脑损伤修复保护与再生研究.docx
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脑损伤修复保护与再生研究.docx
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脑损伤修复保护与再生研究
脑损伤修复保护与再生:
综述文章
○Systematicreviewoflong-termXingnaoKaiqiaoneedlingefficacyinischemicstroketreatment
醒脑开窍针刺治疗缺血性脑卒中:
远期疗效的系统评价
引用本文:
YangZX,XieJH,LiuYP,MiaoGX,WangYH,WuSM,LiY.Systematicreviewoflong-termXingnaoKaiqiaoneedlingefficacyinischemicstroketreatment.NeuralRegenRes.2015;10(4):
583-588.
doi:
10.4103/1673-5374.155431
○Encephalichemodynamicphasesinsubarachnoidhemorrhage:
howtoimprovetheprotectiveeffectinpatientprognoses
蛛网膜下腔出血脑血流动力学研究结果:
如何改善预后的保护措施?
引用本文:
deLimaOliveiraM,deAzevedoDS,deAzevedoMK,NogueiraRC,TeixeiraMJ,Bor-Seng-ShuE.Encephalichemodynamicphasesinsubarachnoidhemorrhage:
howtoimprovetheprotectiveeffectinpatientprognoses.NeuralRegenRes.2015;10(5):
748-752.
doi:
10.4103/1673-5374.156969
○NeuroimmunomodulatoryeffectsoftranscraniallasertherapycombinedwithintravenoustPAadministrationforacutecerebralischemicinjury
经颅激光与静脉注射tPA治疗急性缺血性脑损伤的神经免疫调节
引用本文:
PeplowPV.NeuroimmunomodulatoryeffectsoftranscraniallasertherapycombinedwithintravenoustPAadministrationforacutecerebralischemicinjury.NeuralRegenRes.2015;10(8):
1186-1190.
doi:
10.4103/1673-5374.162687
○NeuroinflammationandcomorbiditiesarefrequentlyignoredfactorsinCNSpathology
脑卒中转化道路上的绊脚石:
因为没有考虑合并症?
引用本文:
SanduRE,BugaAM,UzoniA,PetcuEB,Popa-WagnerA.NeuroinflammationandcomorbiditiesarefrequentlyignoredfactorsinCNSpathology.NeuralRegenRes.2015;10(9):
1349-1355.
doi:
10.4103/1673-5374.165208
○Ischemiclong-term-potentiation(iLTP):
perspectivestosetthethresholdofneuralplasticitytowardtherapy
设置治疗神经可塑性的门槛:
缺血长时程增强
引用本文:
LenzM,VlachosA,MaggioN.Ischemiclong-term-potentiation(iLTP):
perspectivestosetthethresholdofneuralplasticitytowardtherapy.NeuralRegenRes.2015;10(10):
1537-1539.
doi:
10.4103/1673-5374.165215
○Syntheticneurosteroidsonbrainprotection
合成神经甾体对脑的神经保护
引用本文:
ReyM,CoiriniH.Syntheticneurosteroidsonbrainprotection.NeuralRegenRes.2015;10
(1):
17-21.
doi:
10.4103/1673-5374.150640
脑损伤修复保护与再生:
观点文章
○Optimisingrepetitivetranscranialmagneticstimulationforneuralcircuitrepairfollowingtraumaticbraininjury
优化重复经颅刺激:
修复脑创伤后的神经回路
引用本文:
RodgerJ,SherrardRM.Optimisingrepetitivetranscranialmagneticstimulationforneuralcircuitrepairfollowingtraumaticbraininjury.NeuralRegenRes.2015;10(3):
357-359.
doi:
10.4103/1673-5374.153676
○Thekallikrein-kininsystem:
apromisingtherapeutictargetfortraumaticbraininjury
激肽释放酶-激肽系统:
创伤性脑损伤有前途的治疗靶点
引用本文:
HoppS,Albert-WeissenbergerC.Thekallikrein-kininsystem:
apromisingtherapeutictargetfortraumaticbraininjury.NeuralRegenRes.2015;10(6):
885-886.
doi:
10.4103/1673-5374.158339
○Circuitreorganizationincerebellarculturesafterinjury
小脑损伤后的神经回路重组
引用本文:
SeilFJ.Circuitreorganizationincerebellarculturesafterinjury.NeuralRegenRes.2015;10(7):
1045-1046.
doi:
10.4103/1673-5374.160073
○Novelrodentmodelsofpenetratingtraumaticbraininjury
穿透性颅脑损伤小鼠新模型
引用本文:
PlantmanS.Novelrodentmodelsofpenetratingtraumaticbraininjury.NeuralRegenRes.2015;10(7):
1047-1049.
