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Acupuncture and neuroregeneration in ischemic stroke 被引量:44
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作者 Qwang-Yuen Chang Yi-Wen Lin Ching-Liang Hsieh 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第4期573-583,共11页
Acupuncture is potentially beneficial for post-stroke rehabilitation and is considered a promising preventive strategy for stroke.Electroacupuncture pretreatment or treatment after ischemic stroke by using appropriate... Acupuncture is potentially beneficial for post-stroke rehabilitation and is considered a promising preventive strategy for stroke.Electroacupuncture pretreatment or treatment after ischemic stroke by using appropriate electroacupuncture parameters generates neuroprotective and neuroregenerative effects that increase cerebral blood flow,regulate oxidative stress,attenuate glutamate excitotoxicity,maintain bloodbrain barrier integrity,inhibit apoptosis,increase growth factor production,and induce cerebral ischemic tolerance. 展开更多
关键词 ACUPUNCTURE NEUROPROTECTION neuroregeneration
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Neuroregeneration and plasticity: a review of the physiological mechanisms for achieving functional recovery postinjury 被引量:8
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作者 Palaniappan Ganesh Nagappan Hong Chen De-Yun Wang 《Military Medical Research》 SCIE CAS CSCD 2020年第4期464-481,共18页
Neuronal networks,especially those in the central nervous system(CNS),evolved to support extensive functional capabilities while ensuring stability.Several physiological"brakes"that maintain the stability of... Neuronal networks,especially those in the central nervous system(CNS),evolved to support extensive functional capabilities while ensuring stability.Several physiological"brakes"that maintain the stability of the neuronal networks in a healthy state quickly become a hinderance postinjury.These"brakes"include inhibition from the extracellular environment,intrinsic factors of neurons and the control of neuronal plasticity.There are distinct differences between the neuronal networks in the peripheral nervous system(PNS)and the CNS.Underpinning these differences is the trade-off between reduced functional capabilities with increased adaptability through the formation of new connections and new neurons.The PNS has"facilitators"that stimulate neuroregeneration and plasticity,while the CNS has"brakes"that limit them.By studying how these"facilitators"and"brakes"work and identifying the key processes and molecules involved,we can attempt to apply these theories to the neuronal networks of the CNS to increase its adaptability.The difference in adaptability between the CNS and PNS leads to a difference in neuroregenerative properties and plasticity.Plasticity ensures quick functional recovery of abilities in the short and medium term.Neuroregeneration involves synthesizing new neurons and connections,providing extra resources in the long term to replace those damaged by the injury,and achieving a lasting functional recovery.Therefore,by understanding the factors that affect neuroregeneration and plasticity,we can combine their advantages and develop rehabilitation techniques.Rehabilitation training methods,coordinated with pharmacological interventions and/or electrical stimulation,contributes to a precise,holistic treatment plan that achieves functional recovery from nervous system injuries.Furthermore,these techniques are not limited to limb movement,as other functions lost as a result of brain injury,such as speech,can also be recovered with an appropriate training program. 展开更多
关键词 neuroregeneration PLASTICITY Neuronal systems Postinjury Central nervous system Peripheral nervous system REHABILITATION
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The brain-derived neurotrophic factor in neuronal plasticity and neuroregeneration: new pharmacological concepts for old and new drugs 被引量:7
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作者 Solomon Habtemariam 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第6期983-984,共2页
