姜黄素对糖尿病大鼠疼痛过敏的影响

目的：神经病理性痛是糖尿病最常见的并发症之一,本课题旨在探讨姜黄素对糖尿病大鼠痛觉过敏的影响及其分子机制。方法：30只雄性SD大鼠随机分为对照组、糖尿病组和姜黄素治疗纽,模型纽和姜黄素治疗组利用腹腔注射链脲佐菌素（Streptozotocin,STZ）制备大鼠糖尿病模型,定期检测大鼠血糖、饮食、体重等变化,治疗组于STZ注射2wk后定期灌服姜黄素,分别在2wk和4wk后检测各组大鼠热痛敏和机械痛敏反应,在第4wk利用ELISA分别检测各组大鼠脊髓背角TNF-α表达变化。结果：STZ注射组大鼠2周后出现血糖〉14mol／L,并且该模型具有高血糖、体重增长缓慢、多饮多食多尿的特点,符合Ⅰ型糖尿病特征,痛行为测试结果显示糖尿病大鼠出现痛觉过敏,经过给予姜黄素灌服治疗后,痛觉过敏有所减轻,ELISA分析结果表明糖尿病大鼠脊髓背角TNF-α表达升高,经过姜黄素治疗后TNF-α表达有所下降。结论：成功制备STZ-型糖尿病大鼠模型,经过姜黄素治疗可以减轻糖尿病引起的疼痛过敏,姜黄素对糖尿病疼痛的治疗作用可能是通过降低大鼠脊髓背角TNF-α表达实现的。     

姜黄素对糖尿病大鼠疼痛过敏的影响

目的:神经病理性痛是糖尿病最常见的并发症之一,本课题旨在探讨姜黄素对糖尿病大鼠痛觉过敏的影响及其分子机制。方法:30只雄性SD大鼠随机分为对照组、糖尿病组和姜黄素治疗组,模型组和姜黄素治疗组利用腹腔注射链脲佐菌素(Streptoz-otocin,STZ)制备大鼠糖尿病模型,定期检测大鼠血糖、饮食、体重等变化,治疗组于STZ注射2wk后定期灌服姜黄素,分别在2wk和4wk后检测各组大鼠热痛敏和机械痛敏反应,在第4 wk利用ELISA分别检测各组大鼠脊髓背角TNF-α表达变化。结果:STZ注射组大鼠2周后出现血糖>14mol/L,并且该模型具有高血糖、体重增长缓慢、多饮多食多尿的特点,符合I型糖尿病特征,痛行为测试结果显示糖尿病大鼠出现痛觉过敏,经过给予姜黄素灌服治疗后,痛觉过敏有所减轻,ELISA分析结果表明糖尿病大鼠脊髓背角TNF-α表达升高,经过姜黄素治疗后TNF-α表达有所下降。结论:成功制备STZ-型糖尿病大鼠模型,经过姜黄素治疗可以减轻糖尿病引起的疼痛过敏,姜黄素对糖尿病疼痛的治疗作用可能是通过降低大鼠脊髓背角TNF-α表达实现的。     

NF-κB在LPS诱导的帕金森病模型大鼠中的作用

目的:研究NF-κB在脂多糖(LPS)诱导的帕金森病(PD)模型大鼠中的作用.方法:52只SD大鼠按体重随机分为3组,实验组(LPS组)、预防组(PDTC+LPS组)和对照组,每组14只:(1)实验组SD大鼠按体重50 mg/kg经腹腔注射生理盐水后经脑立体定位单侧黑质注射LPS4μl/只(4μg/只)后7 d制成帕金森病模型;(2)预防组SD大鼠按体重50 mg/kg经腹腔注射PDTC lh后再经脑立体定位单侧黑质注射LPS 4μl/只(4μg/只);(3)对照组SD大鼠按体重50 mg/kg经腹腔注射生理盐水后经脑立体定位单侧黑质注射生理盐水4μl/只.7 d后观察三组大鼠皮下注射阿扑吗啡后的行为学变化,采用免疫荧光法检测注射7 d后黑质部NF-κBp65的表达,并用western blotting检测其蛋白表达.结果:7d后,实验组大鼠有明显的行为学变化,预防组和对照组则无异常行为学表现.免疫荧光结果显示,与注射对侧相比,实验组大鼠经脑立体定位注射内毒素LPS后,注射侧黑质部TH表达显著减少,而NF-κBp65阳性表达则显著增加,western blotting得到同样结果(P＜0.05);预防组和对照组大鼠黑质部TH和NF-κBp65阳性表达无显著性变化,western blotting得到同样结果(P＞0.05).结论:NF-κB参与了LPS PD大鼠发病过程,黑质中NF-κBp65过度激活是LPS对大鼠造成损害作用的机制之一.预先使用PDTC对LPS PD鼠起到一定神经保护作用.     

