Casey K L, Morrow T J
J Neurophysiol. 1983 Dec;50(6):1497-515. doi: 10.1152/jn.1983.50.6.1497.
Rapid-onset thermal pulses (38 degrees C X s-1) ranging from 43 to 60 degrees C (adapting temperature, 38 degrees C) were applied by contact thermodes to the shaved outer thighs of 29 partially restrained cats while they were eating (coincident stimuli) or between eating periods (noncoincident stimuli). The stimulus-associated probability and latency of three putative nocifensor responses were determined: interruption of eating or of exploration for food, hindlimb movement, and vocalization. These behavioral responses terminated the stimulus. An analysis of response trends and latencies supports the interpretation that these are unlearned escape responses to noxious stimuli. Response threshold was defined as the lowest temperature at which the average response probabilities at the test temperature and at 38 degrees C were outside one another's 95% confidence limits. Average threshold varies with the type of response and the behavior at the time of stimulation. Noncoincident stimuli elicit both interrupt and movement responses at 47 degrees C and vocalization at 53 degrees C. Coincident stimuli also elicit interrupt responses at 47 degrees C but are associated with an increased hindlimb movement threshold (51 degrees C) and vocalization threshold (55 degrees C). The lowest threshold determined for an individual cat was 43 degrees C. Response probability increases as a nonmonotonic function of stimulus intensity. Maximum sensitivity to increases in temperature occurs at stimulus intensities between 50 and 55 degrees C. Above 55 degrees C, some cats show an attenuation of response sensitivity. Special tests failed to reveal any evidence that receptor sensitization or suppression affected the stimulus-response profiles. The average response latency for all behaviors of all cats is 2.3 +/- 0.12 (SE)s from the onset of the stimulus pulse plateau. Most responses occurred within 2.5 s. No significant relationship was found between response latency and type of response or stimulus intensity. The composition and time of onset of heat-evoked afferent activity in the lateral femoral cutaneous nerve was investigated in six cats by colliding antidromic A-delta- and C-fiber volleys with the orthodromic discharge evoked by the thermodes used in the behavioral studies. There was no evidence that noxious thermal pulses evoked activity in A-delta-afferents, but C-fibers could be shown to become active at approximately 46 degrees C, at or before the onset of the thermal pulse plateau.(ABSTRACT TRUNCATED AT 400 WORDS)
通过接触式热电极对29只部分受限的猫剃毛后的大腿外侧施加快速升温热脉冲(升温速率为38℃/秒),温度范围为43至60℃(适应温度为38℃),施加时猫处于进食状态(同时刺激)或两餐之间(非同时刺激)。测定了三种假定的伤害性防御反应的刺激相关概率和潜伏期:进食中断或寻找食物行为中断、后肢运动及发声。这些行为反应会终止刺激。对反应趋势和潜伏期的分析支持了以下解释:这些是对有害刺激的先天性逃避反应。反应阈值定义为测试温度下和38℃时平均反应概率超出彼此95%置信区间的最低温度。平均阈值因反应类型和刺激时的行为而异。非同时刺激在47℃时引发中断和运动反应,在53℃时引发发声反应。同时刺激在47℃时也引发中断反应,但后肢运动阈值(51℃)和发声阈值(55℃)升高。为一只猫测定的最低阈值为43℃。反应概率随刺激强度呈非单调函数增加。在刺激强度为50至55℃之间时,对温度升高最为敏感。高于55℃时,一些猫的反应敏感性会减弱。特殊测试未发现任何受体敏化或抑制影响刺激 - 反应曲线的证据。所有猫所有行为的平均反应潜伏期为刺激脉冲平台期开始后2.3±0.12(标准误)秒。大多数反应在2.5秒内发生。未发现反应潜伏期与反应类型或刺激强度之间存在显著关系。通过将逆行的A - δ纤维和C纤维群与行为学研究中使用的热电极诱发的顺行放电相碰撞,研究了6只猫股外侧皮神经中热诱发传入活动的组成和起始时间。没有证据表明有害热脉冲会诱发A - δ传入纤维的活动,但可以证明C纤维在约46℃时,即在热脉冲平台期开始时或之前开始活动。(摘要截断于400字)
