Acupuncture at Baihui and Dazhui reduces brain cell apoptosis in heroin readdicts简

Acupuncture at Baihui （GV20） and Dazhui （GV14） reduces neuronal loss and attenuates ultra- structural damage in cerebral ischemic rats. However, whether acupuncture can treat addiction and prevent readdiction through changes to brain cell ultrastructure remains unknown. In this study, cell apoptosis was observed in the hippocampus and frontal lobe of heroin readdicted rats by electron microscopy. Immunohistochemical staining displayed a reduction in Bcl-2 ex- pression and an increase in Bax expression in the hippocampus and frontal lobe. After rats were given acupuncture at Baihui and Dazhui, the pathological damage in the hippocampus and frontal lobe was significantly reduced, Bcl-2 expression was upregulated and Bax expression was downregulated. Acupuncture exerted a similar effect with methadone, a commonly used drug for clinical treatment of drug addiction. Experimental findings suggest that acupuncture at Dazhui and Baihui can prevent brain cell apoptosis in heroin readdicted rats.     

Correlation of brain-derived neurotrophic factor to cognitive impairment following traumatic brain injury in rats**☆

BACKGROUND： In vitro and in vivo studies have confirmed that brain-derived neurotrophic factor （BDNF） can promote survival and differentiation of cholinergic, dopaminergic and motor neurons, and axonal regeneration. BDNF has neuroprotective effects on the nervous system. OBJECTIVE： To explore changes in BDNF expression and cognitive function in rats after brain injury. DESIGN, TIME AND SETTING： The neuropathology experiment was performed at the Second Research Room, Department of Neurosurgery, Fujian Medical University （China） from July 2007 to July 2008. MATERIALS： A total of 72 healthy, male, Sprague Dawley, rats were selected for this study. METHODS： Rat models of mild and moderate traumatic brain injury were created by percussion, according to Feeney＇s method （n = 24, each group）. A bone window was made in rats from the sham operation group （n = 24）, but no attack was conducted. MAIN OUTCOME MEASURES： At days 1, 2, 4 and 7 following injury, BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was examined by immunohistochemistry （streptavidin-biotin-peroxidase complex method）. Changes in rat cognitive function were assessed by the walking test, balance-beam test and memory function detection. RESULTS： Cognitive impairment was aggravated at day 2, and recovered to normal at days 3 and 7 in rats from the mild and moderate traumatic brain injury groups. BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was increased at 1 day, decreased at day 2, and then gradually increased in the mild and moderate traumatic brain injury groups. BDNF expression was greater in rats from the moderate traumatic brain injury group than in the sham operation and mild traumatic brain injury groups （P 〈 0.05）. CONCLUSION： BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain is correlated to cognitive impairment after traumatic brain injury. BDNF has a protective effect on cognitive function in rats following i     

损伤性癫痫模型大鼠海马和额叶突触蛋白的动态表达

Objective To observe the time course of changes in synaptophysin (P38) expression in the cortex and hippocampus of rats with posttraumatic epilepsy (PTE), and explore the role of synaptic plasticity in the epileptogenesis of PTE. Methods Thirty-seven male Sprague-Dawley rats were randomized into normal control group (n=5), sham-operated group (n=12) with intracortical saline injection, and PTE model group (n=20) with stereotactic FeCl<,2> injection (0.1 mol/L, 10 μ1) into the motor cortex. The expression of P38 in the brain cortex and hippocampus of the rats was detected immunohistochemically at 1 h and 7, 14 and 30 days after the injections. Results Most of the rats with FeCl<,2> injection developed isolated epileptiform discharges soon alter the injection. Compared with the sham-operated groups, the rats in PTE group showed significantly decreased P38 expression in the right frontal cortex at all the time points of measurement (P<0.05). At 1 h after FeCl<,2> injection, P38 expression in the polymorphic layer, stratum lacunosum and stratum radiatum of the right hippocampai CA3 area and DG molecular layer underwent no significant changes (P>05), but at 7 days, the expression increased significantly in all the stratum regions of the right hippocampal CA3 area, and this high expression level was maintained till 30 days after the injection. Conclusion Synaptic plasticity alterations in relation to P38 expression changes in the cortex and hippocampus may play an important role in the epileptogenesis of PTE in this rat model.     