脾和腰部淋巴结切除缓解大鼠胫神经损伤后疼痛慢性化

目的探讨外周淋巴器官在成年大鼠胫神经永久性横断伤(即改良型备用性神经损伤,modified spared nerve injury,mSNI)后机械性疼痛异常的慢性转化中的作用。方法 30只成年雄性Sprague-Dawley(SD)大鼠随机分为3组,每组10只动物,分别用于脾脏切除、腰部淋巴结切除和右侧腘窝淋巴结-腹股沟淋巴结联合切除实验。每项实验的10只动物再随机分为外周淋巴器官切除手术组(n=5)和假手术组(n=5)。所有动物根据实验分组进行相应的外周淋巴器官切除的手术或者假手术,术后1周进行右侧mSNI手术。所有动物于外周淋巴器官切除术前、右侧mSNI手术前、mSNI手术后7d和mSNI手术后14d进行von Frey纤维试验,测试mSNI手术同侧和对侧大鼠后爪足底面腓肠神经和隐神经皮肤区域特异性的疼痛反应。结果脾脏和腰部淋巴结切除明显缓解mSNI后7d和(或)14d的大鼠手术侧后爪足底面腓肠神经和隐神经皮肤区域的机械性疼痛异常。然而,右侧胭窝淋巴结-腹股沟淋巴结联合切除对mSNI后7d和14d的大鼠手术侧后爪足底面腓肠神经和隐神经皮肤区域的机碱性疼痛异常没有显著影响。结论脾脏和腰部淋巴结参与成年大鼠mSNI后机械性疼痛异常的慢性转化。     

糖尿病大鼠脊髓内高迁移率族蛋白-1参与调节机械性痛敏的机制

目的:观察高迁移率族蛋白-1(high mobility group box-1,HMGB1)在糖尿病大鼠脊髓内的表达变化,探索其参与糖尿病性机械性痛觉过敏的具体机制,进一步阐明糖尿病性痛的机制,为糖尿病疼痛的治疗提供新的思路。方法:(1)36只SD大鼠随机分成6组(n=6),分别为正常大鼠组、糖尿病大鼠对照组、糖尿病7 d组、14 d、21 d和28 d组。通过Real-time PCR法检测各组大鼠脊髓内HMGB1 m RNA的表达情况。(2)24只SD大鼠分成4组(n=6)制作糖尿病大鼠模型,在造模后第28 d鞘内给予生理盐水、HMGB1的中和抗体10、30和100μg,检测糖尿病大鼠模型在各时间点的机械性缩足阈值。(3)30只SD大鼠随机分成5组(n=6),其中4组给予链尿佐菌素制作糖尿病大鼠模型。模型制作28 d后鞘内给予生理盐水、HMGB1的中和抗体10、30和100μg。另一组大鼠腹腔给予生理盐水,作为糖尿病大鼠的对照组。检测各组大鼠脊髓的TNF-α、IL-1β和IL-6 m RNA的表达。结果:(1)糖尿病大鼠模型制作21 d和28 d,脊髓内HMGB1 m RNA的表达显著上调(P0.05)。(2)糖尿病大鼠鞘内给予HMGB1中和抗体30和100μg后,可以在长达24 h的时间内扭转模型大鼠的机械性痛敏(P0.05)。(3)糖尿病大鼠造模28 d后,鞘内给予HMGB1的中和抗体30和100μg可以明显逆转糖尿病大鼠脊髓内的TNF-α、IL-1β和IL-6 m RNA的表达(P0.05)。结论:糖尿病大鼠脊髓内HMGB1显著上调,鞘内给予HMGB1的中和抗体可以通过抑制脊髓内TNF-α等细胞因子的表达而扭转糖尿病大鼠的机械性痛敏。以上结果提示,脊髓HMGB1可能参与了糖尿病机械性痛敏状态的维持过程。我们的研究对脊髓HMGB1参与糖尿病大鼠的疼痛的机制进行初步的探讨,为糖尿病性痛的治疗提供新的思路。     

