2. 蔗糖、奎宁、酒石酸、氯化铵和氯化钾在味觉神经中诱发持久反应,从而引起持续的唾液分泌,而氯化钠、氯化钙和氯化镁等化学物质在神经中诱发短暂活动,从而引起短暂的唾液分泌。3. 施加到舌前部的中等浓度化学刺激所引起的整个味觉神经反应的幅度与反射性下颌下唾液分泌量在统计学上显著相关。4. 支配唾液腺的副交感神经节前纤维根据其对味觉刺激的反应性分为两类:味觉敏感纤维和味觉不敏感纤维。味觉神经纤维的电活动幅度与味觉敏感的节前纤维对不同味觉刺激的舌部刺激的电活动幅度显著相关。5. 通过计算味觉纤维对四种基本味觉刺激中的每一种以及所有测试刺激的反应之间的相关性,得出结论:来自蔗糖和氯化钠味觉的传入输入不同,而盐酸和奎宁的传入输入相似。另一方面,通过对节前纤维的相同程序发现,蔗糖和氯化钠以及盐酸和奎宁分别产生相似的反应模式。这一结果意味着传入的味觉输入在低位脑干中被处理为适当的输出(可能基于享乐主义),而无需高级中枢神经机制的参与。
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