| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1002/ANA.20845 |
| P8608 | Fatcat ID | release_fxi7x4ik3vftdmzgf7crrjiote |
| P698 | PubMed publication ID | 16634041 |
| P50 | author | S Thomas Carmichael | Q52089504 |
| P2093 | author name string | S Thomas Carmichael | |
| P433 | issue | 5 | |
| P304 | page(s) | 735-742 | |
| P577 | publication date | 2006-05-01 | |
| P1433 | published in | Annals of Neurology | Q564414 |
| P1476 | title | Cellular and molecular mechanisms of neural repair after stroke: making waves | |
| P478 | volume | 59 |
| Q33793133 | 2013 Thomas Willis Award Lecture: Causation and collaboration for stroke research |
| Q33493402 | A model for cortical rewiring following deafferentation and focal stroke |
| Q35735639 | A multi-center study on low-frequency rTMS combined with intensive occupational therapy for upper limb hemiparesis in post-stroke patients. |
| Q36170813 | A role for ephrin-A5 in axonal sprouting, recovery, and activity-dependent plasticity after stroke |
| Q41344359 | AMPA receptor-induced local brain-derived neurotrophic factor signaling mediates motor recovery after stroke |
| Q45226946 | Accumulation of micron sized iron oxide particles in endothelin-1 induced focal cortical ischemia in rats is independent of cell migration |
| Q37218058 | Age-dependent exacerbation of white matter stroke outcomes: a role for oxidative damage and inflammatory mediators. |
| Q45963344 | Agreed Definitions and a Shared Vision for New Standards in Stroke Recovery Research: The Stroke Recovery and Rehabilitation Roundtable Taskforce. |
| Q52089447 | Agreed definitions and a shared vision for new standards in stroke recovery research: The Stroke Recovery and Rehabilitation Roundtable taskforce. |
| Q46163587 | Altered resting-state functional activity in isolated pontine infarction patients with pathological laughing and crying |
| Q37578444 | An adaptive role for BDNF Val66Met polymorphism in motor recovery in chronic stroke |
| Q34688738 | An age-related sprouting transcriptome provides molecular control of axonal sprouting after stroke. |
| Q52582073 | Apolipoprotein D is elevated in oligodendrocytes in the peri-infarct region after experimental stroke: influence of enriched environment. |
| Q37432078 | Apoptosis signal-regulating kinase 1 (ASK1) is linked to neural stem cell differentiation after ischemic brain injury |
| Q38603996 | Astrocytes, therapeutic targets for neuroprotection and neurorestoration in ischemic stroke |
| Q27490746 | Astrocytes: biology and pathology |
| Q35758451 | Attenuation of Cerebral Ischemic Injury in Smad1 Deficient Mice |
| Q41882318 | Attenuation of opioid tolerance by ETB receptor agonist, IRL-1620, is independent of an accompanied decrease in nerve growth factor in mice |
| Q38841419 | Axonal remodeling in the corticospinal tract after stroke: how does rehabilitative training modulate it? |
| Q33278854 | Axonal sprouting into the denervated spinal cord and synaptic and postsynaptic protein expression in the spinal cord after transplantation of bone marrow stromal cell in stroke rats |
| Q37319275 | Biomarkers of recovery after stroke |
| Q26747619 | Biomaterial Applications in Cell-Based Therapy in Experimental Stroke |
| Q33958993 | Bone marrow stromal cells enhance inter- and intracortical axonal connections after ischemic stroke in adult rats |
| Q42597974 | Brain Aging and Regeneration after Injuries: an Organismal approach |
| Q48704996 | Brain Connectivity and Functional Recovery in Patients With Ischemic Stroke. |
| Q37228777 | Brain extracellular matrix in neurodegeneration |
| Q35275863 | Brain regeneration in Drosophila involves comparison of neuronal fitness |
| Q28073809 | Brain stimulation: Neuromodulation as a potential treatment for motor recovery following traumatic brain injury |
| Q41886571 | Brain-computer interface with somatosensory feedback improves functional recovery from severe hemiplegia due to chronic stroke |