跑台运动通过调节大鼠前扣带回线粒体自噬改善神经病理性疼痛

本研究旨在考察跑台运动对神经病理性疼痛的影响,并探讨大鼠前扣带回皮质(anterior cingulate cortex, ACC)线粒体自噬在运动改善神经病理性疼痛中的潜在作用。为了探讨神经病理性疼痛对线粒体自噬的影响,采用慢性坐骨神经压迫损伤(chronic constriction injury of the sciatic nerve, CCI)方法建立神经病理性疼痛Sprague-Dawley (SD)大鼠模型。Von-Frey丝检测大鼠的机械性缩足反射阈值(paw withdrawal threshold, PWT),热辐射仪检测大鼠的热缩足潜伏期(paw withdrawal latency,PWL),qPCR检测ACC组织中线粒体自噬相关Pink1、Parkin、Fundc1、Bnip3 mRNA的表达,Western blot检测PINK1、PARKIN蛋白水平。为了探讨线粒体自噬诱导剂羰基氰化物间氯苯腙(carbonyl cyanide m-chlorophenylhydrazone, CCCP)激活线粒体自噬对CCI大鼠痛行为的影响,将24只SD大鼠随机分为CCI...     

脊髓肿瘤坏死因子-alpha(TNF-α)促进切割损伤导致的痛觉过敏

目的:研究脊髓肿瘤坏死因子-alpha(TNF-α)在急性切割损伤导致的痛觉过敏中的作用;方法:在异氟醚麻醉下纵行切割大鼠后足,在手术不同时段观察大鼠切割足500缩足阈值,并取腰髓节段采用实时定量RT-PCR观察TNF-α的mRNA水平.另外一组实验,鞘内给予可溶性TNF受体蛋白(依那西普,Etanercept)察其切割后足大鼠的痛觉行为学改变.结果:大鼠后足切割导致其同侧腰段脊髓TNF-α基因水平上调,鞘内注射依那西普显著抑制切割损伤引起的机械性痛觉过敏.结论:脊髓内TNF-α参与了切割损伤导致的痛觉过敏,抑制上调的TNF-有可能成为临床上治疗术后疼痛的新方法.     

HO/CO在甲醛炎性痛大鼠脊髓痛传导及痛觉过敏产生中的作用

目的:探讨血红素氧合酶/一氧化碳(HO/CO)在甲醛诱导的大鼠自发痛和痛觉过敏形成中的作用。方法:采用鞘内注射的方法,在甲醛炎性痛大鼠和正常大鼠分别给予HO抑制剂Znpp和HO激动剂Hemin;采用加权积分法对痛反应进行评分以代表痛反应程度;采用观察热辐射缩足潜伏期和机械刺激缩足反射阈值表示热和机械性痛觉过敏的程度。结果:Znpp各剂量组与单纯甲醛组相比,大鼠痛反应评分明显降低,且Znpp剂量越大,对大鼠痛反应的抑制作用越明显;与单纯甲醛组相比,Znpp各剂量组大鼠注射足热辐射缩足潜伏期和机械刺激缩足反射阈值均无明显变化,而非注射足热辐射缩足潜伏期和机械刺激缩足反射阈值均明显升高,且Znpp的剂量越大,这种改变越明显。正常大鼠鞘内注射HO的激动剂Hemin后,双侧足热辐射缩足潜伏期和机械刺激缩足反射阈值均明显降低。结论:鞘内给予HO抑制剂可明显抑制甲醛诱导的自发痛反应及热和机械性痛觉过敏程度;正常大鼠鞘内给予HO激动剂可诱发热和机械性痛觉过敏的产生,提示HO/CO系统参与脊髓伤害性信息的传导和痛觉过敏的形成过程。     