Neurotrophins:Neurotrophins are peptides or proteins that are known to regulate neuronal viability,development,and function Beyond synaptic plasticity,neurotrophins protect neurons from apoptosis and also promote neu... Neurotrophins:Neurotrophins are peptides or proteins that are known to regulate neuronal viability,development,and function Beyond synaptic plasticity,neurotrophins protect neurons from apoptosis and also promote neurogenesis to recover neuronal defici even in adulthood. 展开更多
关键词 The brain-derived neurotrophic factor in neuronal plasticity and neuroregeneration new pharmacological concepts for old and new drugs
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SNARE complex in axonal guidance and neuroregeneration 被引量:2
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作者 Fausto Ulloa Tiziana Cotrufo +2 位作者 Delia Ricolo Eduardo Soriano Sofia J. Araújo 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第3期386-392,共7页
Through complex mechanisms that guide axons to the appropriate routes towards their targets, axonal growth and guidance lead to neuronal system formation. These mechanisms establish the synaptic circuitry necessary fo... Through complex mechanisms that guide axons to the appropriate routes towards their targets, axonal growth and guidance lead to neuronal system formation. These mechanisms establish the synaptic circuitry necessary for the optimal performance of the nervous system in all organisms. Damage to these networks can be repaired by neuroregenerative processes which in turn can re-establish synapses between injured axons and postsynaptic terminals. Both axonal growth and guidance and the neuroregenerative response rely on correct axonal growth and growth cone responses to guidance cues as well as correct synapses with appropriate targets. With this in mind, parallels can be drawn between axonal regeneration and processes occurring during embryonic nervous system development. However, when studying parallels between axonal development and regeneration many questions still arise; mainly, how do axons grow and synapse with their targets and how do they repair their membranes, grow and orchestrate regenerative responses after injury. Major players in the cellular and molecular processes that lead to growth cone development and movement during embryonic development are the Soluble N-ethylamaleimide Sensitive Factor (NSF) Attachment Protein Receptor (SNARE) proteins, which have been shown to be involved in axonal growth and guidance. Their involvement in axonal growth, guidance and neuroregeneration is of foremost importance, due to their roles in vesicle and membrane trafficking events. Here, we review the recent literature on the involvement of SNARE proteins in axonal growth and guidance during embryonic development and neuroregeneration. 展开更多
关键词 SNARE vesicle associated membrane protein synaptosomal associated protein AXON GUIDANCE neuroregeneration nervous system cell membrane
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Purinergic signalling in neuroregeneration 被引量:1
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作者 Geoffrey Burnstock 《Neural Regeneration Research》 SCIE CAS CSCD 2015年第12期1919-1919,共1页
Purinergic signalling,adenosine 5′-triphosphate(ATP)as an extracellular signalling molecule,was proposed in 1972(Burnstock,1972).However,it was not generally accepted until the early 1990s when receptors for ATP ... Purinergic signalling,adenosine 5′-triphosphate(ATP)as an extracellular signalling molecule,was proposed in 1972(Burnstock,1972).However,it was not generally accepted until the early 1990s when receptors for ATP and its breakdown product adenosine were cloned and characterised(Ralevic and Burnstock,1998).Four P1(adenosine)receptors are recognised(A1,A2A,A2B and A3). 展开更多
关键词 CELL Purinergic signalling in neuroregeneration ATP
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Neuroregeneration using in vivo cellular reprogramming
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作者 Tu Nguyen Raymond Ching-Bong Wong 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第7期1073-1074,共2页
Cellular reprogramming is an innovative technology used to artificlally convert a mature cell type into a different cell type by molecular'manipulation. The general concept of cellular reprogramming is to use master ... Cellular reprogramming is an innovative technology used to artificlally convert a mature cell type into a different cell type by molecular'manipulation. The general concept of cellular reprogramming is to use master transcription factors to override the endogenous transcriptome profile of a given cell type with the transcriptome profile of the target cell type, thereby altering the cellular function and identity. 展开更多
