scholarly article | Q13442814 |
P50 | author | Karim Fouad | Q41685186 |
P2093 | author name string | Schwab ME | |
Raineteau O | |||
Schucht P | |||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 143-153 | |
P577 | publication date | 2002-07-01 | |
P1433 | published in | Experimental Neurology | Q5421127 |
P1476 | title | Anatomical correlates of locomotor recovery following dorsal and ventral lesions of the rat spinal cord | |
P478 | volume | 176 |
Q40828192 | A combined scoring method to assess behavioral recovery after mouse spinal cord injury |
Q35822433 | A consistent, quantifiable, and graded rat lumbosacral spinal cord injury model |
Q38093282 | A dual spinal cord lesion paradigm to study spinal locomotor plasticity in the cat. |
Q28389732 | A novel closed-body model of spinal cord injury caused by high-pressure air blasts produces extensive axonal injury and motor impairments |
Q37458540 | Activity-based therapies to promote forelimb use after a cervical spinal cord injury |
Q36947648 | Acute delivery of EphA4-Fc improves functional recovery after contusive spinal cord injury in rats |
Q37127838 | Adaptive changes in the injured spinal cord and their role in promoting functional recovery |
Q41460840 | Age exacerbates microglial activation, oxidative stress, inflammatory and NOX2 gene expression, and delays functional recovery in a middle-aged rodent model of spinal cord injury. |
Q34347173 | Anatomical and functional outcomes following a precise, graded, dorsal laceration spinal cord injury in C57BL/6 mice. |
Q37440433 | Anterograde labeling of ventrolateral funiculus pathways with spinal enlargement connections in the adult rat spinal cord. |
Q61960341 | Anti-Nogo-A antibody treatment enhances sprouting of corticospinal axons rostral to a unilateral cervical spinal cord lesion in adult macaque monkey |
Q35019987 | Astrocytes derived from glial-restricted precursors promote spinal cord repair |
Q34757621 | Bilateral bulbospinal projections to pudendal motoneuron circuitry after chronic spinal cord hemisection injury as revealed by transsynaptic tracing with pseudorabies virus |
Q39261219 | Cell transplantation therapy for spinal cord injury. |
Q36373500 | Characterization of recovered walking patterns and motor control after contusive spinal cord injury in rats |
Q37135719 | Chondroitinase ABC combined with neurotrophin NT-3 secretion and NR2D expression promotes axonal plasticity and functional recovery in rats with lateral hemisection of the spinal cord |
Q48374233 | Chronic transplantation of olfactory ensheathing cells promotes partial recovery after complete spinal cord transection in the rat. |
Q98902951 | Combination of In Situ Lcn2 pRNA-RNAi Nanotherapeutics and iNSC Transplantation Ameliorates Experimental SCI in Mice |
Q42283170 | Combination of chondroitinase ABC and AAV-NT3 promotes neural plasticity at descending spinal pathways after thoracic contusion in rats |
Q37476168 | Combinatorial strategies with Schwann cell transplantation to improve repair of the injured spinal cord |
Q35375651 | Combined delivery of Nogo-A antibody, neurotrophin-3 and the NMDA-NR2d subunit establishes a functional 'detour' in the hemisected spinal cord |
Q30844257 | Complete rat spinal cord transection as a faithful model of spinal cord injury for translational cell transplantation |
Q35907113 | Comprehensive locomotor outcomes correlate to hyperacute diffusion tensor measures after spinal cord injury in the adult rat. |
Q37125914 | Conditioned medium from bone marrow-derived mesenchymal stem cells improves recovery after spinal cord injury in rats: an original strategy to avoid cell transplantation |
Q46402413 | Contribution of the motor cortex to the structure and the timing of hindlimb locomotion in the cat: a microstimulation study |
Q48915812 | Deep brain stimulation of the midbrain locomotor region improves paretic hindlimb function after spinal cord injury in rats |
