| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2007Sci...318.1150N |
| P356 | DOI | 10.1126/SCIENCE.1147243 |
| P698 | PubMed publication ID | 18006750 |
| P2093 | author name string | Tadashi Isa | |
| Yukio Nishimura | |||
| Hideo Tsukada | |||
| Hirotaka Onoe | |||
| Yosuke Morichika | |||
| Sergei Perfiliev | |||
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| P433 | issue | 5853 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 6 | |
| P304 | page(s) | 1150-1155 | |
| P577 | publication date | 2007-11-01 | |
| P1433 | published in | Science | Q192864 |
| P1476 | title | Time-dependent central compensatory mechanisms of finger dexterity after spinal cord injury | |
| P478 | volume | 318 |
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| Q34925670 | A subcortical oscillatory network contributes to recovery of hand dexterity after spinal cord injury |
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| Q35535101 | Application of radiosurgical techniques to produce a primate model of brain lesions. |
| Q37478461 | Atrophy and primary somatosensory cortical reorganization after unilateral thoracic spinal cord injury: a longitudinal functional magnetic resonance imaging study |
| Q57516340 | Basic Principles of rTMS in Motor Recovery After Stroke |
| Q35841498 | Behavioral assessment of manual dexterity in non-human primates |
| Q39928460 | Brain fiber tract plasticity in experimental spinal cord injury: diffusion tensor imaging |
| Q90754210 | Bypassing stroke-damaged neural pathways via a neural interface induces targeted cortical adaptation |
| Q36456682 | Causal Link between the Cortico-Rubral Pathway and Functional Recovery through Forced Impaired Limb Use in Rats with Stroke |
| Q39454081 | Cell biology of spinal cord injury and repair |
| Q37136280 | Central and peripheral timing variability in children with heavy prenatal alcohol exposure |
| Q34307373 | Cerebrovascular support for cognitive processing in hypertensive patients is altered by blood pressure treatment |
| Q36054186 | Changes in descending motor pathway connectivity after corticospinal tract lesion in macaque monkey. |
| Q47293772 | Clinical care and evolution of paraplegic monkeys (Macaca mulatta) over fourteen months post-lesion |
| Q48099562 | Combination of kinematic analyses and diffusion tensor tractrography to evaluate the residual motor functions in spinal cord-hemisected monkeys |
| Q92656501 | Combined with anti-Nogo-A antibody treatment, BDNF did not compensate the extra deleterious motor effect caused by large size cervical cord hemisection in adult macaques |
| Q30541640 | Comparison of functional recovery of manual dexterity after unilateral spinal cord lesion or motor cortex lesion in adult macaque monkeys |
| Q33874928 | Compensatory cerebral adaptations before and evolving changes after surgical decompression in cervical spondylotic myelopathy |
| Q37614108 | Compensatory changes at the cerebral cortical level after spinal cord injury |
| Q48198373 | Comprehensive analysis of area-specific and time-dependent changes in gene expression in the motor cortex of macaque monkeys during recovery from spinal cord injury |
| Q30741130 | Connectivity-based approaches in stroke and recovery of function |
| Q37599040 | Contribution of propriospinal neurons to recovery of hand dexterity after corticospinal tract lesions in monkeys |
| Q36280103 | Cortical Reorganization Is Associated with Surgical Decompression of Cervical Spondylotic Myelopathy |
| Q89036756 | Cortical Reorganization of Sensorimotor Systems and the Role of Intracortical Circuits After Spinal Cord Injury |
| Q36015899 | Cortical reorganization after spinal cord injury: always for good? |
| Q38115085 | Cortical reorganization after stroke: how much and how functional? |
| Q47644825 | Cortical reorganizations for the recovery from depressive state after spinal decompression surgery |
| Q42374665 | Coupled Bimanual Training Using a Non-Powered Device for Individuals with Severe Hemiparesis: A Pilot Study. |
| Q60923226 | Differences in neuroplasticity after spinal cord injury in varying animal models and humans |
| Q34761451 | Differential expression of secreted phosphoprotein 1 in the motor cortex among primate species and during postnatal development and functional recovery |
| Q59051681 | Dissecting spinal cord regeneration |
| Q92507500 | Dynamic Interaction between Cortico-Brainstem Pathways during Training-Induced Recovery in Stroke Model Rats |
| Q30364457 | Effect of auditory constraints on motor performance depends on stage of recovery post-stroke. |
| Q63952538 | Effect of coil orientation on motor-evoked potentials in humans with tetraplegia |
| Q46073146 | Effects of early versus late rehabilitative training on manual dexterity after corticospinal tract lesion in macaque monkeys |
| Q37409992 | Electrical stimulation of motor cortex in the uninjured hemisphere after chronic unilateral injury promotes recovery of skilled locomotion through ipsilateral control |
| Q90266450 | Extensive somatosensory and motor corticospinal sprouting occurs following a central dorsal column lesion in monkeys |
| Q47555421 | Factors Affecting Volume Changes of the Somatosensory Cortex in Patients with Spinal Cord Injury: To Be Considered for Future Neuroprosthetic Design |
| Q48609858 | Finger force enslaving and surplus in spinal cord injury patients |
| Q50546429 | Flexible adaptation to an artificial recurrent connection from muscle to peripheral nerve in man. |
| Q92518352 | From cortex to cord: motor circuit plasticity after spinal cord injury |
| Q47609699 | Function of the nucleus accumbens in motor control during recovery after spinal cord injury. |
