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神经损伤与再生
神经损伤与再生
脑损伤与再生
脑损伤与再生
脊髓损伤与再生
脊髓损伤与再生
视神经损伤与再生
视神经损伤与再生
周围神经损伤与<BR>再生
周围神经损伤与
再生
神经退行性病与<BR>再生
神经退行性病与
再生
颅神经损伤与再生
颅神经损伤与再生
干细胞与神经再生
干细胞与神经再生
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综述文章 Review Articles    观点文章 Perspective Articles    神经损伤与再生 Basic Research in Nerve Injury and Regeneration   
脑损伤与再生 Brain Injury and Neural Regeneration
    退行性病与再生 Neurodegenerative Disease and Neural Regeneration   
脊髓损伤与再生 Spinal Cord Injury and Neural Regeneration
    周围神经损伤与再生 Peripheral Nerve Injury and Regeneration   
视神经损伤与再生 Optic Nerve Injury and Neural Regeneration
    颅神经损伤与再生 Cranial Nerve Injury and Neural Regeneration    2016年总目次 Total contents in 2016   
最新期刊 Current Issue   2019, Vol.14 (10) Published: 2019-10-15
 
   简明目录(Article List) 摘要目录(Full Abstracts) 分类目录(Classified List) 全年目录(Annual List) 基金目录(Fund List)
   封面目录(Cover List) 在线出版(Online Publication) 本期推荐(Current Issue Recommended) 编辑述评(Editor's Advice) 
   主编的话(Editors-in-Chief's words)
        综述:神经损伤修复保护与再生
淀粉样前体蛋白对神经干细胞生物学和信号通路的影响
  Physiological effects of amyloid precursor protein and its derivatives on neural stem cell biology and signaling pathways involved
Raquel Coronel, Charlotte Palmer, Adela Bernabeu-Zornoza, María Monteagudo, Andreea Rosca, Alberto Zambrano, Isabel Liste. Physiological effects of amyloid precursor protein and its derivatives on neural stem cell biology and signaling pathways involved[J]. Neural Regeneration Research, 2019, 14(10): 1661-1671.
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微小RNA靶向集合预测和验证面临的挑战
  Challenges in microRNAs’ targetome prediction and validation
Jesus Eduardo Rojo Arias, Volker Busskamp. Challenges in microRNAs’ targetome prediction and validation[J]. Neural Regeneration Research, 2019, 14(10): 1672-1677.
  PDF (195 KB)   ( 20 )
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P2X7受体调节成人海马神经发生
  P2X7 receptor signaling during adult hippocampal neurogenesis
Hannah C. Leeson, Tailoi Chan-Ling, Michael D. Lovelace, Jeremy C. Brownlie, Ben J. Gu, Michael W. Weible II . P2X7 receptor signaling during adult hippocampal neurogenesis[J]. Neural Regeneration Research, 2019, 14(10): 1684-1694.
  PDF (1826 KB)   ( 14 )
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        综述:脑损伤修复保护与再生
我们能否进一步优化治疗性低温治疗缺氧缺血性脑病?
  Can we further optimize therapeutic hypothermia for hypoxic-ischemic encephalopathy?
Anthony Davies, Guido Wassink, Laura Bennet, Alistair J. Gunn, Joanne O. Davidson. Can we further optimize therapeutic hypothermia for hypoxic-ischemic encephalopathy?[J]. Neural Regeneration Research, 2019, 14(10): 1678-1683.
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        观点:脊髓损伤修复保护与再生
λ氨基丁酸促进脊髓损伤的恢复:λ氨基丁酸受体的作用
  Gamma-aminobutyric acid (GABA) promotes recovery from spinal cord injury in lampreys: role of GABA receptors and perspective on the translation to mammals
Daniel Romaus-Sanjurjo, María Celina Rodicio, Antón Barreiro-Iglesias. Gamma-aminobutyric acid (GABA) promotes recovery from spinal cord injury in lampreys: role of GABA receptors and perspective on the translation to mammals[J]. Neural Regeneration Research, 2019, 14(10): 1695-1696.
  PDF (320 KB)   ( 12 )
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        观点:神经损伤修复保护与再生
胆碱调节神经元的可塑性
  Modulating neuronal plasticity with choline
Eunice W. M. Chin, Eyleen L.K. Goh . Modulating neuronal plasticity with choline[J]. Neural Regeneration Research, 2019, 14(10): 1697-1698.