关键词 in on cell GENE neuroregeneration using in vivo cellular reprogramming into
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eural Regeneration Research-- An interesting SCI-indexed journal in neuroregeneration
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《Neural Regeneration Research》 SCIE CAS CSCD 2010年第3期F0003-F0003,共1页
Neural Regeneration Research (NRR) is an international academic journal specialized in the field of neural regeneration research and published in English. The journal is supervised by the Ministry of Health, P.R. Ch... Neural Regeneration Research (NRR) is an international academic journal specialized in the field of neural regeneration research and published in English. The journal is supervised by the Ministry of Health, P.R. China, sponsored by the Chinese Association of Rehabilitation Medicine, and co-edited by the Editorial Department of Neural Regeneration Research and China Science Press. 展开更多
关键词 SCI An interesting SCI-indexed journal in neuroregeneration NRR Neural Regeneration Research
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Neural Regeneration Research--An interesting SCI-indexed journal in neuroregeneration
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《Neural Regeneration Research》 SCIE CAS CSCD 2010年第23期F0003-F0003,共1页
Neural Regeneration Research (NRR) is an international academic journal specialized in the field of neural regeneration research and published in English. The journal is supervised by the Ministry of Health, P.R. Ch... Neural Regeneration Research (NRR) is an international academic journal specialized in the field of neural regeneration research and published in English. The journal is supervised by the Ministry of Health, P.R. China, sponsored by the Chinese Association of Rehabilitation Medicine, and co-edited by the Editorial Department of Neural Regeneration Research and China Science Press. 展开更多
关键词 NRR Neural Regeneration Research An interesting SCI-indexed journal in neuroregeneration gene SCI
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Neuroregeneration in the visual cortex
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《Neural Regeneration Research》 SCIE CAS CSCD 2012年第10期783-783,共1页
Totally three articles focusing on “the expression of Nogo-A, Nogo receptor and NADPH-diaphorase in the developing rat visual cortex and the effects of levodopa methyl ester on nerve growth factor expression in visua... Totally three articles focusing on “the expression of Nogo-A, Nogo receptor and NADPH-diaphorase in the developing rat visual cortex and the effects of levodopa methyl ester on nerve growth factor expression in visual cortex area 17 in strabismic amblyopia” are published in three issues. We hope that our readers find these papers useful to their research. 展开更多
关键词 area NADPH neuroregeneration in the visual cortex
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Editor's Choice——Experimental autoimmune encephalomyelitis and neuroregeneration
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《Neural Regeneration Research》 SCIE CAS CSCD 2011年第32期2499-2499,共1页
An experimental autolmmune encephalomyelitis model can be used to mimic pathological changes of multiple sclerosis from different angles. During the acute phase of experimental autolmmune encephalomyelitis, CD4+ T-ce... An experimental autolmmune encephalomyelitis model can be used to mimic pathological changes of multiple sclerosis from different angles. During the acute phase of experimental autolmmune encephalomyelitis, CD4+ T-cells in the central nervous system infiltrate, proliferate, release large amounts of pro-inflammatory cytokines, and activate the inflammatory cascade, which ultimately leads to 展开更多
关键词 Experimental autoimmune encephalomyelitis and neuroregeneration Editor’s Choice
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How does zebrafish support new strategies for neuroprotection and neuroregeneration in hypoxia-related diseases?