损伤性癫痫模型大鼠海马和额叶突触蛋白的动态表达

Objective To observe the time course of changes in synaptophysin (P38) expression in the cortex and hippocampus of rats with posttraumatic epilepsy (PTE), and explore the role of synaptic plasticity in the epileptogenesis of PTE. Methods Thirty-seven male Sprague-Dawley rats were randomized into normal control group (n=5), sham-operated group (n=12) with intracortical saline injection, and PTE model group (n=20) with stereotactic FeCl<,2> injection (0.1 mol/L, 10 μ1) into the motor cortex. The expression of P38 in the brain cortex and hippocampus of the rats was detected immunohistochemically at 1 h and 7, 14 and 30 days after the injections. Results Most of the rats with FeCl<,2> injection developed isolated epileptiform discharges soon alter the injection. Compared with the sham-operated groups, the rats in PTE group showed significantly decreased P38 expression in the right frontal cortex at all the time points of measurement (P<0.05). At 1 h after FeCl<,2> injection, P38 expression in the polymorphic layer, stratum lacunosum and stratum radiatum of the right hippocampai CA3 area and DG molecular layer underwent no significant changes (P>05), but at 7 days, the expression increased significantly in all the stratum regions of the right hippocampal CA3 area, and this high expression level was maintained till 30 days after the injection. Conclusion Synaptic plasticity alterations in relation to P38 expression changes in the cortex and hippocampus may play an important role in the epileptogenesis of PTE in this rat model.     

损伤性癫痫模型大鼠海马和额叶突触蛋白的动态表达

Objective To observe the time course of changes in synaptophysin (P38) expression in the cortex and hippocampus of rats with posttraumatic epilepsy (PTE), and explore the role of synaptic plasticity in the epileptogenesis of PTE. Methods Thirty-seven male Sprague-Dawley rats were randomized into normal control group (n=5), sham-operated group (n=12) with intracortical saline injection, and PTE model group (n=20) with stereotactic FeCl<,2> injection (0.1 mol/L, 10 μ1) into the motor cortex. The expression of P38 in the brain cortex and hippocampus of the rats was detected immunohistochemically at 1 h and 7, 14 and 30 days after the injections. Results Most of the rats with FeCl<,2> injection developed isolated epileptiform discharges soon alter the injection. Compared with the sham-operated groups, the rats in PTE group showed significantly decreased P38 expression in the right frontal cortex at all the time points of measurement (P<0.05). At 1 h after FeCl<,2> injection, P38 expression in the polymorphic layer, stratum lacunosum and stratum radiatum of the right hippocampai CA3 area and DG molecular layer underwent no significant changes (P>05), but at 7 days, the expression increased significantly in all the stratum regions of the right hippocampal CA3 area, and this high expression level was maintained till 30 days after the injection. Conclusion Synaptic plasticity alterations in relation to P38 expression changes in the cortex and hippocampus may play an important role in the epileptogenesis of PTE in this rat model.     

损伤性癫痫模型大鼠海马和额叶突触蛋白的动态表达

Objective To observe the time course of changes in synaptophysin (P38) expression in the cortex and hippocampus of rats with posttraumatic epilepsy (PTE), and explore the role of synaptic plasticity in the epileptogenesis of PTE. Methods Thirty-seven male Sprague-Dawley rats were randomized into normal control group (n=5), sham-operated group (n=12) with intracortical saline injection, and PTE model group (n=20) with stereotactic FeCl<,2> injection (0.1 mol/L, 10 μ1) into the motor cortex. The expression of P38 in the brain cortex and hippocampus of the rats was detected immunohistochemically at 1 h and 7, 14 and 30 days after the injections. Results Most of the rats with FeCl<,2> injection developed isolated epileptiform discharges soon alter the injection. Compared with the sham-operated groups, the rats in PTE group showed significantly decreased P38 expression in the right frontal cortex at all the time points of measurement (P<0.05). At 1 h after FeCl<,2> injection, P38 expression in the polymorphic layer, stratum lacunosum and stratum radiatum of the right hippocampai CA3 area and DG molecular layer underwent no significant changes (P>05), but at 7 days, the expression increased significantly in all the stratum regions of the right hippocampal CA3 area, and this high expression level was maintained till 30 days after the injection. Conclusion Synaptic plasticity alterations in relation to P38 expression changes in the cortex and hippocampus may play an important role in the epileptogenesis of PTE in this rat model.     