奥沙利铂周围神经毒性模型大鼠行为学检测方法的比较

目的进行两种大鼠机械性痛觉敏感性测量方法、两种冷刺激缩足反应测量方法的比较研究。方法雌性Wistar大鼠,腹腔注射奥沙利铂4 mg/kg,建立标准奥沙利铂周围神经毒性大鼠模型。检测机械和冷热温度刺激下大鼠行为学变化,并对不同行为学检测方法的特点进行比较分析。结果模型组大鼠较正常组相比50%缩足阈明显降低(P0.05)、出现痛觉过敏及痛觉超敏(P0.05)、冷刺激诱发的缩足次数增多(P0.05),两组大鼠对热痛刺激反应均无明显差异,与临床患者症状表现基本一致。结论 Von Frey纤维丝刺激检测中4 g和15 g方法可更好的模拟临床患者的痛觉过敏、超敏反应;up-down法客观量化的反应出大鼠缩足阈值下降的程度。冷温度刺激中,丙酮喷洒法可较直观的观察大鼠受到冷刺激后的反应。     

孕酮与疼痛调节

孕酮(progesterone,PROG)不仅存在于生殖系统,而且在神经系统也有合成.孕酮受体在中枢和外周神经系统中均有分布,参与神经系统的各项功能,其中包括对疼痛的调节.孕酮及其代谢产物对生理性痛和炎性痛均有抑制效应,孕酮对雌激素介导的外周痛觉增敏也有抑制效应.另一方面,孕酮增强神经病理性痛的痛觉异常和痛觉过敏.孕酮可以通过调节某些痛觉相关的神经递质受体的表达和功能以及影响疼痛下行抑制通路,从而完成对痛觉调节.     

改良CCI大鼠痛行为学检测与损伤区自发放电活动再观察

目的：应用改良CCI模型研究外周神经损伤后痛觉过敏和自发放电各自特征及相互关系。方法：雄性SD大鼠,随机分为CCI组和Sham组,分别于术前1天和术后1、4、7、9、11、14天测定机械刺激缩足反射阈值和热缩腿反射潜伏期,同时选取术侧机械刺激缩腿反射阈值低于4g或者术侧和健侧热缩腿反射潜伏期差异大于2s的CCI模型大鼠观察术后4-14天损伤区自发放电活动。结果：神经纤维损伤后,机械痛敏和热痛敏随时间表现为逐渐增强,同时在损伤区观察到三类放电模式：整数倍放电﹑阵发放电和周期放电。结论：术后大鼠机械痛阈和热痛阈逐渐降低,机械痛敏的产生和损伤区自发放电活动关系密切,不同的放电模式可能代表不同的传入信息。     

Neurosteroid 3α-Androstanediol Efficiently Counteracts Paclitaxel-Induced Peripheral Neuropathy and Painful Symptoms