| Q33384358 | Brain-mapping techniques for evaluating poststroke recovery and rehabilitation: a review |
| Q36130681 | Can endocrine disruptors influence neuroplasticity in the aging brain? |
| Q35170310 | Cardiovascular fitness training for a patient in the early stages of recovery post stroke |
| Q47793278 | Caspase-3 modulates regenerative response after stroke |
| Q38054640 | Cerebral network disorders after stroke: evidence from imaging-based connectivity analyses of active and resting brain states in humans |
| Q48227611 | Changes in host blood factors and brain glia accompanying the functional recovery after systemic administration of bone marrow stem cells in ischemic stroke rats |
| Q45705698 | Changes in thyroid hormone receptors after permanent cerebral ischemia in male rats |
| Q42089531 | Chronic electrical stimulation of the contralesional lateral cerebellar nucleus enhances recovery of motor function after cerebral ischemia in rats. |
| Q35911111 | Ciliary neurotrophic factor is not required for terminal sprouting and compensatory reinnervation of neuromuscular synapses: re-evaluation of CNTF null mice |
| Q38670273 | Cofilin as a Promising Therapeutic Target for Ischemic and Hemorrhagic Stroke |
| Q38985951 | Coherent neural oscillations predict future motor and language improvement after stroke |
| Q35130257 | Combining BMI Stimulation and Mathematical Modeling for Acute Stroke Recovery and Neural Repair |
| Q33515416 | Comparing unilateral and bilateral upper limb training: the ULTRA-stroke program design |
| Q36685516 | Confounders in rehabilitation trials of task-oriented training: lessons from the designs of the EXCITE and SCILT multicenter trials |
| Q38639816 | Contralesional Hemisphere Regulation of Transcranial Magnetic Stimulation-Induced Kinetic Coupling in the Poststroke Lower Limb |
| Q36994034 | Contralesional axonal remodeling of the corticospinal system in adult rats after stroke and bone marrow stromal cell treatment |
| Q37452907 | Contribution of the resting-state functional connectivity of the contralesional primary sensorimotor cortex to motor recovery after subcortical stroke |
| Q46985334 | Coordinated plasticity of synapses and astrocytes underlies practice-driven functional vicariation in peri-infarct motor cortex |
| Q37963890 | Cortical plasticity during motor learning and recovery after ischemic stroke |
| Q35713175 | Corticospinal responses of quadriceps are abnormally coupled with hip adductors in chronic stroke survivors |
| Q28648246 | Critical periods after stroke study: translating animal stroke recovery experiments into a clinical trial |
| Q35885998 | Crosstalk between oligodendrocytes and cerebral endothelium contributes to vascular remodeling after white matter injury |
| Q33904296 | Curiosity and cure: translational research strategies for neural repair-mediated rehabilitation |
| Q48445336 | Cystamine improves functional recovery via axon remodeling and neuroprotection after stroke in mice |
| Q36272544 | Daidzein Augments Cholesterol Homeostasis via ApoE to Promote Functional Recovery in Chronic Stroke |
| Q41125191 | Delayed inhibition of VEGF signaling after stroke attenuates blood-brain barrier breakdown and improves functional recovery in a comorbidity-dependent manner. |
| Q50552019 | Delayed restraint procedure enhances cognitive recovery of spatial function after fimbria-fornix transection. |
| Q64258035 | Delayed treatment of α5 GABAA receptor inverse agonist improves functional recovery by enhancing neurogenesis after cerebral ischemia-reperfusion injury in rat MCAO model |
| Q35881817 | Delivery of iPS-NPCs to the Stroke Cavity within a Hyaluronic Acid Matrix Promotes the Differentiation of Transplanted Cells. |
| Q37183514 | Depression: A repair response to stress-induced neuronal microdamage that can grade into a chronic neuroinflammatory condition? |
| Q38644337 | Development of epilepsy after ischaemic stroke. |
| Q37866718 | Deviating from the well travelled path: precursor cell migration in the pathological adult mammalian brain. |