Q36944286 | Degradation of chondroitin sulfate proteoglycans potentiates transplant-mediated axonal remodeling and functional recovery after spinal cord injury in adult rats |
Q44451991 | Delayed systemic Nogo-66 receptor antagonist promotes recovery from spinal cord injury. |
Q41910298 | Descending brain neurons in larval lamprey: spinal projection patterns and initiation of locomotion |
Q80932212 | Differential vulnerability of propriospinal tract neurons to spinal cord contusion injury |
Q33841235 | Diffusion tensor imaging at 3 hours after traumatic spinal cord injury predicts long-term locomotor recovery |
Q37247610 | Dorsal column sensory axons degenerate due to impaired microvascular perfusion after spinal cord injury in rats |
Q55555837 | Dynamic correlation of diffusion tensor imaging and neurological function scores in beagles with spinal cord injury. |
Q42828085 | Effect of neurotrophin-3 genetically modified olfactory ensheathing cells transplantation on spinal cord injury |
Q37384467 | Effects of rolipram on adult rat oligodendrocytes and functional recovery after contusive cervical spinal cord injury |
Q33701999 | Effects of swimming on functional recovery after incomplete spinal cord injury in rats |
Q48517053 | Electromyographic activity associated with spontaneous functional recovery after spinal cord injury in rats |
Q36103414 | Evaluation of the anatomical and functional consequences of repetitive mild cervical contusion using a model of spinal concussion. |
Q44184245 | Ex vivo adenoviral vector-mediated neurotrophin gene transfer to olfactory ensheathing glia: effects on rubrospinal tract regeneration, lesion size, and functional recovery after implantation in the injured rat spinal cord. |
Q35865900 | Female Rats Demonstrate Improved Locomotor Recovery and Greater Preservation of White and Gray Matter after Traumatic Spinal Cord Injury Compared to Males |
Q35540600 | Fluoxetine prevents oligodendrocyte cell death by inhibiting microglia activation after spinal cord injury |
Q43375936 | Following Spinal Cord Injury Transected Reticulospinal Tract Axons Develop New Collateral Inputs to Spinal Interneurons in Parallel with Locomotor Recovery. |
Q37092925 | Functional consequences of ethidium bromide demyelination of the mouse ventral spinal cord. |
Q33618981 | Functional recovery in traumatic spinal cord injury after transplantation of multineurotrophin-expressing glial-restricted precursor cells |
Q37342289 | Functional testing in animal models of spinal cord injury: not as straight forward as one would think |
Q50508739 | GGF2 (Nrg1-β3) treatment enhances NG2+ cell response and improves functional recovery after spinal cord injury. |
Q43223232 | Gait impairment in a rat model of focal cerebral ischemia |
Q28506127 | Gene-Silencing Screen for Mammalian Axon Regeneration Identifies Inpp5f (Sac2) as an Endogenous Suppressor of Repair after Spinal Cord Injury |
Q34319455 | Give progesterone a chance |
Q47800306 | High-Impact, Self-Motivated Training Within an Enriched Environment With Single Animal Tracking Dose-Dependently Promotes Motor Skill Acquisition and Functional Recovery |
Q35568404 | Hindlimb immobilization in a wheelchair alters functional recovery following contusive spinal cord injury in the adult rat |
Q36531186 | Horizontal ladder task-specific re-training in adult rats with contusive thoracic spinal cord injury |
Q92622904 | Imbalanced Corticospinal and Reticulospinal Contributions to Spasticity in Humans with Spinal Cord Injury |
Q98733532 | Improved locomotor recovery after contusive spinal cord injury in Bmal1-/- mice is associated with protection of the blood spinal cord barrier |
Q53153031 | Induction of neuronal phenotypes from NG2+ glial progenitors by inhibiting epidermal growth factor receptor in mouse spinal cord injury. |
Q35061418 | Inosine enhances axon sprouting and motor recovery after spinal cord injury |
Q60927515 | Insulin-like Growth Factor-1 Receptor Dictates Beneficial Effects of Treadmill Training by Regulating Survival and Migration of Neural Stem Cell Grafts in the Injured Spinal Cord |