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作者 Emerson S.Silva Joao Batista T.Rocha +1 位作者 Diogo O.Souza Marcos M.Braga 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第7期1069-1070,共2页
Hypoxia is a condition found commonly in several disorders,such as ischemia,asthma,anemia and neonatal hypoxia.Individuals subjected suddenly to high altitude or extreme exercise are also challenged to low oxygen(O2... Hypoxia is a condition found commonly in several disorders,such as ischemia,asthma,anemia and neonatal hypoxia.Individuals subjected suddenly to high altitude or extreme exercise are also challenged to low oxygen(O2)levels.Since the brain presents elevated basal O_2 consumption,this organ is readily affected by hypoxia.For this reason, 展开更多
关键词 How does zebrafish support new strategies for neuroprotection and neuroregeneration in hypoxia-related diseases
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Interplay between mesenchymal stromal cells and the immune system after transplantation: implications for advanced cell therapy in the retina 被引量:1
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作者 María Norte-Muñoz David García-Bernal +2 位作者 Diego García-Ayuso Manuel Vidal-Sanz Marta Agudo-Barriuso 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第3期542-547,共6页
Advanced mesenchymal stromal cell-based therapies for neurodegenerative diseases are widely investigated in preclinical models.Mesenchymal stromal cells are well positioned as therapeutics because they address the und... Advanced mesenchymal stromal cell-based therapies for neurodegenerative diseases are widely investigated in preclinical models.Mesenchymal stromal cells are well positioned as therapeutics because they address the underlying mechanisms of neurodegeneration,namely trophic factor deprivation and neuroinflammation.Most studies have focused on the beneficial effects of mesenchymal stromal cell transplantation on neuronal survival or functional improvement.However,little attention has been paid to the interaction between mesenchymal stromal cells and the host immune system due to the immunomodulatory properties of mesenchymal stromal cells and the long-held belief of the immunoprivileged status of the central nervous system.Here,we review the crosstalk between mesenchymal stromal cells and the immune system in general and in the context of the central nervous system,focusing on recent work in the retina and the importance of the type of transplantation. 展开更多
关键词 adaptive immunity cell therapy central nervous system immune system innate immunity mesenchymal stromal cells neuroregeneration preclinical studies RETINA TRANSPLANTATION
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Stiffness-tunable biomaterials provide a good extracellular matrix environment for axon growth and regeneration
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作者 Ronglin Han Lanxin Luo +4 位作者 Caiyan Wei Yaru Qiao Jiming Xie Xianchao Pan Juan Xing 《Neural Regeneration Research》 SCIE CAS 2025年第5期1364-1376,共13页
Neuronal growth, extension, branching, and formation of neural networks are markedly influenced by the extracellular matrix—a complex network composed of proteins and carbohydrates secreted by cells. In addition to p... Neuronal growth, extension, branching, and formation of neural networks are markedly influenced by the extracellular matrix—a complex network composed of proteins and carbohydrates secreted by cells. In addition to providing physical support for cells, the extracellular matrix also conveys critical mechanical stiffness cues. During the development of the nervous system, extracellular matrix stiffness plays a central role in guiding neuronal growth, particularly in the context of axonal extension, which is crucial for the formation of neural networks. In neural tissue engineering, manipulation of biomaterial stiffness is a promising strategy to provide a permissive environment for the repair and regeneration of injured nervous tissue. Recent research has fine-tuned synthetic biomaterials to fabricate scaffolds that closely replicate the stiffness profiles observed in the nervous system. In this review, we highlight the molecular mechanisms by which extracellular matrix stiffness regulates axonal growth and regeneration. We highlight the progress made in the development of stiffness-tunable biomaterials to emulate in vivo extracellular matrix environments, with an emphasis on their application in neural repair and regeneration, along with a discussion of the current limitations and future prospects. The exploration and optimization of the stiffness-tunable biomaterials has the potential to markedly advance the development of neural tissue engineering. 展开更多
关键词 ALGINATE axon growth BIOMATERIALS extracellular matrix neural repair neurons neuroregeneration POLYACRYLAMIDE POLYDIMETHYLSILOXANE stiffness
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Annexin A1 in the nervous and ocular systems