Painful peripheral neuropathy belongs to major side-effects limiting cancer chemotherapy. Paclitaxel, widely used to treat several cancers, induces neurological symptoms including burning pain, allodynia, hyperalgesia and numbness. Therefore, identification of drugs that may effectively counteract paclitaxel-induced neuropathic symptoms is crucial. Here, we combined histopathological, neurochemical, behavioral and electrophysiological methods to investigate the natural neurosteroid 3α-androstanediol (3α-DIOL) ability to counteract paclitaxel-evoked peripheral nerve tissue damages and neurological symptoms. Prophylactic or corrective 3α-DIOL treatment (4 mg/kg/2days) prevented or suppressed PAC-evoked heat-thermal hyperalgesia, cold-allodynia and mechanical allodynia/hyperalgesia, by reversing to normal, decreased thermal and mechanical pain thresholds of PAC-treated rats. Electrophysiological studies demonstrated that 3α-DIOL restored control values of nerve conduction velocity and action potential peak amplitude significantly altered by PAC-treatment. 3α-DIOL also repaired PAC-induced nerve damages by restoring normal neurofilament-200 level in peripheral axons and control amount of 2’,3’-cyclic-nucleotide-3’-phosphodiesterase in myelin sheaths. Decreased density of intraepidermal nerve fibers evoked by PAC-therapy was also counteracted by 3α-DIOL treatment. More importantly, 3α-DIOL beneficial effects were not sedation-dependent but resulted from its neuroprotective ability, nerve tissue repairing capacity and long-term analgesic action. Altogether, our results showing that 3α-DIOL efficiently counteracted PAC-evoked painful symptoms, also offer interesting possibilities to develop neurosteroid-based strategies against chemotherapy-induced peripheral neuropathy. This article shows that the prophylactic or corrective treatment with 3α-androstanediol prevents or suppresses PAC-evoked painful symptoms and peripheral nerve dysfunctions in rats. The data suggest that 3α-androstanediol-based therapy may constitute an efficient strategy to explore in humans for the eradication of chemotherapy-induced peripheral neuropathy.     

Transplantation of bone marrow-derived mononuclear cells improves mechanical hyperalgesia, cold allodynia and nerve function in diabetic neuropathy

Relief from painful diabetic neuropathy is an important clinical issue. We have previously shown that the transplantation of cultured endothelial progenitor cells or mesenchymal stem cells ameliorated diabetic neuropathy in rats. In this study, we investigated whether transplantation of freshly isolated bone marrow-derived mononuclear cells (BM-MNCs) alleviates neuropathic pain in the early stage of streptozotocin-induced diabetic rats. Two weeks after STZ injection, BM-MNCs or vehicle saline were injected into the unilateral hind limb muscles. Mechanical hyperalgesia and cold allodynia in SD rats were measured as the number of foot withdrawals to von Frey hair stimulation and acetone application, respectively. Two weeks after the BM-MNC transplantation, sciatic motor nerve conduction velocity (MNCV), sensory nerve conduction velocity (SNCV), sciatic nerve blood flow (SNBF), mRNA expressions and histology were assessed. The BM-MNC transplantation significantly ameliorated mechanical hyperalgesia and cold allodynia in the BM-MNC-injected side. Furthermore, the slowed MNCV/SNCV and decreased SNBF in diabetic rats were improved in the BM-MNC-injected side. BM-MNC transplantation improved the decreased mRNA expression of NT-3 and number of microvessels in the hind limb muscles. There was no distinct effect of BM-MNC transplantation on the intraepidermal nerve fiber density. These results suggest that autologous transplantation of BM-MNCs could be a novel strategy for the treatment of painful diabetic neuropathy.     

Paclitaxel-induced neuropathic hypersensitivity in mice: responses in 10 inbred mouse strains

Mechanical allodynia, or hypersensitivity to tactile stimuli, is a frequent clinical symptom of neuropathy. Large interindividual differences have been observed in neuropathic pain, both in susceptibility to its development and in its severity. Identification of genetic factors relevant to this variability would be of obvious utility. Although many animal models of neuropathic pain following peripheral nerve injury have been developed, most involve intricate surgeries and are thus poorly suited for large-scale linkage mapping investigations in the mouse. Recently, a schedule of intraperitoneal injections of the chemotherapeutic agent, paclitaxel (Taxol(R)), has been shown to produce a long-lasting, bilateral neuropathy in the rat, featuring hypersensitivity to mechanical, thermal and cold stimuli. We present here a survey of the responses of 10 inbred mouse strains to paclitaxel injections. Virtually all strains developed statistically significant mechanical allodynia, with one strain, DBA/2J, exhibiting especially robust changes. Strain sensitivities to paclitaxel-induced mechanical allodynia were similar to those obtained previously using a surgical model of neuropathic pain, supporting our contention that genetic sensitivity to mechanical allodynia is independent of the precise mode of induction. Using sensitive DBA/2 mice and a resistant strain, C57BL/6J, for comparison, we further characterized the paclitaxel model in mice by examining cold allodynia and thermal hyperalgesia. Both strains displayed equivalent cold allodynia but neither strain developed thermal hyperalgesia. The present data confirm a genetic component in mechanical allodynia using this model, while dissociating mechanical hypersensitivity from other pain modalities.     

