Kobayashi K, Winberry J, Liu C C, Treede R D, Lenz F A
Department of Neurosurgery, Johns Hopkins Hospital, Meyer Building 8-181, 600 North Wolfe Street, Baltimore, MD 21287-7713, USA.
J Neurophysiol. 2009 May;101(5):2210-7. doi: 10.1152/jn.91347.2008. Epub 2009 Feb 25.
Cutaneous application of painful radiant heat laser pulses evokes potentials (laser-evoked potentials) that can be recorded from scalp or intracranial electrodes. We have now tested the hypothesis that the response of thalamic neurons to a cutaneous laser stimulus occurs at latencies predicted by the conduction delay between the periphery and the thalamus. We have carried out recordings from human thalamic neurons in the principal sensory nucleus (ventral caudal) in patients undergoing awake surgery for the treatment of tremor. The results demonstrate that many neurons respond to the laser with early and/or late latency peaks of activity, consistent with conduction of the response to the laser stimulus through pathways from Adelta and C fibers to the thalamus. These peaks were of short duration, perhaps due to the somatotopic- and modality-specific arrangements of afferent pathways to the thalamus. The responses of these thalamic neurons to the laser stimulus sometimes included low-threshold spike (LTS) bursts of action potentials, consistent with previous studies of different painful stimuli. A prior study has demonstrated that spike trains characterized by common LTS bursts such as the intermediate (I) category spontaneously change their category more commonly than do those without LTS bursts (NG: nongrouped category) during changes in the cognitive task. Spike trains of laser-responsive neurons were more common in the I category, whereas those of laser nonresponsive neurons were more common in the NG category. Therefore neuronal spike trains in the I category may mediate shifts in endogenous or cognitive pain-related behavior.
对皮肤施加疼痛性辐射热激光脉冲会诱发可从头皮或颅内电极记录到的电位(激光诱发电位)。我们现在检验了这样一个假说,即丘脑神经元对皮肤激光刺激的反应发生在由外周与丘脑之间的传导延迟所预测的潜伏期。我们对接受清醒手术治疗震颤的患者的主要感觉核(腹侧尾核)中的人类丘脑神经元进行了记录。结果表明,许多神经元对激光的反应具有早期和/或晚期潜伏期活动峰值,这与激光刺激的反应通过从Aδ纤维和C纤维到丘脑的通路传导一致。这些峰值持续时间较短,可能是由于传入丘脑的通路具有躯体定位和模式特异性排列。这些丘脑神经元对激光刺激的反应有时包括低阈值尖峰(LTS)动作电位爆发,这与先前对不同疼痛刺激的研究一致。先前的一项研究表明,在认知任务变化期间,以常见LTS爆发为特征的尖峰序列,如中间(I)类,比没有LTS爆发的那些(NG:非分组类)更频繁地自发改变其类别。激光反应性神经元的尖峰序列在I类中更常见,而激光无反应性神经元的尖峰序列在NG类中更常见。因此,I类中的神经元尖峰序列可能介导内源性或认知性疼痛相关行为的转变。