| Q37288409 | Diffusion tensor and volumetric magnetic resonance imaging using an MR-compatible hand-induced robotic device suggests training-induced neuroplasticity in patients with chronic stroke |
| Q38775748 | Does time heal all wounds? Experimental diffuse traumatic brain injury results in persisting histopathology in the thalamus. |
| Q88764736 | Dual-function injectable angiogenic biomaterial for the repair of brain tissue following stroke |
| Q47979819 | Early Rehabilitation After Stroke: a Narrative Review |
| Q58762229 | Effect of Combined Treatment with MLC601 (NeuroAiDTM) and Rehabilitation on Post-Stroke Recovery: The CHIMES and CHIMES-E Studies |
| Q90295794 | Effect of Silk Fibroin on Neuroregeneration After Traumatic Brain Injury |
| Q37694154 | Effect of task-specific training on Eph/ephrin expression after stroke |
| Q42717944 | Effects of Gualou Guizhi Decoction Aqueous Extract on Axonal Regeneration in Organotypic Cortical Slice Culture after Oxygen-Glucose Deprivation. |
| Q30405097 | Effects of practice and experience on the arcuate fasciculus: comparing singers, instrumentalists, and non-musicians |
| Q51760596 | Efficacy of Occupational Therapy Task-oriented Approach in Upper Extremity Post-stroke Rehabilitation. |
| Q36899329 | Electrophysiological neurodifferentiation of subventricular zone-derived precursor cells following stroke |
| Q36567408 | Emerging molecular targets for brain repair after stroke |
| Q27303584 | Enhanced phasic GABA inhibition during the repair phase of stroke: a novel therapeutic target |
| Q41982186 | Enhancement of psychotherapy using epigenetic modulating drugs |
| Q46711980 | Enhancing the Alignment of the Preclinical and Clinical Stroke Recovery Research Pipeline: Consensus-Based Core Recommendations From the Stroke Recovery and Rehabilitation Roundtable Translational Working Group |
| Q45959205 | Enhancing the alignment of the preclinical and clinical stroke recovery research pipeline: Consensus-based core recommendations from the Stroke Recovery and Rehabilitation Roundtable translational working group. |
| Q45923598 | Enriched environment reduces apolipoprotein E (ApoE) in reactive astrocytes and attenuates inflammation of the peri-infarct tissue after experimental stroke. |
| Q27312472 | Enriched housing enhances recovery of limb placement ability and reduces aggrecan-containing perineuronal nets in the rat somatosensory cortex after experimental stroke |
| Q91783160 | Environmental enrichment during the chronic phase after experimental stroke promotes functional recovery without synergistic effects of EphA4 targeted therapy |
| Q35220512 | Epigenetic mechanisms of neuroplasticity and the implications for stroke recovery. |
| Q37731533 | Erythropoietin in stroke: quo vadis |
| Q37324227 | Experience--a double edged sword for restorative neural plasticity after brain damage |
| Q37881080 | Experience-dependent neural plasticity in the adult damaged brain |
| Q47926939 | Expression of Class I Histone Deacetylases in Ipsilateral and Contralateral Hemispheres after the Focal Photothrombotic Infarction in the Mouse Brain |
| Q34618349 | Extensive turnover of dendritic spines and vascular remodeling in cortical tissues recovering from stroke |
| Q36307057 | Extracellular Matrix Modulation Is Driven by Experience-Dependent Plasticity During Stroke Recovery. |
| Q26824693 | Eyeing central neurons in vascular growth and reparative angiogenesis |
| Q38229015 | Finding an optimal rehabilitation paradigm after stroke: enhancing fiber growth and training of the brain at the right moment |
| Q39110255 | Focal damage to the adult rat neocortex induces wound healing accompanied by axonal sprouting and dendritic structural plasticity |
| Q30552041 | From singing to speaking: facilitating recovery from nonfluent aphasia |
| Q37789947 | From the vascular microenvironment to neurogenesis |
| Q33360425 | Functional neuroimaging in stroke recovery and neurorehabilitation: conceptual issues and perspectives |
