Xie Wenrui, Strong Judith A, Meij Johanna T A, Zhang Jun-Ming, Yu Lei
Department of Cell Biology, Neurobiology and Anatomy, University of Cincinnati College of Medicine, 3125 Eden Avenue, Cincinnati, OH 45267-0521, USA Department of Anesthesiology, Physiology and Biophysics, University of Arkansas for Medical Sciences, 4301 W. Markham Street, Little Rock, AR 72205, USA.
Pain. 2005 Aug;116(3):243-256. doi: 10.1016/j.pain.2005.04.017.
Intractable neuropathic pain often results from nerve injury. One immediate event in damaged nerve is a sustained increase in spontaneous afferent activity, which has a well-established role in ongoing pain. Using two rat models of neuropathic pain, the CCI and SNI models, we show that local, temporary nerve blockade of this afferent activity permanently inhibits the subsequent development of both thermal hyperalgesia and mechanical allodynia. Timing is critical-the nerve blockade must last at least 3-5 days and is effective if started immediately after nerve injury, but not if started at 10 days after injury when neuropathic pain is already established. Effective nerve blockade also prevents subsequent development of spontaneous afferent activity measured electrophysiologically. Similar results were obtained in both pain models, and with two blockade methods (200mg of a depot form bupivacaine at the injury site, or perfusion of the injured nerve just proximal to the injury site with TTX). These results indicate that early spontaneous afferent fiber activity is the key trigger for the development of pain behaviors, and suggest that spontaneous activity may be required for many of the later changes in the sensory neurons, spinal cord, and brain observed in neuropathic pain models. Many pre-clinical and clinical studies of pre-emptive analgesia have used much shorter duration of blockade, or have not started immediately after the injury. Our results suggest that effective pre-emptive analgesia can be achieved only when nerve block is administered early after injury and lasts several days.
顽固性神经性疼痛通常由神经损伤引起。受损神经的一个直接事件是自发传入活动持续增加,这在持续性疼痛中起着既定的作用。使用两种神经性疼痛大鼠模型,即慢性缩窄性损伤(CCI)模型和坐骨神经分支选择性损伤(SNI)模型,我们发现对这种传入活动进行局部、临时性神经阻滞可永久抑制随后热痛觉过敏和机械性异常性疼痛的发展。时机至关重要——神经阻滞必须持续至少3 - 5天,且在神经损伤后立即开始才有效,但在损伤后10天(此时神经性疼痛已经确立)开始则无效。有效的神经阻滞还可防止随后通过电生理学测量的自发传入活动的发展。在两种疼痛模型中以及使用两种阻滞方法(在损伤部位注射200mg长效布比卡因,或在损伤部位近端用河豚毒素灌注受损神经)均获得了类似结果。这些结果表明,早期自发传入纤维活动是疼痛行为发展的关键触发因素,并提示自发活动可能是在神经性疼痛模型中观察到的感觉神经元、脊髓和大脑许多后期变化所必需的。许多关于超前镇痛的临床前和临床研究使用的阻滞持续时间短得多,或者在损伤后没有立即开始。我们的结果表明,只有在损伤后早期进行神经阻滞并持续数天才能实现有效的超前镇痛。