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作者 Aijia Wang Hong Zhang +1 位作者 Xing Li Yin Zhao 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第3期591-597,共7页
The therapeutic potential of Annexin A1,an important member of the Annexin superfamily,has become evident in results of experiments with multiple human systems and animal models.The anti-inflammatory and pro-resolving... The therapeutic potential of Annexin A1,an important member of the Annexin superfamily,has become evident in results of experiments with multiple human systems and animal models.The anti-inflammatory and pro-resolving effects of Annexin A1 are characteristic of pathologies involving the nervous system.In this review,we initially describe the expression sites of Annexin A1,then outline the mechanisms by which Annexin A1 maintains the neurological homeostasis through either formyl peptide receptor 2 or other molecular approaches;and,finally,we discuss the neuroregenerative potential qualities of Annexin A1.The eye and the nervous system are anatomically and functionally connected,but the association between visual system pathogenesis,especially in the retina,and Annexin A1 alterations has not been well summarized.Therefore,we explain the beneficial effects of Annexin A1 for ocular diseases,especially for retinal diseases and glaucoma on the basis of published findings,and we explore present and future delivery strategies for Annexin A1 to the retina. 展开更多
关键词 Annexin A1(ANXA1) GLAUCOMA nervous system NEUROPROTECTION neuroregeneration ocular disease RETINA
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Novel therapeutic strategies targeting mitochondria as a gateway in neurodegeneration 被引量:4
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作者 Diogo Trigo Jose Joao Vitoria Odete A.B.da Cruz e Silva 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第5期991-995,共5页
In recent years, multiple disciplines have focused on mitochondrial biology and contributed to understanding its relevance towards adult-onset neurodegenerative disorders. These are complex dynamic organelles that hav... In recent years, multiple disciplines have focused on mitochondrial biology and contributed to understanding its relevance towards adult-onset neurodegenerative disorders. These are complex dynamic organelles that have a variety of functions in ensuring cellular health and homeostasis. The plethora of mitochondrial functionalities confers them an intrinsic susceptibility to internal and external stressors(such as mutation accumulation or environmental toxins), particularly so in long-lived postmitotic cells such as neurons. Thus, it is reasonable to postulate an involvement of mitochondria in aging-associated neurological disorders, notably neurodegenerative pathologies including Alzheimer’s disease and Parkinson’s disease. On the other hand, biological effects resulting from neurodegeneration can in turn affect mitochondrial health and function, promoting a feedback loop further contributing to the progression of neuronal dysfunction and cellular death. This review examines state-of-the-art knowledge, focus on current research exploring mitochondrial health as a contributing factor to neuroregeneration, and the development of therapeutic approaches aimed at restoring mitochondrial homeostasis in a pathological setting. 展开更多
关键词 Alzheimer’s disease AXON energy homeostasis glymphatic system MITOCHONDRIA mitostasis NEURODEGENERATION neuroregeneration Parkinson’s disease therapeutical strategies
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A benchtop brain injury model using resected donor tissue from patients with Chiari malformation
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作者 Jacqueline A.Tickle Jon Sen +5 位作者 Christopher Adams David N.Furness Rupert Price Viswapathi Kandula Nikolaos Tzerakis Divya M.Chari 《Neural Regeneration Research》 SCIE CAS CSCD 2023年第5期1057-1061,共5页
The use of live animal models for testing new therapies for brain and spinal cord repair is a controversial area. Live animal models have associated ethical issues and scientific concerns regarding the predictability ... The use of live animal models for testing new therapies for brain and spinal cord repair is a controversial area. Live animal models have associated ethical issues and scientific concerns regarding the predictability of human responses. Alternative models that replicate the 3 D architecture of the central nervous system have prompted the development of organotypic neural injury models. However, the lack of reliable means to access normal human neural tissue has driven reliance on pathological or post-mortem tissue which limits their biological utility. We have established a protocol to use donor cerebellar tonsillar tissue surgically resected from patients with Chiari malformation(cerebellar herniation towards the foramen magnum, with ectopic rather than diseased