  PDF (535 KB)   ( 11 )
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微调生长锥对导向因子的反应:microRNA的作用
  Fine-tuning the response of growth cones to guidance cues: a perspective on the role of microRNAs
Sarah E. Walker, Gaynor E. Spencer, Robert L. Carlone. Fine-tuning the response of growth cones to guidance cues: a perspective on the role of microRNAs[J]. Neural Regeneration Research, 2019, 14(10): 1719-1720.
  PDF (202 KB)   ( 16 )
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        观点:脑损伤修复保护与再生
人神经干细胞移植解决与创伤性脑损伤相关的多种病理问题
  Human neural stem cell transplants to address multiple pathologies associated with traumatic brain injury
Helene Clervius, Mirza Baig, Anil Mahavadi, Shyam Gajavelli. Human neural stem cell transplants to address multiple pathologies associated with traumatic brain injury[J]. Neural Regeneration Research, 2019, 14(10): 1699-1700.
  PDF (379 KB)   ( 17 )
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谷胱甘肽前体可以保护大脑免受创伤
  Remodeling dendritic spines for treatment of traumatic brain injury
Lilia Koza, Daniel A. Linseman . Remodeling dendritic spines for treatment of traumatic brain injury[J]. Neural Regeneration Research, 2019, 14(10): 1701-1702.
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神经营养素-3的延迟外周治疗促进中枢神经系统损伤后的感觉运动恢复
  Delayed peripheral treatment with neurotrophin-3 improves sensorimotor recovery after central nervous system injury
Sotiris G. Kakanos, Lawrence D.F. Moon. Delayed peripheral treatment with neurotrophin-3 improves sensorimotor recovery after central nervous system injury[J]. Neural Regeneration Research, 2019, 14(10): 1703-1704.
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HIV感染期间星形胶质细胞和淋巴细胞死亡的机制是否相似?
  Are the mechanisms involved in astrocyte and lymphocyte death during HIV infection similar?
Diego S. Ojeda, Andreas Till, Jorge Quarleri. Are the mechanisms involved in astrocyte and lymphocyte death during HIV infection similar?[J]. Neural Regeneration Research, 2019, 14(10): 1707-1708.
  PDF (268 KB)   ( 13 )
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        观点:退行性病与再生
二萜与花生四烯酸途径的关系及与神经变性的相关性
  Diterpenes and the crosstalk with the arachidonic acid pathways, relevance in neurodegeneration
Juan M. Zolezzi,Nibaldo C. Inestrosa. Diterpenes and the crosstalk with the arachidonic acid pathways, relevance in neurodegeneration[J]. Neural Regeneration Research, 2019, 14(10): 1705-1706.
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白细胞端粒缩短是否可能成为追踪亨廷顿病进展的生物标志物?
  Can leukocyte telomere shortening be a possible biomarker to track Huntington’s diseaseprogression?
Elide Mantuano,artina Peconi1,aniela Scarabino . Can leukocyte telomere shortening be a possible biomarker to track Huntington’s diseaseprogression?[J]. Neural Regeneration Research, 2019, 14(10): 1709-1710.
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哺乳动物雷帕霉素靶蛋白局部调节:一项有前景的抵抗神经变性的策略
  The local mammalian target of rapamycin (mTOR) modulation: a promising strategy to counteract neurodegeneration
Diego Dolcetta,Roberto Dominici . The local mammalian target of rapamycin (mTOR) modulation: a promising strategy to counteract neurodegeneration[J]. Neural Regeneration Research, 2019, 14(10): 1711-1712.
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富含亮氨酸重复激酶2对小胶质细胞蛋白激酶A-核因子-κB途径的影响:对帕金森病的意义
  The role of LRRK2 on PKA-NFκB pathway in microglia cells: implications for Parkinson’s disease
Isabella Russo. The role of LRRK2 on PKA-NFκB pathway in microglia cells: implications for Parkinson’s disease[J]. Neural Regeneration Research, 2019, 14(10): 1713-1714.
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新型体外脱髓鞘/髓鞘再生模型可复制多发性硬化症和视神经脊髓炎
  New ex vivo demyelination/remyelination models to defeat multiple sclerosis and neuromyelitis optica
Yiting Liu. New ex vivo demyelination/remyelination models to defeat multiple sclerosis and neuromyelitis optica[J]. Neural Regeneration Research, 2019, 14(10): 1715-1716.