| Q82534844 | Functional evaluation of paraplegic monkeys (Macaca mulatta) over fourteen months post-lesion |
| Q38411053 | Functional organization of information flow in the corticospinal pathway. |
| Q64265067 | Functional plasticity of the ipsilateral primary sensorimotor cortex in an elite long jumper with below-knee amputation |
| Q35544054 | Functional role of exercise-induced cortical organization of sensorimotor cortex after spinal transection |
| Q48464398 | Genetic dissection of the circuit for hand dexterity in primates. |
| Q26800039 | Grasping actions and social interaction: neural bases and anatomical circuitry in the monkey |
| Q57214924 | Hand Dexterity Impairment in Patients with Cervical Myelopathy: A New Quantitative Assessment Using a Natural Prehension Movement |
| Q34091020 | Human hepatocyte growth factor promotes functional recovery in primates after spinal cord injury |
| Q36794386 | Impaired Organization of Paired-Pulse TMS-Induced I-Waves After Human Spinal Cord Injury. |
| Q43293480 | Increased expression of the growth-associated protein 43 gene in the sensorimotor cortex of the macaque monkey after lesioning the lateral corticospinal tract |
| Q83227397 | Independent representations of ipsilateral and contralateral limbs in primary motor cortex |
| Q89100988 | Intravenous Infusion of Mesenchymal Stem Cells Alters Motor Cortex Gene Expression in a Rat Model of Acute Spinal Cord Injury |
| Q38105318 | Ipsilateral motor pathways after stroke: implications for non-invasive brain stimulation |
| Q57290400 | Ipsilesional motor cortex plasticity participates in spontaneous hindlimb recovery after lateral hemisection of the thoracic spinal cord in the rat |
| Q64901207 | Ischemic Stroke in Pontine and Corona Radiata: Location Specific Impairment of Neural Network Investigated With Resting State fMRI. |
| Q35244270 | Lack of evidence for direct corticospinal contributions to control of the ipsilateral forelimb in monkey |
| Q42085135 | Measuring the motor output of the pontomedullary reticular formation in the monkey: do stimulus-triggered averaging and stimulus trains produce comparable results in the upper limbs? |
| Q36309779 | Methods for functional assessment after C7 spinal cord hemisection in the rhesus monkey. |
| Q26823836 | Motor cortex electrical stimulation augments sprouting of the corticospinal tract and promotes recovery of motor function |
| Q37477503 | Motor recovery and microstructural change in rubro-spinal tract in subcortical stroke. |
| Q48864118 | Motor recovery at 6 months after admission is related to structural and functional reorganization of the spine and brain in patients with spinal cord injury |
| Q64124507 | NT3-chitosan enables de novo regeneration and functional recovery in monkeys after spinal cord injury |
| Q27319996 | Neural substrates for the motivational regulation of motor recovery after spinal-cord injury |
| Q34468811 | Neurorehabilitation: motor recovery after stroke as an example |
| Q34562950 | Passive exercise of the hind limbs after complete thoracic transection of the spinal cord promotes cortical reorganization |
| Q38160373 | Personalized neuroprosthetics |
| Q37884310 | Plasticity of cortical maps: multiple triggers for adaptive reorganization following brain damage and spinal cord injury |
| Q88184606 | Predictive factors of neurological recovery after chronic craniovertebral brainstem compression |
| Q48909735 | Predictors and signatures of recovery from neglect in acute stroke |
| Q43191360 | Pronounced species divergence in corticospinal tract reorganization and functional recovery after lateralized spinal cord injury favors primates. |
| Q42863925 | Quantitative inter-segmental and inter-laminar comparison of corticospinal projections from the forelimb area of the primary motor cortex of macaque monkeys |
| Q37611761 | Reassessment of Non-Monosynaptic Excitation from the Motor Cortex to Motoneurons in Single Motor Units of the Human Biceps Brachii |
| Q35804198 | Reorganization of corticospinal tract fibers after spinal cord injury in adult macaques. |
| Q90855165 | Resting-State Functional Magnetic Resonance Imaging Connectivity of the Brain Is Associated with Altered Sensorimotor Function in Patients with Cervical Spondylosis |
| Q30478718 | Reticulospinal neurons in the pontomedullary reticular formation of the monkey (Macaca fascicularis). |
| Q27013788 | Role of Direct vs. Indirect Pathways from the Motor Cortex to Spinal Motoneurons in the Control of Hand Dexterity |
| Q29039327 | Ryk controls remapping of motor cortex during functional recovery after spinal cord injury |
| Q35750738 | Serotonergic pharmacotherapy promotes cortical reorganization after spinal cord injury |
| Q33639529 | Subcortical control of precision grip after human spinal cord injury |
| Q34869888 | Temporal plasticity involved in recovery from manual dexterity deficit after motor cortex lesion in macaque monkeys |
| Q50180277 | The Relationship Between Hand Function and Overlapping Motor Representations of the Hands in the Contralesional Hemisphere in Unilateral Spastic Cerebral Palsy |
| Q33937776 | Tracking changes following spinal cord injury: insights from neuroimaging |
| Q46915448 | Training of the impaired forelimb after traumatic brain injury enhances hippocampal neurogenesis in the Emx1 null mice lacking a corpus callosum |
| Q47190256 | Treatment With the Neutralizing Antibody Against Repulsive Guidance Molecule-a Promotes Recovery From Impaired Manual Dexterity in a Primate Model of Spinal Cord Injury |
| Q30491714 | Volumetric effects of motor cortex injury on recovery of dexterous movements |
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