| Q34380550 | Functional up-regulation of endopeptidase neurolysin during post-acute and early recovery phases of experimental stroke in mouse brain |
| Q34347423 | Gene expression changes of interconnected spared cortical neurons 7 days after ischemic infarct of the primary motor cortex in the rat. |
| Q34627311 | Genetic variation at the BDNF locus: evidence for association with long-term outcome after ischemic stroke |
| Q42968754 | Getting neurorehabilitation right: what can be learned from animal models? |
| Q26823623 | Glycosaminoglycans and glycomimetics in the central nervous system |
| Q36703858 | High-mobility group box 1 from reactive astrocytes enhances the accumulation of endothelial progenitor cells in damaged white matter |
| Q42248891 | Homeostatic structural plasticity can account for topology changes following deafferentation and focal stroke |
| Q42062474 | How does the motor relearning program improve neurological function of brain ischemia monkeys? |
| Q38090924 | Hyaluronan, neural stem cells and tissue reconstruction after acute ischemic stroke. |
| Q36419960 | Hydrogel matrix to support stem cell survival after brain transplantation in stroke. |
| Q92718156 | Hypothermia: Impact on plasticity following brain injury |
| Q45957068 | Identifying Neuroimaging Markers of Motor Disability in Acute Stroke by Machine Learning Techniques. |
| Q37261687 | Imaging rapid redistribution of sensory-evoked depolarization through existing cortical pathways after targeted stroke in mice |
| Q38692700 | Importance and Difficulties of Pursuing rTMS Research in Acute Stroke |
| Q47613554 | In vivo calcium imaging reveals functional rewiring of single somatosensory neurons after stroke |
| Q48749814 | In vivo voltage-sensitive dye imaging in adult mice reveals that somatosensory maps lost to stroke are replaced over weeks by new structural and functional circuits with prolonged modes of activation within both the peri-infarct zone and distant sit |
| Q36679022 | Influence of inflammation on poststroke plasticity |
| Q33474266 | Inosine alters gene expression and axonal projections in neurons contralateral to a cortical infarct and improves skilled use of the impaired limb |
| Q48585178 | Inosine enhances recovery of grasp following cortical injury to the primary motor cortex of the rhesus monkey |
| Q37090130 | Intensive sensorimotor arm training mediated by therapist or robot improves hemiparesis in patients with chronic stroke |
| Q35037440 | Ischemic neurons prevent vascular regeneration of neural tissue by secreting semaphorin 3A |
| Q39910657 | Late exercise reduces neuroinflammation and cognitive dysfunction after traumatic brain injury. |
| Q42003080 | Lengthening the G(1) phase of neural progenitor cells is concurrent with an increase of symmetric neuron generating division after stroke |
| Q34718394 | Livin' on the edge: imaging dendritic spine turnover in the peri-infarct zone during ischemic stroke and recovery |
| Q42138251 | Long-term monitoring of post-stroke plasticity after transient cerebral ischemia in mice using in vivo and ex vivo diffusion tensor MRI |
| Q47972548 | Longitudinal Structural and Functional Differences Between Proportional and Poor Motor Recovery After Stroke. |
| Q91885413 | Longitudinal optical coherence tomography imaging of tissue repair and microvasculature regeneration and function after targeted cerebral ischemia |
| Q39231384 | Magnetic resonance imaging of local and remote vascular remodelling after experimental stroke |
| Q37323470 | Maladaptive effects of learning with the less-affected forelimb after focal cortical infarcts in rats |
| Q36082499 | Maladaptive plasticity for motor recovery after stroke: mechanisms and approaches. |
| Q37656572 | Management of patients with stroke: is it time to expand treatment options? |
| Q81561974 | Manganese-enhanced MRI of brain plasticity in relation to functional recovery after experimental stroke |