损伤性癫痫模型大鼠海马和额叶突触蛋白的动态表达

Objective To observe the time course of changes in synaptophysin (P38) expression in the cortex and hippocampus of rats with posttraumatic epilepsy (PTE), and explore the role of synaptic plasticity in the epileptogenesis of PTE. Methods Thirty-seven male Sprague-Dawley rats were randomized into normal control group (n=5), sham-operated group (n=12) with intracortical saline injection, and PTE model group (n=20) with stereotactic FeCl<,2> injection (0.1 mol/L, 10 μ1) into the motor cortex. The expression of P38 in the brain cortex and hippocampus of the rats was detected immunohistochemically at 1 h and 7, 14 and 30 days after the injections. Results Most of the rats with FeCl<,2> injection developed isolated epileptiform discharges soon alter the injection. Compared with the sham-operated groups, the rats in PTE group showed significantly decreased P38 expression in the right frontal cortex at all the time points of measurement (P<0.05). At 1 h after FeCl<,2> injection, P38 expression in the polymorphic layer, stratum lacunosum and stratum radiatum of the right hippocampai CA3 area and DG molecular layer underwent no significant changes (P>05), but at 7 days, the expression increased significantly in all the stratum regions of the right hippocampal CA3 area, and this high expression level was maintained till 30 days after the injection. Conclusion Synaptic plasticity alterations in relation to P38 expression changes in the cortex and hippocampus may play an important role in the epileptogenesis of PTE in this rat model.     

损伤性癫痫模型大鼠海马和额叶突触蛋白的动态表达

Objective To observe the time course of changes in synaptophysin (P38) expression in the cortex and hippocampus of rats with posttraumatic epilepsy (PTE), and explore the role of synaptic plasticity in the epileptogenesis of PTE. Methods Thirty-seven male Sprague-Dawley rats were randomized into normal control group (n=5), sham-operated group (n=12) with intracortical saline injection, and PTE model group (n=20) with stereotactic FeCl<,2> injection (0.1 mol/L, 10 μ1) into the motor cortex. The expression of P38 in the brain cortex and hippocampus of the rats was detected immunohistochemically at 1 h and 7, 14 and 30 days after the injections. Results Most of the rats with FeCl<,2> injection developed isolated epileptiform discharges soon alter the injection. Compared with the sham-operated groups, the rats in PTE group showed significantly decreased P38 expression in the right frontal cortex at all the time points of measurement (P<0.05). At 1 h after FeCl<,2> injection, P38 expression in the polymorphic layer, stratum lacunosum and stratum radiatum of the right hippocampai CA3 area and DG molecular layer underwent no significant changes (P>05), but at 7 days, the expression increased significantly in all the stratum regions of the right hippocampal CA3 area, and this high expression level was maintained till 30 days after the injection. Conclusion Synaptic plasticity alterations in relation to P38 expression changes in the cortex and hippocampus may play an important role in the epileptogenesis of PTE in this rat model.     