doi:
10.4103/1673-5374.160074
○Anewtoolformonitoringbrainfunction:
eyetrackinggoesbeyondassessingattentiontomeasuringcentralnervoussystemphysiology
心电图与脑功能:
眼球跟踪评估创伤性损伤及脑功能的变化
引用本文:
SamadaniU.Anewtoolformonitoringbrainfunction:
eyetrackinggoesbeyondassessingattentiontomeasuringcentralnervoussystemphysiology.NeuralRegenRes.2015;10(8):
1231-1233.
doi:
10.4103/1673-5374.162752
○Targetingα7nicotinicacetylcholinereceptors:
afuturepotentialforneuroprotectionfromtraumaticbraininjury
烟碱乙酰胆碱受体:
有希望成为对创伤性脑损伤神经保护的标靶
引用本文:
ShinSS,DixonCE.Targetingα7nicotinicacetylcholinereceptors:
afuturepotentialforneuroprotectionfromtraumaticbraininjury.NeuralRegenRes.2015;10(10):
1552-1554.
doi:
10.4103/1673-5374.165309
○Animalmodelofrepetitivemildtraumaticbraininjuryforhumantraumaticaxonalinjuryandchronictraumaticencephalopathy
构建更适应人类创伤性轴突损伤的慢性颅脑损伤动物模型
引用本文:
XuL.Animalmodelofrepetitivemildtraumaticbraininjuryforhumantraumaticaxonalinjuryandchronictraumaticencephalopathy.NeuralRegenRes.2015;10(11):
1731-1732.
doi:
10.4103/1673-5374.165319
○Hypertonicsaline:
abriefoverviewofhemodynamicresponseandanti-inflammatorypropertiesinheadinjury
高渗盐水促进头部创伤恢复
引用本文:
deOliveiraMF,PintoFCG.Hypertonicsaline:
abriefoverviewofhemodynamicresponseandanti-inflammatorypropertiesinheadinjury.NeuralRegenRes.2015;10(12):
1938-1939.
doi:
10.4103/1673-5374.169620
○Withaniasomnifera:
apre-clinicalstudyonneuroregenerativetherapyforstroke
醉茄水提物对脑卒中的神经保护
引用本文:
RaghavanA,ShahZA.Withaniasomnifera:
apre-clinicalstudyonneuroregenerativetherapyforstroke.NeuralRegenRes.2015;10
(2):
183-185.
doi:
10.4103/1673-5374.152362
○Empoweringsonichedgehogtorescuebraincellsafterischemicstroke
音猬因子能够在缺血性脑卒中后“营救”损伤的大脑细胞
引用本文:
ChechnevaOV,DengW.Empoweringsonichedgehogtorescuebraincellsafterischemicstroke.NeuralRegenRes.2015;10(3):
360-362.
doi:
10.4103/1673-5374.153677
○Acasetobemade:
theoreticalandempiricalargumentsfortheneedtoconsiderfatigueinpost-strokemotorrehabilitation
脑卒中后神经可塑性训练:
运动康复疲劳的理论与实证论据
引用本文:
SterrA,FurlanL.Acasetobemade:
theoreticalandempiricalargumentsfortheneedtoconsiderfatigueinpost-strokemotorrehabilitation.NeuralRegenRes.2015;10(8):
1195-1197.
doi:
10.4103/1673-5374.162689
○Combiningmotorlearningandbrainstimulationtoenhancepost-strokeneurorehabilitation
运动学习联合大脑刺激改善脑卒中后的神经可塑性
引用本文:
VandermeerenY,LefebvreS.Combiningmotorlearningandbrainstimulationtoenhancepost-strokeneurorehabilitation.NeuralRegenRes.2015;10(8):
1218-1220.
doi:
10.4103/1673-5374.158483
○Theneuroprotectiveeffectsof(S)-3,5-dihydroxyphenylglycinepreconditioninginmiddlecerebralarteryoccludedrats:
aperspectiveasacontrivanceforstroke
(S)-3,5-二羟苯甘氨酸预处理对大鼠大脑中动脉缺血损伤的神经保护:
对卒中的治疗意义
引用本文:
NikRamliNN,SiranR.Theneuroprotectiveeffectsof(S)-3,5-dihydroxyphenylglycinepreconditioninginmiddlecerebralarteryoccludedrats:
aperspectiveasacontrivanceforstroke.NeuralRegenRes.2015;10(8):
1221-1222.
doi:
10.4103/1673-5374.162748
○ImmunizationwithCop-1promotesneuroprotectionandneurogenesisafterischemicstroke
共聚物-1治疗缺血性卒中可促进神经保护和神经发生
引用本文:
CruzY,Suárez-MeadeP,IbarraA.ImmunizationwithCop-1promotesneuroprotectionandneurogenesisafterischemicstroke.NeuralRegenRes.2015;10(11):
1733-1734.