Q37090520 | Inter-enlargement pathways in the ventrolateral funiculus of the adult rat spinal cord. |
Q51084952 | Intraspinal stimulation caudal to spinal cord transections in rats. Testing the propriospinal hypothesis. |
Q36554951 | Intrathecal Acetyl-L-Carnitine Protects Tissue and Improves Function after a Mild Contusive Spinal Cord Injury in Rats |
Q50481755 | Intrinsic locomotor outcome in dorsal transection of rat spinal cord: predictive value of minimal incision depth. |
Q46663902 | Location of spinal cord pathways that control hindlimb movement amplitude and interlimb coordination during voluntary swimming in turtles |
Q38080805 | Locomotor recovery after spinal cord hemisection/contusion injures in bonnet monkeys: footprint testing--a minireview |
Q58454971 | Locomotor recovery following contusive spinal cord injury does not require oligodendrocyte remyelination |
Q84665576 | Long and short multifunicular projections of sacral neurons are activated by sensory input to produce locomotor activity in the absence of supraspinal control |
Q51477505 | Longitudinal study on diffusion tensor imaging and diffusion tensor tractography following spinal cord contusion injury in rats. |
Q34986243 | Low-level laser therapy for spinal cord injury in rats: effects of polarization |
Q34160614 | Macro-architectures in spinal cord scaffold implants influence regeneration. |
Q37019347 | Magnetically evoked inter-enlargement response: an assessment of ascending propriospinal fibers following spinal cord injury |
Q92837765 | Myelin status and oligodendrocyte lineage cells over time after spinal cord injury: What do we know and what still needs to be unwrapped? |
Q30497334 | Nogo receptor deletion and multimodal exercise improve distinct aspects of recovery in cervical spinal cord injury |
Q99412566 | Oligodendrocyte-specific deletion of Xbp1 exacerbates the endoplasmic reticulum stress response and restricts locomotor recovery after thoracic spinal cord injury |
Q35029592 | Paralysis recovery in humans and model systems |
Q30459711 | Photomechanical wave-driven delivery of siRNAs targeting intermediate filament proteins promotes functional recovery after spinal cord injury in rats |
Q48110326 | Plastic Changes in Lumbar Locomotor Networks after a Partial Spinal Cord Injury in Cats. |
Q36193859 | Plasticity in ascending long propriospinal and descending supraspinal pathways in chronic cervical spinal cord injured rats |
Q46178996 | Plasticity of subcortical pathways promote recovery of skilled hand function in rats after corticospinal and rubrospinal tract injuries. |
Q51750433 | Post-mortem assessment of rat spinal cord injury and white matter sparing using inversion recovery-supported proton density magnetic resonance imaging. |
Q27004382 | Precursor cell biology and the development of astrocyte transplantation therapies: lessons from spinal cord injury |
Q85020661 | Profiling locomotor recovery: comprehensive quantification of impairments after CNS damage in rodents |
Q37718924 | Progesterone reduces secondary damage, preserves white matter, and improves locomotor outcome after spinal cord contusion |
Q80604162 | Propriospinal neurons are sufficient for bulbospinal transmission of the locomotor command signal in the neonatal rat spinal cord |
Q28071816 | Rat models of spinal cord injury: from pathology to potential therapies |
Q36915869 | Rat models of traumatic spinal cord injury to assess motor recovery |
Q37244603 | Rat substrains differ in the magnitude of spontaneous locomotor recovery and in the development of mechanical hypersensitivity after experimental spinal cord injury |
Q90393911 | Reactivation of Dormant Relay Pathways in Injured Spinal Cord by KCC2 Manipulations |
Q51419065 | Reduced functional recovery by delaying motor training after spinal cord injury. |
Q28581332 | Reduction of EphA4 receptor expression after spinal cord injury does not induce axonal regeneration or return of tcMMEP response |