损伤性癫痫模型大鼠海马和额叶突触蛋白的动态表达

Objective To observe the time course of changes in synaptophysin (P38) expression in the cortex and hippocampus of rats with posttraumatic epilepsy (PTE), and explore the role of synaptic plasticity in the epileptogenesis of PTE. Methods Thirty-seven male Sprague-Dawley rats were randomized into normal control group (n=5), sham-operated group (n=12) with intracortical saline injection, and PTE model group (n=20) with stereotactic FeCl<,2> injection (0.1 mol/L, 10 μ1) into the motor cortex. The expression of P38 in the brain cortex and hippocampus of the rats was detected immunohistochemically at 1 h and 7, 14 and 30 days after the injections. Results Most of the rats with FeCl<,2> injection developed isolated epileptiform discharges soon alter the injection. Compared with the sham-operated groups, the rats in PTE group showed significantly decreased P38 expression in the right frontal cortex at all the time points of measurement (P<0.05). At 1 h after FeCl<,2> injection, P38 expression in the polymorphic layer, stratum lacunosum and stratum radiatum of the right hippocampai CA3 area and DG molecular layer underwent no significant changes (P>05), but at 7 days, the expression increased significantly in all the stratum regions of the right hippocampal CA3 area, and this high expression level was maintained till 30 days after the injection. Conclusion Synaptic plasticity alterations in relation to P38 expression changes in the cortex and hippocampus may play an important role in the epileptogenesis of PTE in this rat model.     

低剂量伽玛刀对致痫大鼠皮层及海马神经元Fos表达的影响

目的通过观察低剂量伽玛刀照射对致痫大鼠大脑皮质及海马神经元cfos表达的影响,初步探讨伽玛刀治疗癫痫的作用机制,为临床治疗提供理论依据。方法以青霉素致痫模型为对象,应用免疫组化方法,检测低剂量伽玛刀照射(周边剂量12Gy)后,大脑皮质及海马神经元cfos表达的变化。实验组和对照组大鼠各22只,正常对照组大鼠4只。结果无论是皮层还是海马,伽玛刀照射后cfos在实验组动物和对照组动物中,表达均有明显的差别,并随时间呈现一定的规律性。结论cfos在伽玛刀治疗癫痫的机理中发挥重要作用。     

低剂量伽玛刀照射对致大鼠皮质及海马神经元c-fos和nNOS表达的影响

目的 通过观察低剂量伽玛刀照射对致痫大鼠大脑皮质及海马神经元c—fos和脑型一氧化氮合酶（nNOS）表达的影响，探讨伽玛刀治疗癫痫的作用机制。方法将44只青霉素致痫大鼠模型等分为实验组和实验对照组大鼠各22只，另取4只正常大鼠作为正常对照组。实验组行伽玛刀照射（周边剂量12Gy）后，应用免疫组化方法，观察大脑皮质及海马神经元c-fos和nNOS表达的变化。结果无论是皮质还是海马，c—fos和nNOS在实验组与实验对照组动物之间，表达均有明显的差别，实验组表达明显少于实验对照组，而后者呈现双高峰现象。结论c—fos和nNOS在伽玛刀治疗癫痫的机制中发挥了重要作用。     

普瑞巴林对慢性颞叶癫癎大鼠海马凋亡调控基因的影响

目的通过观察普瑞巴林对匹罗卡品慢性癫癎大鼠海马区Bcl-2和Bax表达的影响,探讨普瑞巴林治疗癫癎的药理学机制及对大鼠海马神经元的抗凋亡作用。方法采用氯化锂-匹罗卡品化学诱导方法建立慢性颞叶癫癎模型。经腹腔注射普瑞巴林40mg(/kg·d)连续治疗3周,免疫组织化学染色和Western blotting法检测不同处理组大鼠海马区Bcl-2和Bax表达变化。结果与生理盐水对照组比较,模型组大鼠海马区Bcl-2和Bax表达水平显著升高(均P=0.000);与模型组比较,普瑞巴林治疗组大鼠海马区Bcl-2表达水平升高、Bax表达水平降低,组间差异具有统计学意义(均P=0.000)。结论新型抗癫癎药物普瑞巴林可通过降低慢性颞叶癫癎大鼠海马区Bax表达、上调Bcl-2表达而抑制细胞凋亡,发挥神经元保护作用。     