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帕金森病的病理生理学的一个不同观点:一种令人沮丧的神经化学假设?
  A different view on the pathophysiology of Parkinson’s disease: a descendent neurochemical hypothesis?
Burak Yulug,Mehmet Ozansoy, Seyda Cankaya . A different view on the pathophysiology of Parkinson’s disease: a descendent neurochemical hypothesis?[J]. Neural Regeneration Research, 2019, 14(10): 1717-1718.
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        综述:退行性病与再生
潜在的预防性疾病调节药物策略,以延迟晚发性阿尔茨海默病
  Potential preventive disease-modifying pharmacological strategies to delay late onset Alzheimer’s disease
Miren Ettcheto, Oriol Busquets, Antoni Camins. Potential preventive disease-modifying pharmacological strategies to delay late onset Alzheimer’s disease[J]. Neural Regeneration Research, 2019, 14(10): 1721-1725.
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        原著:脑损伤修复保护与再生
血管内皮生长因子A大量表达可促进血小板黏附IV型胶原,并引发蛛网膜下腔出血后早期脑损伤
  Vascular endothelial growth factor A promotes platelet adhesion to collagen IV and causes early brain injury after subarachnoid hemorrhage
Zun-Wei Liu, Jun-Jie Zhao, Hong-Gang Pang, Jin-Ning Song . Vascular endothelial growth factor A promotes platelet adhesion to collagen IV and causes early brain injury after subarachnoid hemorrhage[J]. Neural Regeneration Research, 2019, 14(10): 1726-1733.
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白藜芦醇对蛛网膜下腔出血的神经保护:抑制氧化应激、内质网应激和减轻神经炎症
  Resveratrol reduces brain injury after subarachnoid hemorrhage by inhibiting oxidative stress and endoplasmic reticulum stress
Yun-Kai Xie, Xin Zhou, Hong-Tao Yuan, Jie Qiu, Dan-Qing Xin, Xi-Li Chu, Da-Chuan Wang, Zhen Wang. Resveratrol reduces brain injury after subarachnoid hemorrhage by inhibiting oxidative stress and endoplasmic reticulum stress[J]. Neural Regeneration Research, 2019, 14(10): 1734-1742.
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强制性运动疗法增强脑缺血再灌注损伤后神经再生和血管新生
  Constraint-induced movement therapy enhances angiogenesis and neurogenesis after cerebral ischemia/ reperfusion
Zhi-Yong Zhai, Juan Feng. Constraint-induced movement therapy enhances angiogenesis and neurogenesis after cerebral ischemia/ reperfusion[J]. Neural Regeneration Research, 2019, 14(10): 1743-1754.
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可溶性Nogo受体1融合蛋白可增强神经祖细胞对脑卒中的神经保护作用
  Soluble Nogo receptor 1 fusion protein protects neural progenitor cells in rats with ischemic stroke
Hai-Wei He, Yue-Lin Zhang, Bao-Qi Yu, Gen Ye, Wei You, Kwok-fai So, Xin Li . Soluble Nogo receptor 1 fusion protein protects neural progenitor cells in rats with ischemic stroke[J]. Neural Regeneration Research, 2019, 14(10): 1755-1764.
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TrkA可调节骨髓基质干细胞在神经移植物中的再生能力
  TrkA regulates the regenerative capacity of bone marrow stromal stem cells in nerve grafts
Mei-Ge Zheng, Wen-Yuan Sui, Zhen-Dan He, Yan Liu, Yu-Lin Huang, Shu-Hua Mu, Xin-Zhong Xu, Ji-Sen Zhang, Jun-Le Qu, Jian Zhang, Dong Wang. TrkA regulates the regenerative capacity of bone marrow stromal stem cells in nerve grafts[J]. Neural Regeneration Research, 2019, 14(10): 1765-1771.
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嗜酸性粒细胞减少可作为急性缺血性卒中严重程度的潜在预测因子
  Eosinopenia is a predictive factor for the severity of acute ischemic stroke
Hui-Min Zhao, Wen-Qian Qin, Pei-Ji Wang, Zhong-Min Wen. Eosinopenia is a predictive factor for the severity of acute ischemic stroke[J]. Neural Regeneration Research, 2019, 14(10): 1772-1779.
