大鼠嗅球神经元的反应特性
Response properties of rat olfactory bulb neurones.
作者信息
Mair R G
出版信息
J Physiol. 1982 May;326:341-59. doi: 10.1113/jphysiol.1982.sp014197.
Abstract
- Response properties of rat olfactory bulb neurones were studied by recording single-unit activity evoked by stimuli delivered by an air-dilution olfactometer. Neural responses were quantified as peristimulus time histograms by averaging the responses evoked by eight presentations of the same stimulus. Animals were stimulated by means of controlled artificial sniffs produced by a vacuum source connected to the choana.2. Evoked activity was divided into on- and after-responses. Three types of on-responses were distinguished on the basis of temporal patterns of activity evoked by odorous stimuli. Neurones exhibited the same type of response when driven by different odorants. For a given neurone, the size of an evoked response depended on the odorant used as a stimulus substance. The stimulating effectiveness of particular odorants varied between different neurones.3. After-responses were divided into two classes: phasic (0.5-3 sec after stimulus offset) and tonic (3 sec-2 min after stimulus offset). After-responses were associated with a subset of neurones making each type of on-response and with units producing no clear on-response. It is suggested that the occurrence of an after-response in a given neurone is not dependent on the nature of the evoked on-response.4. Intensity-related changes of on-responses were characterized by three measures: number of action potentials evoked during the stimulus event, latency of action-potential bursts, and rate of activity during the action-potential bursts. The number of evoked action potentials was not monotonically related to stimulus concentration. In contrast, there was a clear relationship between the pattern of evoked activity and stimulus concentration.5. It is proposed that the timing of excitation and inhibition is dependent on the concentration of the stimulus and that the number of evoked action potentials depends on the odorant used as a stimulus substance and the concentration at which it is delivered.
摘要
通过记录空气稀释嗅觉计施加刺激所诱发的单单位活动,研究了大鼠嗅球神经元的反应特性。通过对相同刺激的八次呈现所诱发的反应进行平均,将神经反应量化为刺激时间直方图。动物通过连接到后鼻孔的真空源产生的受控人工嗅吸进行刺激。
诱发活动分为起始反应和后续反应。根据气味刺激诱发的活动时间模式,区分出三种类型的起始反应。当由不同气味剂驱动时,神经元表现出相同类型的反应。对于给定的神经元,诱发反应的大小取决于用作刺激物质的气味剂。特定气味剂的刺激效果在不同神经元之间有所不同。
后续反应分为两类:相位性(刺激终止后0.5 - 3秒)和持续性(刺激终止后3秒 - 2分钟)。后续反应与产生每种类型起始反应的神经元子集以及未产生明显起始反应的单位相关。有人提出,给定神经元中后续反应的发生不依赖于诱发起始反应的性质。
起始反应的强度相关变化通过三种测量方法来表征:刺激事件期间诱发的动作电位数量、动作电位爆发的潜伏期以及动作电位爆发期间的活动速率。诱发的动作电位数量与刺激浓度并非单调相关。相比之下,诱发活动模式与刺激浓度之间存在明确的关系。
有人提出,兴奋和抑制的时间取决于刺激的浓度,而诱发的动作电位数量取决于用作刺激物质的气味剂及其施加的浓度。
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