Modulating TRPV4 channels with paclitaxel and lithium

Transient receptor potential V4 (TRPV4), a plasma membrane calcium channel, is implicated as a contributor to the initiation of chemotherapy-induced peripheral neuropathy (CIPN). Paclitaxel (PTX) is a commonly used anticancer drug that causes CIPN and lithium has been shown to prevent CIPN. However, the direct effect of PTX and lithium on TRPV4 is not clear. This study investigated these actions using biochemical, pharmacological, and electrophysiological approaches using a neuronal cell line (SH-SY5Y). The addition of pharmacologically appropriate levels of PTX increased the expression of TRPV4, TRPV4 currents, and TRPV4-dependent calcium fluxes. Prolonged exposure to PTX amplified the acute effects of TRPV4 expression, currents, and calcium fluxes. Pretreatment with lithium (1 mM) decreased TRPV4 currents and calcium fluxes in the absence and presence of PTX. These findings enhance our understanding of the properties and regulation of TRPV4, the cellular mechanisms of PTX-induced neuropathy, and the mechanism of lithium for prevention of CIPN.     

Resveratrol, a polyphenolic phytoalexin attenuates thermal hyperalgesia and cold allodynia in STZ-induced diabetic rats

The effects of resveratrol, a polyphenolic phytoalexin present in red wine have been investigated on hyperalgesia and cold allodynia in streptozotocin (STZ) induced diabetic rats. Diabetes was induced by a single intraperitoneal injection of streptozotocin (65mg/kg). After 4-weeks of STZ injection, diabetic rats exhibited a significant thermal hyperalgesia and cold allodynia along with increased plasma glucose and decreased body weights as compared with controls rats. Chronic treatment with resveratrol (10mg/kg orally) from week 4 to week 6 significantly attenuated the cold allodynia and thermal hyperalgesia. The results emphasize the role of oxidative stress in development of hyperalgesia and cold allodynia in diabetic animals and point towards the potential of resveratrol as an adjuvant therapy for the prevention and treatment of diabetic neuropathy.     

Comparison between partial ulnar and intercostal nerve transfers for reconstructing elbow flexion in patients with upper brachial plexus injuries

The present study was designed to investigate the ameliorative potential of Ocimum sanctum and its saponin rich fraction in vincristine-induced peripheral neuropathic pain in rats. Peripheral neuropathy was induced in rats by administration of vincristine sulfate (50 μg/kg i.p.) for 10 consecutive days. The mechanical hyperalgesia, cold allodynia, paw heat hyperalgesia and cold tail hyperalgesia were assessed by performing the pinprick, acetone, hot plate and cold tail immersion tests, respectively. Biochemically, the tissue thio-barbituric acid reactive species (TBARS), super-oxide anion content (markers of oxidative stress) and total calcium levels were measured. Vincristine administration was associated with the development of mechanical hyperalgesia, cold allodynia, heat and cold hyperalgesia. Furthermore, vincristine administration was also associated with an increase in oxidative stress and calcium levels. However, administration of Ocimum sanctum (100 and 200 mg/kg p.o.) and its saponin rich fraction (100 and 200 mg/kg p.o.) for 14 days significantly attenuated vincristine-induced neuropathic pain along with decrease in oxidative stress and calcium levels. It may be concluded that Ocimum sanctum has ameliorative potential in attenuating chemotherapy induced-painful neuropathic state, which may be attributed to decrease in oxidative stress and calcium levels. Furthermore, saponin rich fraction of Ocimum sanctum may be responsible for its noted beneficial effect in neuropathic pain in rats.     