高剂量灵芝孢子粉干预戊四氮致痫模型大鼠海马及皮质区神经细胞Bcl-2、Bax的表达

采用中药灵芝孢子粉低、中、高剂量（150, 300, 450 mg/kg）干预戊四氮致癫痫模型28 d，并设空白对照组。经免疫组织化学染色和TUNEL检测后发现，与模型相比，灵芝孢子粉高剂量组大鼠海马和皮质区神经细胞TUNEL阳性细胞数及Bax阳性细胞数均减少，而Bcl-2阳性表达细胞数增加。Morris水迷宫实验检测结果显示，灵芝孢子粉高剂量组大鼠逃避潜伏期缩短，跨过原平台次数增加。说明高剂量灵芝孢子粉上调癫痫模型大鼠海马和皮质区神经细胞Bcl-2蛋白的表达，抑制Bax免疫反应及癫痫所致的神经细胞凋亡，明显改善其学习记忆功能。     

帕罗西汀对束缚应激与额叶皮质相关性的影响研究

目的：观察束缚应激对大鼠额叶皮质的影响,探讨帕罗西汀在防治束缚应激引起焦虑的作用机制。方法：复制大鼠束缚应激模型,分为束缚应激组、治疗组和保护组,另设对照组（不束缚应激）,每组均n=10。观察大鼠行为学改变、额叶皮质c-fos基因表达、5-羟色胺（5-HT）和血浆皮质酮含量的变化,观察帕罗西汀干预的影响。结果：与对照组比较,束缚应激组大鼠额叶皮质的c-fos表达显著增加,5-HT表达明显减少,血浆皮质酮含量明显升高;与束缚应激组比较,治疗组和保护组血浆皮质酮含量和额叶皮质c-fos表达明显减少,5-HT表达明显增加。结论：额叶皮质参与了束缚应激反应;帕罗西汀抑制额叶皮质的c-fos基因表达、减少血浆皮质酮含量和增加额叶皮质5-HT含量可能是其抗焦虑作用机制之一。     

托吡酯对颞叶癫痫大鼠海马神经细胞粘附分子表达的影响

目的观察托吡酯对红藻氨酸(KA)诱导颞叶癫痫大鼠海马突触重建标记物神经细胞粘附分子(NCAM)表达的影响,进一步探讨托吡酯的抗痫作用机制。方法采用免疫组织化学染色观察KA诱导癫痫大鼠及托吡酯给药大鼠海马神经细胞粘附分子表达水平,并对两组NCAM表达进行比较。结果KA组NCAM表达水平各时间点平均NCAM阳性密度OD率均明显高于N S组和KA TPM组(P<0.01)。结论本研究提示托吡酯可能通过抑制突触重建的形成,减少痫性放电,从而控制癫痫发作。     

Correlation of brain-derived neurotrophic factor to cognitive impairment following traumatic brain injury in rats

BACKGROUND: In vitro and in vivo studies have confirmed that brain-derived neurotrophic factor (BDNF) can promote survival and differentiation of cholinergic, dopaminergic and motor neurons, and axonal regeneration. BDNF has neuroprotective effects on the nervous system. OBJECTIVE: To explore changes in BDNF expression and cognitive function in rats after brain injury DESIGN, TIME AND SETTING: The neuropathology experiment was performed at the Second Research Room, Department of Neurosurgery, Fujian Medical University (China) from July 2007 to July 2008. MATERIALS: A total of 72 healthy, male, Sprague Dawley, rats were selected for this study. METHODS: Rat models of mild and moderate traumatic brain injury were created by percussion, according to Feeney's method (n = 24, each group). A bone window was made in rats from the sham operation group (n = 24), but no attack was conducted. MAIN OUTCOME MEASURES: At days 1,2, 4 and 7 following injury, BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was examined by immunohistochemistry (streptavidin-biotin-peroxidase complex method). Changes in rat cognitive function were assessed by the walking test, balance-beam test and memory function detection. RESULTS: Cognitive impairment was aggravated at day 2, and recovered to normal at days 3 and 7 in rats from the mild and moderate traumatic brain injury groups. BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was increased at 1 day, decreased at day 2, and then gradually increased in the mild and moderate traumatic brain injury groups. BDNF expression was greater in rats from the moderate traumatic brain injury group than in the sham operation and mild traumatic brain injury groups (P < 0.05). CONCLUSION: BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain is correlated to cognitive impairment after traumatic brain injury. BDNF has a protective effect on cognitive function in rats following injury     

