Motor improvements after focal cortical ischemia in adult rats are mediated by compensatory mechanisms.
about
Genomic and epigenomic responses to chronic stress involve miRNA-mediated programmingAre we ready for a natural history of motor learning?Gene expression changes in the motor cortex mediating motor skill learningThe vermicelli handling test: a simple quantitative measure of dexterous forepaw function in ratsVolumetric effects of motor cortex injury on recovery of dexterous movementsWhat is the evidence for use dependent learning after stroke?Evidence for Ancestral Programming of Resilience in a Two-Hit Stress ModelSensorimotor experience influences recovery of forelimb abilities but not tissue loss after focal cortical compression in adult rats.Compensatory motor control after stroke: an alternative joint strategy for object-dependent shaping of hand posture.Rehabilitative training promotes rapid motor recovery but delayed motor map reorganization in a rat cortical ischemic infarct modelRecovery from ischemia in the middle-aged brain: a nonhuman primate model.Laser system refinements to reduce variability in infarct size in the rat photothrombotic stroke model.Barriers to developing a valid rodent model of Alzheimer's disease: from behavioral analysis to etiological mechanismsLongitudinal changes in resting-state brain activity in a capsular infarct modelLearning fast accurate movements requires intact frontostriatal circuits.Synergistic effects of age and stress in a rodent model of stroke.Delayed recovery and exaggerated infarct size by post-lesion stress in a rat model of focal cerebral stroke.Motor and premotor cortices in subcortical stroke: proton magnetic resonance spectroscopy measures and arm motor impairment.Functional assessments in the rodent stroke model.Transcranial direct current stimulation in stroke rehabilitation: a review of recent advancementsNoninvasive strategies to promote functional recovery after stroke.Translational Hurdles in Stroke Recovery Studies.Concise Review: Increasing the Validity of Cerebrovascular Disease Models and Experimental Methods for Translational Stem Cell Research.Understanding the Mechanisms of Recovery and/or Compensation following InjuryModification of the ladder rung walking task-new options for analysis of skilled movementsCapsular stroke modeling based on somatotopic mapping of motor fibers.Circumscribed Capsular Infarct Modeling Using a Photothrombotic Technique.Long-term functional recovery and compensation after cerebral ischemia in ratsGetting neurorehabilitation right: what can be learned from animal models?Coordinated plasticity of synapses and astrocytes underlies practice-driven functional vicariation in peri-infarct motor cortex.Task-specific compensation and recovery following focal motor cortex lesion in stressed rats.Inosine enhances recovery of grasp following cortical injury to the primary motor cortex of the rhesus monkey.How do we assess regenerative success after stem cell implantation? An experimental approach.Serial pattern learning during skilled walking.Rewiring of the corticospinal tract in the adult rat after unilateral stroke and anti-Nogo-A therapy.
P2860
Q21134921-65FAFEB2-D428-416F-88E0-1694CD869E99Q24633804-7463873F-9EC6-4FC4-9B4E-6B6EC6F863D2Q28486882-F70D25FA-114A-4E4F-A8A6-0771974EBC5EQ30482038-572FF05A-7A06-49ED-8817-635E3D7E3F81Q30491714-D9439551-FF8D-4614-A913-DEB0855625C9Q33390909-CD7E6E64-67F0-4E0A-BB7D-9EF16ED08F7BQ33659063-0B750DEF-0810-449E-AB7F-FEBAD1C9EC60Q33832142-51E874CE-9864-472B-B59F-7220E2BA09D4Q33923544-6D602EC1-985A-46F2-AA85-19BC6FEA3FB2Q35002232-5D5AFA59-8930-4DDC-93D2-A25FE0E67160Q35132000-8D947476-DB17-4AC6-B4CE-6BCF024662DAQ35594906-B901CA56-128D-4CFA-853E-F5721550934EQ35898532-EF90B0DC-F3D6-4BC8-A9F4-C071F77B6EB3Q36745846-96F83A76-510C-4A4D-A9CE-774C5F2AF6ABQ37303832-33B88395-7A4A-4C31-B30A-C96F9ADE3003Q37574454-FA88C2E0-F236-4A46-903E-A767A8CE29AFQ37574464-AC8BE46B-C03F-4178-9B9C-AD110F3AB8E1Q37618970-3DFE15DD-62AF-4A13-B122-5E5345FE87C1Q37774041-ED040E12-759B-4B85-B7FA-EE58FA3658A1Q38093615-EAD6564E-CF45-45DA-8571-B9966EBD83DAQ38122368-0B6262AF-3038-4A63-9089-B6D0BC173156Q38783958-C33EFF5B-01E7-46F0-88A5-1B6EE07F0786Q39138693-476950D0-163A-4563-AE8F-13F7B56FCE1FQ39312320-C3FDDC77-96CD-4C41-B8DB-FDF691BB28D5Q39375561-6C1D240D-88C3-4308-AA17-7201835FF1E0Q40478596-AAF9C0E6-ED87-4FC8-978F-B1C10D7A62A0Q40708545-DEA6E431-9779-4DDD-AFBF-366E92F1C90BQ42728363-118BACA1-BCFA-4F59-8803-546A01ECED07Q42968754-F4527595-D1A8-4C79-B0F8-2D41DB56436BQ46985334-FE774437-2B84-412B-9A57-BC1849A7692DQ48457185-3DF25DE2-20D0-4E28-A073-9B63A6513757Q48585178-7B4750C1-6629-48DA-83FF-3439CFC3A64AQ49058571-3D718EF8-3980-4C74-911E-DEAE284BC532Q50798880-2E2208C5-A60D-481B-8ADD-0F7D611BE299Q54416259-D4FB6CEE-D3C6-4E07-AA90-F96DFEFD54E9
P2860
Motor improvements after focal cortical ischemia in adult rats are mediated by compensatory mechanisms.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Motor improvements after focal ...... ed by compensatory mechanisms.
@en
Motor improvements after focal ...... ed by compensatory mechanisms.
@nl
type
label
Motor improvements after focal ...... ed by compensatory mechanisms.
@en
Motor improvements after focal ...... ed by compensatory mechanisms.
@nl
prefLabel
Motor improvements after focal ...... ed by compensatory mechanisms.
@en
Motor improvements after focal ...... ed by compensatory mechanisms.
@nl
P1476
Motor improvements after focal ...... ed by compensatory mechanisms.
@en
P2093
Iwa Antonow-Schlorke
Otto W Witte
P356
10.1016/J.BBR.2005.03.002
P407
P577
2005-03-28T00:00:00Z