tissue) to develop an in vitro organotypic model of traumatic brain injury. Viable tissue was maintained for approximately 2 weeks with all the major neural cell types detected. Traumatic injuries could be introduced into the slices with some cardinal features of post-injury pathology evident. Biomaterial placement was also feasible within the in vitro lesions. Accordingly, this ‘proof-of-concept’ study demonstrates that the model offers potential as an alternative to the use of animal tissue for preclinical testing in neural tissue engineering. To our knowledge, this is the first demonstration that donor tissue from patients with Chiari malformation can be used to develop a benchtop model of traumatic brain injury. However, significant challenges in relation to the clinical availability of tissue were encountered, and we discuss logistical issues that must be considered for model scale-up. 展开更多
关键词 biomaterial Chiari malformation cerebellar slice human tissue injury model neuroregeneration ORGANOTYPIC traumatic brain injury
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Hypoxic preconditioning stimulates angiogenesis in ischemic penumbra after acute cerebral infarction 被引量:32
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作者 Sijie Li Yanbo Zhang +4 位作者 Guo Shao Mingfeng Yang Jingzhong Niu Guowei Lv Xunming Ji 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第31期2895-2903,共9页
Previous studies have demonstrated the protective effect of hypoxic preconditioning on acute cerebral infarction, but the mechanisms underlying this protection remain unclear. To investigate the protective mechanisms ... Previous studies have demonstrated the protective effect of hypoxic preconditioning on acute cerebral infarction, but the mechanisms underlying this protection remain unclear. To investigate the protective mechanisms of hypoxic preconditioning in relation to its effects on angiogenesis, we in- duced a photochemical model of cerebral infarction in an inbred line of mice (BALB/c). Mice were then exposed to hypoxic preconditioning 30 minutes prior to model establishment. Results showed significantly increased vascular endothelial growth factor and CD31 expression in the ischemic penumbra at 24 and 72 hours post infarction, mainly in neurons and vascular endothelial cells. Hypoxic preconditioning increased vascular endothelial growth factor and CD31 expression in the ischemic penumbra and the expression of vascular endothelial growth factor was positively related to that of CD31. Moreover, hypoxic preconditioning reduced the infarct volume and improved neu- rological function in mice. These findings indicate that the protective role of hypoxic preconditioning in acute cerebral infarction may possibly be due to an increase in expression of vascular endothelial growth factor and CD31 in the ischemic penumbra, which promoted angiogenesis. 展开更多
关键词 neural regeneration brain injury hypoxic preconditioning acute cerebral infarction ischemicpenumbra vascular endothelial growth factor CD31 ANGIOGENESIS NEUROPROTECTION grants-supported paper neuroregeneration
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Xueshuantong improves cerebral blood perfusion in elderly patients with lacunar infarction 被引量:27
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作者 Qifeng Gui Yunmei Yang +1 位作者 Shihong Ying Minming Zhang 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第9期792-801,共10页
A total of 64 patients with acute lacunar infarction were enrolled within 24 hours of onset. The patients received conventional therapy (antiplatelet drugs and hypolipidemic drugs) alone or conventional therapy plus... A total of 64 patients with acute lacunar infarction were enrolled within 24 hours of onset. The patients received conventional therapy (antiplatelet drugs and hypolipidemic drugs) alone or conventional therapy plus 450 mg Xueshuantong once a day. The main ingredient of the Xueshuantong lyophilized powder used for injection was Panax notoginseng saponins. Assessments were made at admission and at discharge using the National Institutes of Health Stroke Scale, the Activity of Daily Living and the Mini-Mental State Examination. Additionally, the relative cerebral blood flow, relative cerebral blood volume and relative mean transit time in the region of interest were calculated within 24 hours after the onset of lacunar infarction, using dynamic susceptibility contrast magnetic resonance perfusion imaging technology. Patients underwent a follow-up MRI scan after 4 weeks of treatment. There was an improvement in the Activity of Daily Living scores and a greater reduction in the scores on the National Institutes of Health Stroke Scale in the treatment group than in the control group. However, the Mini-Mental State Examination scores showed no significant differences after 4 weeks of treatment. Compared with the control group, the relative cerebral blood flow at discharge had increased and showed a greater improvement in the treatment group. Furthermore, there was a reduction in the relative mean transit time at discharge and the value was lower in the treatment group than in the control group. The experimental findings indicate that Xueshuantong treatment improves neurological deficits in elderly patients with lacunar infarction, and the mechanism may be related to increased cerebral perfusion. 展开更多