Pain modality and spinal glia expression by streptozotocin induced diabetic peripheral neuropathy in rats

Pain symptoms are a common complication of diabetic peripheral neuropathy or an inflammatory condition. In the most experiments, only one or two evident pain modalities are observed at diabetic peripheral neuropathy according to experimental conditions. Following diabetic peripheral neuropathy or inflammation, spinal glial activation may be considered as an important mediator in the development of pain. For this reason, the present study was aimed to address the induction of pain modalities and spinal glial expression after streptozotocin injection as compared with that of zymosan inflammation in the rat. Evaluation of pain behavior by either thermal or mechanical stimuli was performed at 3 weeks or 5 hours after either intravenous streptozotocin or zymosan. Degrees of pain were divided into 4 groups: severe, moderate, mild, and non-pain induction. On the mechanical allodynia test, zymosan evoked predominantly a severe type of pain, whereas streptozotocin induced a weak degree of pain (severe+moderate: 57.1%). Although zymosan did not evoke cold allodynia, streptozotocin evoked stronger pain behavior, compared with zymosan (severe+moderate: 50.0%). On the other hand, the high incidence of thermal hyperalgesia (severe+moderate: 90.0%) and mechanical hyperalgesia (severe+moderate: 85.7%) by streptozotocin was observed, as similar to that of zymosan. In the spinal cord, the increase of microglia and astrocyte was evident by streptozotocin, only microglia was activated by zymosan. Therefore, it is recommended that the selection of mechanical and thermal hyperalgesia is suitable for the evaluation of streptozotocin induced diabetic peripheral neuropathy. Moreover, spinal glial activation may be considered an important factor.     

A rat model of bone cancer pain induced by intra-tibia inoculation of Walker 256 mammary gland carcinoma cells

This study described a modified rat model of bone cancer pain. Syngeneic Walker 256 mammary gland carcinoma cells were injected into the tibia medullary cavity via intercondylar eminence. Series of tests were carried out including bone radiology, bone histology, ambulatory pain, thermal hyperalgesia, mechanical allodynia, weight bearing ability, and electrophysiological recording from primary afferent fibers. The rats inoculated with carcinoma cells showed significant ambulatory pain, mechanical allodynia, and reduction in weight bearing, as well as increased incidence of spontaneous activity in Abeta fibers in affected limb, whereas PBS (vehicle) or heat-killed cells (sham) injected rats showed no significant difference in comparison to normal rats. The pain hypersensitive behaviors were aggravated with time and destruction of bone. Interestingly, mechanical allodynia was also observed in the contralateral limb, indicating the involvement of 'mirror image' pain in bone cancer pain. In summary, the present study provided a useful and easily established rat model of bone cancer pain which will contribute to further study of the mechanisms underlying cancer pain.     

鞘内注射γ-氨基丁酸转运体抑制剂NO-711抑制坐骨神经慢性挤压伤大鼠神经病理性痛觉过敏

为研究γ-氨基丁酸转运体在神经病理性痛中的作用,实验用坐骨神经慢性挤压伤致神经病理性痛模型大鼠,以清醒大鼠分别对辐射热刺激和机械性触觉刺激的缩腿潜伏期和机械阈值为指标,分为NS组、N5组、N10组、N20组、N40组5组,分别在坐骨神经结扎前和结扎后第三天鞘内给予生理盐水或不同剂量的γ-氨基丁酸转运体特异性抑制剂NO-711(5、10、20、40μg),观察鞘内注射NO-711对大鼠热痛敏和触诱发痛的影响.结果表明,NO-711可显著抑制神经病理性痛大鼠的热痛觉过敏和触诱发痛(P＜0.05,P＜0.01),其抑制作用持续时间最长分别可达2 h(N40组)和4 h(N20组),其抗热痛敏作用呈剂量依赖性.坐骨神经结扎前鞘内给予不同剂量的NO-711可不同程度地延迟坐骨神经结扎所致的热痛觉过敏的发生,但不能延迟结扎所致的触诱发痛的发生.结果表明γ-氨基丁酸转运体抑制剂在神经病理性痛大鼠具有抗热痛敏和抗触诱发痛的作用.