| Q35111696 | Manufacturing neurons from human embryonic stem cells: biological and regulatory aspects to develop a safe cellular product for stroke cell therapy |
| Q26998918 | Mechanisms of perinatal arterial ischemic stroke |
| Q42725508 | Medial premotor cortex shows a reduction in inhibitory markers and mediates recovery in a mouse model of focal stroke |
| Q37995016 | Mesenchymal stem cells as a treatment for neonatal ischemic brain damage |
| Q48465778 | Mesenchymal stem cells restore cortical rewiring after neonatal ischemia in mice. |
| Q30940972 | Microglial involvement in neuroplastic changes following focal brain ischemia in rats |
| Q92707590 | Modeling poststroke epilepsy and preclinical development of drugs for poststroke epilepsy |
| Q44310626 | Modifying expression of EphA4 and its downstream targets improves functional recovery after stroke |
| Q37634551 | Molecular targets for axon regeneration: focus on the intrinsic pathways |
| Q55403959 | Motor Improvement of Skilled Forelimb Use Induced by Treatment with Growth Hormone and Rehabilitation Is Dependent on the Onset of the Treatment after Cortical Ablation. |
| Q26795480 | Motor System Reorganization After Stroke: Stimulating and Training Toward Perfection |
| Q34346914 | Motor system plasticity in stroke models: intrinsically use-dependent, unreliably useful. |
| Q46775257 | Neural Reorganization Due to Neonatal Amygdala Lesions in the Rhesus Monkey: Changes in Morphology and Network Structure. |
| Q82923649 | Neural substrates of sound-touch synesthesia after a thalamic lesion |
| Q48717701 | Neuronal repair. Asynchronous therapy restores motor control by rewiring of the rat corticospinal tract after stroke |
| Q35676171 | Neuropilin-1 is a direct target of the transcription factor E2F1 during cerebral ischemia-induced neuronal death in vivo. |
| Q37703086 | Neuroplastic Changes Following Brain Ischemia and their Contribution to Stroke Recovery: Novel Approaches in Neurorehabilitation. |
| Q36950735 | Neuroplasticity in the context of motor rehabilitation after stroke. |
| Q41504508 | Neuroprotection in preterm infants |
| Q58267476 | Neurorestorative effect of erythropoietin and environmental enrichment in the early stage of stroke recovery |
| Q37307355 | Neurorestorative therapies for stroke: underlying mechanisms and translation to the clinic |
| Q38174779 | Neurovascular remodeling in the aged ischemic brain |
| Q57793752 | Noninvasive Brain Stimulation to Enhance Functional Recovery After Stroke: Studies in Animal Models |
| Q38050787 | Noninvasive brain stimulation for motor recovery after stroke: mechanisms and future views. |
| Q42244794 | Oligodendrocyte degeneration and recovery after focal cerebral ischemia. |
| Q58569369 | Online Family Problem-solving Treatment for Pediatric Traumatic Brain Injury |
| Q33636930 | Optimizing the success of cell transplantation therapy for stroke |
| Q30739355 | Optogenetic Approaches to Target Specific Neural Circuits in Post-stroke Recovery |
| Q48158771 | Optogenetic mapping after stroke reveals network-wide scaling of functional connections and heterogeneous recovery of the peri-infarct. |
| Q33670730 | PEGylated insulin-like growth factor-I affords protection and facilitates recovery of lost functions post-focal ischemia. |
| Q42442987 | Paradoxical Motor Recovery From a First Stroke After Induction of a Second Stroke: Reopening a Postischemic Sensitive Period |
| Q41831739 | Perisynaptic GABA Receptors The Overzealous Protector. |
| Q26777826 | Perturbation of Brain Oscillations after Ischemic Stroke: A Potential Biomarker for Post-Stroke Function and Therapy |
| Q58941602 | Pharmacotherapy in stroke rehabilitation |
| Q37270704 | Physical Exercise Preserves Adult Visual Plasticity in Mice and Restores it after a Stroke in the Somatosensory Cortex |
| Q58722282 | Plasma microRNA markers of upper limb recovery following human stroke |
| Q36608794 | Plasticity |
| Q37627168 | Plasticity during stroke recovery: from synapse to behaviour. |