关键词 neural regeneration traditional Chinese medicine XUESHUANTONG cerebral perfusion lacunarinfarction Panax notoginseng saponins cerebrovascular disease neuroprotection grants-supported paper photographs-containing paper neuroregeneration
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Mild hypothermia as a treatment for central nervous system injuries Positive or negative effects? 被引量:25
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作者 Rami Darwazeh Yi Yan 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第28期2677-2686,共10页
Besides local neuronal damage caused by the primary insult, central nervous system injuries may secondarily cause a progressive cascade of related events including brain edema, ischemia, oxida- tive stress, excitotoxi... Besides local neuronal damage caused by the primary insult, central nervous system injuries may secondarily cause a progressive cascade of related events including brain edema, ischemia, oxida- tive stress, excitotoxicity, and dysregulation of calcium homeostasis. Hypothermia is a beneficial strategy in a variety of acute central nervous system injuries. Mild hypothermia can treat high in- tracranial pressure following traumatic brain injuries in adults. It is a new treatment that increases survival and quality of life for patients suffering from ischemic insults such as cardiac arrest, stroke, and neurogenic fever following brain trauma. Therapeutic hypothermia decreases free radical pro- duction, inflammation, excitotoxicity and intracranial pressure, and improves cerebral metabolism after traumatic brain injury and cerebral ischemia, thus protecting against central nervous system damage. Although a series of pathological and physiological changes as well as potential side ef- fects are observed during hypothermia treatment, it remains a potential therapeutic strategy for central nervous system injuries and deserves further study. 展开更多
关键词 neural regeneration REVIEWS brain injury spinal cord injury central nervous system injury mildhypothermia therapeutic hypothermia traumatic brain injury neuroregeneration
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Olive leaf extract inhibits lead poisoning-induced brain injury 被引量:21
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作者 Yu Wang Shengqing Wang +3 位作者 Wenhui Cui Jiujun He Zhenfu Wang Xiaolu Yang 《Neural Regeneration Research》 SCIE CAS CSCD 2013年第22期2021-2029,共9页
Olive leaves have an antioxidant capacity, and olive leaf extract can protect the blood, spleen and hippocampus in lead-poisoned mice. However, little is known about the effects of olive leaf extract on lead-induced b... Olive leaves have an antioxidant capacity, and olive leaf extract can protect the blood, spleen and hippocampus in lead-poisoned mice. However, little is known about the effects of olive leaf extract on lead-induced brain injury. This study was designed to determine whether olive leaf extract can inhibit lead-induced brain injury, and whether this effect is associated with antioxidant capacity. First, we established a mouse model of lead poisoning by continuous intragastric administration of lead acetate for 30 days. Two hours after successful model establishment, lead-poisoned mice were given olive leaf extract at doses of 250, 500 or 1 000 mg/kg daily by intragastric administration for 50 days. Under the transmission electron microscope, olive leaf extract attenuated neuronal and capillary injury and reduced damage to organelles and the matrix around the capillaries in the frontal lobe of the cerebral cortex in the lead-poisoned mice. Olive leaf extract at a dose of 1 000 mg/kg had the greatest protective effect. Spectrophotometry showed that olive leaf extract significantly in- creased the activities of superoxide dismutase, catalase, alkaline phosphatase and acid phes- phatase, while it reduced malondialdehyde content, in a dose-dependent manner. Furthermore, immunohistochemical staining revealed that olive leaf extract dose-dependently decreased Bax protein expression in the cerebral cortex of lead-poisoned mice. Our findings indicate that olive leaf extract can inhibit lead-induced brain injury by increasing antioxidant capacity and reducing apop- tosis. 展开更多
关键词 neural regeneration traditional Chinese medicine olive leaf extract lead brain injury SUPEROXIDEDISMUTASE CATALASE alkaline phosphatase acid phosphatase MALONDIALDEHYDE apoptosis neu-ropathology grants-supported paper neuroregeneration
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