doi:
10.4103/1673-5374.165288
○Breakingoutfromtheneuroprotectivelogjam:
combinedtreatmentwithremoteischemicconditioningandminocyclineintheprehospitalsetting
打破“神经保护”僵局:
院前条件下远程缺血性调控及米诺环素的联合治疗
引用本文:
ParkJM,HessDC.Breakingoutfromtheneuroprotectivelogjam:
combinedtreatmentwithremoteischemicconditioningandminocyclineintheprehospitalsetting.NeuralRegenRes.2015;10(4):
537-539.
doi:
10.4103/1673-5374.155413
○Oleanolicacid,apromisingneuroprotectiveagentforcerebralischemia
齐墩果酸:
一种对脑缺血很有前途的神经保护剂
引用本文:
CaltanaL,NietoML,BruscoA.Oleanolicacid,apromisingneuroprotectiveagentforcerebralischemia.NeuralRegenRes.2015;10(4):
540-541.
doi:
10.4103/1673-5374.155414
○Towardsreperfusion-centricpreclinicalstrokeresearch:
outsidetheboxof“reperfusioninjury”
以再灌注为中心治疗缺血性脑卒中的临床前研究:
谁在保护受损神经元?
引用本文:
KuanCY,SunYY.Towardsreperfusion-centricpreclinicalstrokeresearch:
outsidetheboxof“reperfusioninjury”.NeuralRegenRes.2015;10(4):
534-536.
doi:
10.4103/1673-5374.155412
○Argon:
anoveltherapeuticoptiontotreatneuronalischemiaandreperfusioninjuries?
氩:
保护神经元缺血再灌注损伤的新方案?
引用本文:
UlbrichF,GoebelU.Argon:
anoveltherapeuticoptiontotreatneuronalischemiaandreperfusioninjuries?
NeuralRegenRes.2015;10(7):
1043-1044.
doi:
10.4103/1673-5374.160071
○Neuroprotectiveeffectsofatorvastatinagainstcerebralischemia/reperfusioninjurythroughtheinhibitionofendoplasmicreticulumstress
阿托伐他汀对脑缺血再灌注损伤的神经保护:
与抑制内质网应激有关
引用本文:
YangJW,HuZP.Neuroprotectiveeffectsofatorvastatinagainstcerebralischemia/reperfusioninjurythroughtheinhibitionofendoplasmicreticulumstress.NeuralRegenRes.2015;10(8):
1239-1244.
doi:
10.4103/1673-5374.162755
○Attenuationofendoplasmicreticulumstressasatreatmentstrategyagainstischemia/reperfusioninjury
内质网应激:
保护神经元免受再灌注缺血损伤的策略
引用本文:
LinCL.Attenuationofendoplasmicreticulumstressasatreatmentstrategyagainstischemia/reperfusioninjury.NeuralRegenRes.2015;10(12):
1930-1931.
doi:
10.4103/1673-5374.169615
○Acutecarbonmonoxidepoisoninganddelayedneurologicalsequelae:
apotentialneuroprotectionbundletherapy
急性一氧化碳中毒脑损伤及延迟神经后遗症的神经保护治疗:
捆绑疗法
引用本文:
OhS,ChoiSC.Acutecarbonmonoxidepoisoninganddelayedneurologicalsequelae:
apotentialneuroprotectionbundletherapy.NeuralRegenRes.2015;10
(1):
36-38.
doi:
10.4103/1673-5374.150644
○Fractalkine:
multiplestrategiestocounteractglutamatereceptorsactivationleadingtoneuroprotection
分形趋化因子:
多种策略抵消脑实质兴奋毒性损伤并引导神经保护作用
引用本文:
LauroC.Fractalkine:
multiplestrategiestocounteractglutamatereceptorsactivationleadingtoneuroprotection.NeuralRegenRes.2015;10(8):
1214-1215.
doi:
10.4103/1673-5374.162697
○Prediabetesandtype2diabetesimplicationincentralproliferationandneurogenesis
糖尿病前期和2型糖尿病在脑神经元增殖和神经发生中的意义
引用本文:
Infante-GarciaC,Ramos-RodriguezJJ,Garcia-AllozaM.Prediabetesandtype2diabetesimplicationincentralproliferationandneurogenesis.NeuralRegenRes.2015;10
(1):
28-29.
doi:
10.4103/1673-5374.150646
○Acupuncture:
apotenttherapeutictoolforinducingadultneurogenesis
针灸:
诱导成年大脑神经发生及治疗脑疾的有效方法
引用本文:
NamMH,AhnKS,ChoiSH.Acupuncture:
apotenttherapeutictoolforinducingad
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- 关 键 词:
- 脑损伤 修复 保护 再生 研究