LaMotte R H, Torebjörk H E, Robinson C J, Thalhammer J G
J Neurophysiol. 1984 Jun;51(6):1434-50. doi: 10.1152/jn.1984.51.6.1434.
Contributions of evoked discharge in nociceptors with C-fibers to the temporal profiles of magnitude judgments of pain by humans were determined for heat stimulations of the skin before and after the development of hyperalgesia (increased sensitivity to pain) produced by a mild heat injury. Human subjects continuously rated the magnitude of pain evoked by short-duration heat stimuli of 39-51 degrees C delivered to the hairy skin of the arm or leg (calf or foot) before and after the development of hyperalgesia produced by a conditioning stimulus (CS) of either 50 degrees C for 100 s or 48 degrees C for 360 s. During heat stimulations of the leg in humans, magnitude judgments of pain were obtained simultaneously with recordings of evoked discharges in single C-fiber mechanoheat (CMH) nociceptive afferent fibers. Seven fibers were studied before and after the CS. In other experiments, magnitude ratings of pain evoked by heat stimulations of the arm were compared with heat-evoked discharges in 21 CMH nociceptive afferent fibers innervating the hairy skin of the wrist or hand in anesthetized monkeys. From CMH responses obtained in each species, median response latencies were calculated as well as poststimulus time (PST) histograms--the latter plotting mean frequency of discharge versus time during each stimulus. In these analyses, the times of action potentials in CMHs were calculated as they would occur at entry to the lumbar or cervical spinal cord in humans, taking into account the temporal dispersion that should occur because of differing conduction velocities. These results were then compared with response latencies for pain and the temporal profiles of pain ratings made by individual subjects. Comparisons were made for data obtained before the CS (normal skin) and those obtained 10 min after the CS in heat-sensitized (hyperalgesic) skin. For normal skin, PST histograms of mean frequencies of discharge were similar for CMHs with similar heat thresholds (41-43 degrees) in the anesthetized monkey and the awake human. Despite minor discrepancies, there were similarities in the changes in these histograms for monkey and human CMHs following heat sensitization after the CS. It was concluded that CMHs in monkeys and humans have similar response magnitudes and temporal profiles of response to heat. The major differences in the temporal profiles of CMH responses and human pain ratings were the latencies at which CMH responses and pain ratings began, reached maximum, and ended.(ABSTRACT TRUNCATED AT 400 WORDS)
在由轻度热损伤引起的痛觉过敏(对疼痛的敏感性增加)发展前后,针对皮肤的热刺激,确定了具有C纤维的伤害感受器中的诱发放电对人类疼痛强度判断的时间特征的贡献。人类受试者在由50℃持续100秒或48℃持续360秒的条件刺激(CS)产生痛觉过敏之前和之后,持续对施加到手臂或腿部(小腿或足部)有毛皮肤的39 - 51℃短时长热刺激诱发的疼痛强度进行评分。在人类腿部热刺激期间,在记录单个C纤维机械热(CMH)伤害性传入纤维的诱发放电的同时获得疼痛强度判断。在CS前后研究了7根纤维。在其他实验中,将手臂热刺激诱发的疼痛强度评分与21根支配麻醉猴子手腕或手部有毛皮肤的CMH伤害性传入纤维中的热诱发放电进行比较。根据在每个物种中获得的CMH反应,计算中位反应潜伏期以及刺激后时间(PST)直方图——后者绘制每个刺激期间放电的平均频率与时间的关系。在这些分析中,考虑到由于传导速度不同而应发生的时间离散,计算CMH中动作电位在进入人类腰段或颈段脊髓时的发生时间。然后将这些结果与疼痛的反应潜伏期以及个体受试者的疼痛评分时间特征进行比较。对CS前(正常皮肤)和CS后10分钟在热敏感(痛觉过敏)皮肤中获得的数据进行比较。对于正常皮肤,麻醉猴子和清醒人类中具有相似热阈值(41 - 43℃)的CMH的放电平均频率的PST直方图相似。尽管存在一些小差异,但CS后热敏感化后猴子和人类CMH的这些直方图变化存在相似之处。得出的结论是,猴子和人类的CMH对热的反应幅度和时间特征相似。CMH反应和人类疼痛评分的时间特征的主要差异在于CMH反应和疼痛评分开始、达到最大值和结束的潜伏期。(摘要截于400字)