| Q64267638 | Post-stroke neuronal circuits and mental illnesses |
| Q37093185 | Post-stroke protection from maladaptive effects of learning with the non-paretic forelimb by bimanual home cage experience in C57BL/6 mice |
| Q28510690 | Postnatal deletion of Numb/Numblike reveals repair and remodeling capacity in the subventricular neurogenic niche |
| Q38101167 | Poststroke depression: a review emphasizing the role of prophylactic treatment and synergy with treatment for motor recovery |
| Q34020263 | Promoting axonal rewiring to improve outcome after stroke |
| Q37660239 | Promoting brain remodelling and plasticity for stroke recovery: therapeutic promise and potential pitfalls of clinical translation |
| Q38675024 | Promoting recovery from ischemic stroke |
| Q36055338 | Protein Synthesis Inhibition in the Peri-Infarct Cortex Slows Motor Recovery in Rats. |
| Q38181737 | Reactive gliosis and the multicellular response to CNS damage and disease. |
| Q41907120 | Recent advances in the treatment of post-stroke aphasia |
| Q26866404 | Recovery after brain injury: mechanisms and principles |
| Q35132000 | Recovery from ischemia in the middle-aged brain: a nonhuman primate model. |
| Q64912644 | Recovery of fine motor performance after ischemic damage to motor cortex is facilitated by cell therapy in the rhesus monkey. |
| Q30498781 | Reducing excessive GABA-mediated tonic inhibition promotes functional recovery after stroke. |
| Q37890315 | Reflections of experience-expectant development in repair of the adult damaged brain. |
| Q38112131 | Rehabilitation with poststroke motor recovery: a review with a focus on neural plasticity |
| Q90068470 | Rehabilitative Training Interacts with Ischemia-Instigated Spine Dynamics to Promote a Lasting Population of New Synapses in Peri-Infarct Motor Cortex |
| Q35002232 | Rehabilitative training promotes rapid motor recovery but delayed motor map reorganization in a rat cortical ischemic infarct model |
| Q37558025 | Remapping the somatosensory cortex after stroke: insight from imaging the synapse to network |
| Q37246602 | Remodeling of the corticospinal innervation and spontaneous behavioral recovery after ischemic stroke in adult mice |
| Q42970221 | Repeated mesenchymal stem cell treatment after neonatal hypoxia-ischemia has distinct effects on formation and maturation of new neurons and oligodendrocytes leading to restoration of damage, corticospinal motor tract activity, and sensorimotor func |
| Q36823404 | Resting state α-band functional connectivity and recovery after stroke. |
| Q45977749 | Restoration of intracortical and thalamocortical circuits after transplantation of bone marrow mesenchymal stem cells into the ischemic brain of mice. |
| Q92110530 | Role of microRNAs in stroke recovery |
| Q37578549 | Role of walking-exercise therapy after stroke |
| Q46682765 | SPARC is expressed by macroglia and microglia in the developing and mature nervous system |
| Q34758707 | Scientific justification of cryonics practice |
| Q37984548 | Selective vulnerability of synaptic signaling and metabolism to nitrosative stress |
| Q34983840 | Semaphorin3A elevates vascular permeability and contributes to cerebral ischemia-induced brain damage |
| Q41907383 | Sleep disturbance impairs stroke recovery in the rat. |
| Q46456355 | Sonic hedgehog promotes neurite outgrowth of cortical neurons under oxidative stress: Involving of mitochondria and energy metabolism |
| Q36605973 | Sonic hedgehog stimulates neurite outgrowth in a mechanical stretch model of reactive-astrogliosis |
| Q34533044 | Spatial and temporal gene expression differences in core and periinfarct areas in experimental stroke: a microarray analysis. |
| Q38816320 | Spontaneous and Therapeutic-Induced Mechanisms of Functional Recovery After Stroke |
| Q36917699 | Stem cell therapy in stroke: a review literature |
| Q54259742 | Subacute intranasal administration of tissue plasminogen activator improves stroke recovery by inducing axonal remodeling in mice. |
