Department of Neurology, Massachusetts General Hospital, Harvard Medical School, Boston, MA 02114, USA.
Eur J Pain. 2012 Jan;16(1):28-37. doi: 10.1016/j.ejpain.2011.05.004.
Current rodent models of neuropathic pain produce pain hypersensitivity in almost all lesioned animals and not all identified experimental effects are pain specific. 18G needlestick-nerve-injury (NNI) to one tibial nerve of outbred Sprague-Dawley rats models the phenotype of Complex Regional Pain Syndrome (CRPS), a post-traumatic neuropathic pain syndrome, leaving roughly half of NNI rats with hyperalgesia. We compared endoneurial data from these divergent endophenotypes searching for pathological changes specifically associated with pain-behaviors. Tibial, sural, and common sciatic nerves from 12 NNI rats plus 10 nerves from sham-operated controls were removed 14 days post-surgery for morphometric analysis. PGP9.5(+) unmyelinated-fibers were quantitated in plantar hindpaw skin. Distal tibial nerves of NNI rats had endoneurial edema, 30% fewer axons, twice as many mast cells, and thicker blood-vessel walls than uninjured tibial nerves. However the only significant difference between nerves from hyperalgesic versus non-hyperalgesic NNI rats was greater endoneurial edema in hyperalgesic rats (p < 0.01). We also discovered significant axonal losses in uninjured ipsilateral sural nerves of NNI rats, demonstrating spread of neuropathy to nearby nerves formerly thought spared. Tibial and sural nerves contralateral to NNI had significant changes in endoneurial blood-vessels. Similar pathological changes have been identified in CRPS-I patients. The current findings suggest that severity of endoneurial vasculopathy and inflammation may correlate better with neuropathic pain behaviors than degree of axonal loss. Spread of pathological changes to nearby ipsilateral and contralateral nerves might potentially contribute to extraterritorial pain in CRPS.
目前的神经病理性疼痛啮齿动物模型几乎在所有损伤动物中都产生疼痛过敏,并非所有已确定的实验效应都是针对疼痛的特异性。将异交 Sprague-Dawley 大鼠的一根胫骨神经用 18G 针进行神经损伤(NNI),可模拟创伤后神经病理性疼痛综合征(复杂性区域疼痛综合征,CRPS)的表型,NNI 大鼠中约有一半会出现痛觉过敏。我们比较了这些不同表型的神经内膜数据,寻找与疼痛行为特异性相关的病理变化。在手术后 14 天,从 12 只 NNI 大鼠和 10 只假手术对照大鼠的胫骨、腓肠和坐骨神经中取出神经,用于形态计量学分析。在足底后爪皮中定量 PGP9.5(+)无髓纤维。NNI 大鼠的远端胫骨神经有神经内膜水肿,轴突减少 30%,肥大细胞增加两倍,血管壁增厚两倍,与未受伤的胫骨神经相比。然而,在 NNI 大鼠中,痛觉过敏与非痛觉过敏大鼠之间神经的唯一显著差异是痛觉过敏大鼠的神经内膜水肿更大(p<0.01)。我们还发现 NNI 大鼠未受伤的对侧腓肠神经中的轴突明显丢失,表明神经病变已扩散到以前认为未受影响的邻近神经。NNI 大鼠对侧的胫骨和腓肠神经的神经内膜血管也发生了显著变化。在 CRPS-I 患者中也发现了类似的病理变化。目前的研究结果表明,神经内膜血管病变和炎症的严重程度可能与神经病理性疼痛行为的相关性优于轴突丢失的程度。病理变化向邻近同侧和对侧神经的扩散可能是 CRPS 中异位性疼痛的潜在原因。