Q33693022 | Reticulospinal pathways in the ventrolateral funiculus with terminations in the cervical and lumbar enlargements of the adult rat spinal cord. |
Q43221690 | Rewiring of hindlimb corticospinal neurons after spinal cord injury |
Q38655682 | Rodent, large animal and non-human primate models of spinal cord injury |
Q37183907 | Small-molecule protein tyrosine phosphatase inhibition as a neuroprotective treatment after spinal cord injury in adult rats |
Q37374043 | Spinal cord contusion based on precise vertebral stabilization and tissue displacement measured by combined assessment to discriminate small functional differences |
Q33854697 | Spinal cord injury II: Prognostic indicators, standards of care, and clinical trials |
Q36533357 | Spinal electro-magnetic stimulation combined with transgene delivery of neurotrophin NT-3 and exercise: novel combination therapy for spinal contusion injury |
Q35172135 | Sprouting, regeneration and circuit formation in the injured spinal cord: factors and activity |
Q36893915 | Stem cell-based cell therapy for spinal cord injury |
Q33720847 | Swimming as a model of task-specific locomotor retraining after spinal cord injury in the rat |
Q34553448 | Synergistic actions of olomoucine and bone morphogenetic protein-4 in axonal repair after acute spinal cord contusion |
Q41177498 | Tamoxifen Administration Immediately or 24 Hours after Spinal Cord Injury Improves Locomotor Recovery and Reduces Secondary Damage in Female Rats. |
Q35097450 | Targeting experimental autoimmune encephalomyelitis lesions to a predetermined axonal tract system allows for refined behavioral testing in an animal model of multiple sclerosis |
Q48226697 | Temporal-spatial dynamics in oligodendrocyte and glial progenitor cell numbers throughout ventrolateral white matter following contusion spinal cord injury |
Q59811140 | Testing Pathological Variation of White Matter Tract in Adult Rats after Severe Spinal Cord Injury with MRI |
Q36519997 | The Transcriptional Response of Neurotrophins and Their Tyrosine Kinase Receptors in Lumbar Sensorimotor Circuits to Spinal Cord Contusion is Affected by Injury Severity and Survival Time. |
Q43533356 | The dorsolateral corticospinal tract in mice: an alternative route for corticospinal input to caudal segments following dorsal column lesions |
Q92745530 | The fate and function of oligodendrocyte progenitor cells after traumatic spinal cord injury |
Q27339649 | Thoracic Hemisection in Rats Results in Initial Recovery Followed by a Late Decrement in Locomotor Movements, with Changes in Coordination Correlated with Serotonergic Innervation of the Ventral Horn |
Q47847606 | Transection of the adult rat spinal cord upregulates EphB3 receptor and ligand expression |
Q33874697 | Transgenic inhibition of astroglial NF-kappa B leads to increased axonal sparing and sprouting following spinal cord injury |
Q40139859 | Transplantation of human embryonic stem cell-derived oligodendrocyte progenitors into rat spinal cord injuries does not cause harm |
Q30490845 | Transplantation of human neural stem cells transduced with Olig2 transcription factor improves locomotor recovery and enhances myelination in the white matter of rat spinal cord following contusive injury |
Q51028102 | Transplantation of porous tubes following spinal cord transection improves hindlimb function in the rat. |
Q21135533 | Transplantation of specific human astrocytes promotes functional recovery after spinal cord injury |
Q37419070 | Transplanted astrocytes derived from BMP- or CNTF-treated glial-restricted precursors have opposite effects on recovery and allodynia after spinal cord injury |
Q34094650 | Treadmill step training promotes spinal cord neural plasticity after incomplete spinal cord injury |
Q47828718 | Unique sensory and motor behavior in Thy1-GFP-M mice before and after spinal cord injury. |
Q36443602 | Who is who after spinal cord injury and repair? Can the brain stem descending motor pathways take control of skilled hand motor function? |
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