| Q35675445 | Subacute intranasal administration of tissue plasminogen activator increases functional recovery and axonal remodeling after stroke in rats |
| Q91138614 | Surgical Clipping of Previously Ruptured, Coiled Aneurysms: Outcome Assessment in 53 Patients |
| Q41634284 | Systematic optimization of an engineered hydrogel allows for selective control of human neural stem cell survival and differentiation after transplantation in the stroke brain |
| Q36715654 | Systemic delivery of umbilical cord blood cells for stroke therapy: a review |
| Q30500820 | Targeted mini-strokes produce changes in interhemispheric sensory signal processing that are indicative of disinhibition within minutes |
| Q38099859 | Targeting nitric oxide in the subacute restorative treatment of ischemic stroke |
| Q37074566 | Targeting the vasculature to improve neural progenitor transplant survival |
| Q34204455 | Targets for Neural Repair Therapies After Stroke |
| Q47434840 | The Impact of Tumor Necrosis Factor-α and Interleukin-1β Levels and Polymorphisms on Long-Term Stroke Outcomes |
| Q38264488 | The back and forth of axonal injury and repair after stroke |
| Q30423930 | The effects of a rhythm and music-based therapy program and therapeutic riding in late recovery phase following stroke: a study protocol for a three-armed randomized controlled trial |
| Q38229334 | The effects of poststroke aerobic exercise on neuroplasticity: a systematic review of animal and clinical studies |
| Q57802137 | The evolving role of neuro-immune interaction in brain repair after cerebral ischemic stroke |
| Q27013779 | The influence of functional electrical stimulation on hand motor recovery in stroke patients: a review |
| Q37929437 | The injured and regenerating nervous system: immunoglobulin superfamily members as key players |
| Q27024308 | The interaction between training and plasticity in the poststroke brain |
| Q38561199 | The lingering effects of a busted myth--false time limits in stroke rehabilitation |
| Q36318376 | The potential benefit of stem cell therapy after stroke: an update |
| Q52148475 | The proportional recovery rule for stroke revisited. |
| Q64956045 | The role of sleep in recovery following ischemic stroke: A review of human and animal data. |
| Q48752473 | The role of stem cell factor and granulocyte-colony stimulating factor in brain repair during chronic stroke |
| Q34206790 | The role of the immune system in central nervous system plasticity after acute injury. |
| Q26749052 | Therapy Effects of Bone Marrow Stromal Cells on Ischemic Stroke |
| Q91062774 | Three cooperative mechanisms required for recovery after brain damage |
| Q37078846 | Training and exercise to drive poststroke recovery |
| Q37331752 | Transcranial direct current stimulation: a noninvasive tool to facilitate stroke recovery |
| Q37861036 | Transcranial magnetic stimulation in cognitive rehabilitation |
| Q39347126 | Transduction of neural precursor cells with TAT-heat shock protein 70 chaperone: therapeutic potential against ischemic stroke after intrastriatal and systemic transplantation |
| Q38783958 | Translational Hurdles in Stroke Recovery Studies |
| Q50062335 | Treatments to Promote Neural Repair after Stroke |
| Q37997539 | Trophic factors and cell therapy to stimulate brain repair after ischaemic stroke. |
| Q38557547 | Ultrastructural analysis of blood-brain barrier breakdown in the peri-infarct zone in young adult and aged mice |
| Q34383402 | Urokinase-type plasminogen activator promotes dendritic spine recovery and improves neurological outcome following ischemic stroke |
| Q27011879 | Use it and/or lose it-experience effects on brain remodeling across time after stroke |
| Q36811300 | Variability in Motor and Language Recovery during the Acute Stroke Period |
| Q26853592 | Vascular endothelial growth factors (VEGFs) and stroke |
| Q38074162 | What is the nature of poststroke language recovery and reorganization? |
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