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骨髓间充质干细胞复合胶原蛋白-壳聚糖支架修复创伤性脑损伤
  Collagen-chitosan scaffold impregnated with bone marrow mesenchymal stem cells for treatment of traumatic brain injury
Feng Yan, Ming Li, Hong-Qi Zhang, Gui-Lin Li, Yang Hua, Ying Shen, Xun-Ming Ji, Chuan-Jie Wu, Hong An, Ming Ren. Collagen-chitosan scaffold impregnated with bone marrow mesenchymal stem cells for treatment of traumatic brain injury[J]. Neural Regeneration Research, 2019, 14(10): 1780-1786.
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褪黑素促进长期睡眠剥夺条件下成年小鼠海马齿状回中神经祖细胞增殖
  Melatonin modifies SOX2+ cell proliferation in dentate gyrus and modulates SIRT1 and MECP2 in long-term sleep deprivation
Alan Hinojosa-Godínez, Luis F. Jave-Suarez, Mario Flores-Soto, Alma Y. Gálvez-Contreras, Sonia Luquín, Edith Oregon-Romero, Oscar González-Pérez, Rocio E. González-Castañeda. Melatonin modifies SOX2+ cell proliferation in dentate gyrus and modulates SIRT1 and MECP2 in long-term sleep deprivation[J]. Neural Regeneration Research, 2019, 14(10): 1787-1795.
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两种严重创伤性脑损伤模型的病理变化差异
  Differences in pathological changes between two rat models of severe traumatic brain injury
Yi-Ming Song, Yu Qian, Wan-Qiang Su, Xuan-Hui Liu, Jin-Hao Huang, Zhi-Tao Gong, Hong-Liang Luo, Chuang Gao, Rong-Cai Jiang. Differences in pathological changes between two rat models of severe traumatic brain injury[J]. Neural Regeneration Research, 2019, 14(10): 1796-1804.
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人体神经干细胞主题趋势和知识结构的映射:2013-2017年文献的定量和共词双向分析
  Mapping theme trends and knowledge structures for human neural stem cells: a quantitative and co-word biclustering analysis for the 2013–2018 period
Wen-Juan Wei, Bei Shi, Xin Guan, Jing-Yun Ma, Ya-Chen Wang, Jing Liu. Mapping theme trends and knowledge structures for human neural stem cells: a quantitative and co-word biclustering analysis for the 2013–2018 period[J]. Neural Regeneration Research, 2019, 14(10): 1823-1832.
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        原著:退行性病与再生
脑网络建模分析阿尔茨海默病的发展机制
  Brain networks modeling for studying the mechanism underlying the development of Alzheimer’s disease
Shuai-Zong Si, Xiao Liu, Jin-Fa Wang, Bin Wang, Hai Zhao. Brain networks modeling for studying the mechanism underlying the development of Alzheimer’s disease[J]. Neural Regeneration Research, 2019, 14(10): 1805-1813.
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人参皂甙Rb1可保护多巴胺能神经元免受单一脂多糖诱导的炎性损伤
  Ginsenoside Rb1 protects dopaminergic neurons from inflammatory injury induced by intranigral lipopolysaccharide injection
Da-Wei Li, Fa-Zhan Zhou, Xian-Chang Sun, Shu-Chen Li, Jin-Bin Yang, Huan-Huan Sun, Ai-Hua Wang . Ginsenoside Rb1 protects dopaminergic neurons from inflammatory injury induced by intranigral lipopolysaccharide injection[J]. Neural Regeneration Research, 2019, 14(10): 1814-1822.
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        原著:周围神经损伤修复保护与再生
坐骨神经损伤改变了脊髓前角神经元和神经胶质细胞的空间排列
  Sciatic nerve injury alters the spatial arrangement of neurons and glial cells in the anterior horn of the spinal cord
Ali Rashidiani-Rashidabadi, Mohammad Hassan Heidari, Ensieh Sajadi, Fatemeh Hejazi, Fatemeh Fadaei Fathabady,Yousef Sadeghi, Abbas Aliaghaei, Amir Raoofi, Mohammad-Amin Abdollahifar, Reza Mastery Farahni . Sciatic nerve injury alters the spatial arrangement of neurons and glial cells in the anterior horn of the spinal cord[J]. Neural Regeneration Research, 2019, 14(10): 1833-1840.
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