甘松治疗戊四氮致大鼠的实验性研究

目的观察甘松对戊四氮致大鼠的疗效。方法将50只Wistar大鼠随机分为5组,每组各10只,分别为正常对照组、模型组、甘松治疗组、丙戊酸钠治疗组和甘松合并丙戊酸钠治疗组;采用腹腔注射戊四氮制作建立癫模型;观察各组大鼠行为学及脑电图、NSE(神经元特异性烯醇化酶)浓度变化。结果与模型组比较,甘松治疗组、丙戊酸钠治疗组、甘松合并丙戊酸钠组可明显减轻大鼠样发作程度,减少发作频率和持续时间,改善大鼠皮层脑电图,降低脑脊液神经元特异性烯醇化酶浓度,其中以甘松合并丙戊酸钠组最为明显。结论甘松对戊四氮致大鼠具有一定的抗癫及脑保护作用,与丙戊酸钠联用有协同作用。     

小剂量伽玛刀照射对致癎大鼠脑神经元nNOS表达的影响

目的 通过观察低剂量伽玛刀照射对致痫大鼠大脑皮质及海马神经元nNOS表达的影响，初步探讨伽玛刀治疗癫痫的作用机制。方法 将44只青霉素致痫大鼠模型等分为实验组和实验对照组，对实验组进行伽玛刀照射（周边剂量12Gy），应用免疫组化方法检测两组大脑皮质及海马神经元nNOS表达的变化。结果 nNOS在两组动物的皮质和海马表达均有显著性差别．实验组显著性低于实验对照组；实验对照组表达呈双高峰现象。结论 nNOS在伽玛刀治疗癫痫的机制中具有重要作用。     

Effects of nanometer particles and water decoction of the Chinese medicine mixture of pinellia ternate and scorpion on P53 protein contents and apoptosis in the cerebral cortex and hippocampus of epileptic rats

BACKGROUND： Water decoction of the Chinese traditional medicine mixture of pinellia ternate and scorpion is an effective treatment for epilepsy.
OBJECTIVE： To compare nanometer particles and effects of water decoction of Chinese traditional medicine mixture on P53 protein levels and apoptosis in the cerebral cortex and hippocampus of epileptic rats.
DESIGN, TIME AND SETTING： This randomized, controlled molecular biology study was performed at the Key Laboratory of Child Neural Rehabilitation of Jiamusi University from October to December 2007.
MATERIALS： Forty healthy male Wistar rats were used in this study. Convulsion rat models were established by intraperitoneal infusion of 35 mg/kg pentylenetetrazol, once a day, for 28 successive days. The Chinese traditional medicine mixture, comprising pinellia ternate, scorpion, centipede, bupleurum, peach pit and glycyrrhiza, was purchased from Beijing Tongrentang, China. The mixture was made into nanometer particles and water decoction. The apoptosis determination kit and P53 immunohistochemistry kit were bought from Boster, China.
METHODS： Forty Wistar rats were randomly divided into four groups of ten rats per group, control, nanometer particle, water decoction and epileptic model groups. Rats in the nanometer particle and water decoction groups were respectively treated with 300 mg/kg Chinese herb nanometer particle suspension and water decoction by gavage, once a day, for 28 days. Rats in the epileptic model group were fed an equal volume of saline by gavage. Rats in the control group were only administered with the same volume of saline by gavage.
MAIN OUTCOME MEASURES： Terminal deoxynucleotidyl Transferase Biotin-dUTP Nick End Labeling （TUNEL） and immunohistochemistry were used to respectively detect neuronal apoptosis and P53 protein expression in the rat brain cortex and hippocampus at 28 days following administration.
RESULTS： The number of apoptotic neurons was lower in the nanometer particle and water decoction groups compared wi