Comparing the function of the corticospinal system in different species: organizational differences for motor specialization?
about
Cortical control of a whisking central pattern generatorCorticospinal reorganization after spinal cord injuryWhat are the Best Animal Models for Testing Early Intervention in Cerebral Palsy?Recovery after brain injury: mechanisms and principlesRole of Direct vs. Indirect Pathways from the Motor Cortex to Spinal Motoneurons in the Control of Hand DexterityNeural substrates for the motivational regulation of motor recovery after spinal-cord injuryRyk controls remapping of motor cortex during functional recovery after spinal cord injuryThe marmoset monkey as a model for visual neuroscience.Mirror movement-like defects in startle behavior of zebrafish dcc mutants are caused by aberrant midline guidance of identified descending hindbrain neuronsVolumetric effects of motor cortex injury on recovery of dexterous movementsTool-use learning by common marmosets (Callithrix jacchus)Comparison of functional recovery of manual dexterity after unilateral spinal cord lesion or motor cortex lesion in adult macaque monkeys.Traumatic injury to the immature frontal lobe: a new murine model of long-term motor impairment in the absence of psychosocial or cognitive deficits.Anti-Nogo-A antibody treatment promotes recovery of manual dexterity after unilateral cervical lesion in adult primates--re-examination and extension of behavioral data.Changes in corticospinal drive to spinal motoneurones following tablet-based practice of manual dexterity.Expression of Kv3.1b potassium channel is widespread in macaque motor cortex pyramidal cells: A histological comparison between rat and macaque.Ryk regulates Wnt5a repulsion of mouse corticospinal tract through modulating planar cell polarity signalingLong-term gliosis and molecular changes in the cervical spinal cord of the rhesus monkey after traumatic brain injury.Curiosity and cure: translational research strategies for neural repair-mediated rehabilitationAxon diameters and conduction velocities in the macaque pyramidal tract.Corticospinal sprouting differs according to spinal injury location and cortical origin in macaque monkeys.Somatosensory comparison during haptic tracing.Feed-forward control of preshaping in the rat is mediated by the corticospinal tract.Differential expression of secreted phosphoprotein 1 in the motor cortex among primate species and during postnatal development and functional recoveryCortical presynaptic control of dorsal horn C-afferents in the rat.A subcortical oscillatory network contributes to recovery of hand dexterity after spinal cord injuryVulnerability of the medial frontal corticospinal projection accompanies combined lateral frontal and parietal cortex injury in rhesus monkeyMotor cortical function and the precision gripUnilateral pyramidotomy of the corticospinal tract in rats for assessment of neuroplasticity-inducing therapies.Cognitive consilience: primate non-primary neuroanatomical circuits underlying cognition.Can experiments in nonhuman primates expedite the translation of treatments for spinal cord injury in humans?Microstructural White Matter Properties Mediate the Association between APOE and Perceptual Speed in Very Old Persons without Dementia.Cellular therapies for treating pain associated with spinal cord injuryAnimal models of neurologic disorders: a nonhuman primate model of spinal cord injury.Krüppel-like Factor 7 engineered for transcriptional activation promotes axon regeneration in the adult corticospinal tract.Accurate stepping on a narrow path: mechanics, EMG, and motor cortex activity in the cat.Frontal and frontoparietal injury differentially affect the ipsilateral corticospinal projection from the nonlesioned hemisphere in monkey (Macaca mulatta)Free-water and free-water corrected fractional anisotropy in primary and premotor corticospinal tracts in chronic stroke.Lateralization of cervical spinal cord activity during an isometric upper extremity motor task with functional magnetic resonance imaging.Experimental and therapeutic opportunities for stem cells in multiple sclerosis
P2860
Q24675884-87512C28-1C11-47E0-BDA0-49627A7CAFEEQ26828054-313DB5B2-D646-435E-9CEF-61775EFD79D0Q26829589-67F30937-E7E2-4F67-BFCF-F49845A5AA01Q26866404-8C0BC2D0-3CC9-48E0-A085-F438224317C3Q27013788-AC254BF7-92E7-4101-9653-E724C756AE51Q27319996-2092361A-DFDE-4D06-8C92-B898EBACC472Q29039327-E510B011-B291-473C-8A1A-E3804CE04F75Q30387337-B182E63E-5AB4-4378-BDEF-70A02D74CD06Q30432792-F2BA1AD6-58E1-4D43-8244-4ED03072F248Q30491714-7091226A-30A4-46B7-84CF-726F7A35FE11Q30502725-2C1F79FE-11E4-45B1-B1F4-62C6897B7003Q30541640-56A7DAE1-1B72-4116-BEAD-72FB8CE0398AQ30571742-42041594-6A56-4795-A417-84EBA6EB1779Q33418736-FB991FF1-5E54-4CE0-B385-60D50F176963Q33446939-002FE729-DC29-4EF2-9676-175265587236Q33628668-C62BD11E-3900-4084-9EFA-5726510D10FAQ33810947-BF642FCB-53CB-4BAD-BE50-BA7CBB7D259DQ33841655-08063477-7C8A-47E9-9026-3DBD0911C09BQ33904296-008EB2A3-AE78-43B2-8FF0-01BF954B9C48Q34063236-912E031C-0D5E-4E7A-9E07-58C9C7123A2BQ34162701-08159672-A302-4AFA-AEE0-35FBCB1C8714Q34488117-90F9097F-F29C-440B-B35E-CE5E4ED71509Q34682028-9ABF4150-3506-4128-AE1E-C282D32D0574Q34761451-58754A77-9775-4EE5-8164-B765C9C3E06FQ34919039-73C91B52-77BA-42AC-B4A0-0D0C54D17476Q34925670-BDDCFAEC-D61F-496D-B36C-90A5B8AFBA7AQ35007750-AF0C6B2F-E710-4D6D-9477-F02EB0FAE154Q35094109-ECD855D9-1021-47A3-A7F8-E025389FEC85Q35414846-66AF3B98-9C6B-45D9-8EA5-09BF38050950Q35624797-526F5347-B7E7-449A-9F25-42D1DA576408Q35633750-60067001-17A2-4B02-8EF1-29F1424CD98AQ35739678-459BF60B-7710-4C6A-9E02-F367B0105068Q35873511-77721EC3-77B4-4169-AE24-D8455E0F7213Q35913779-37B5BA52-161B-4216-AE5E-FB41A0C2D546Q35982930-2EA73FAC-8AAE-45E5-B5DC-0C1D15F61F30Q36278181-3E90D9EA-F5E5-472F-AC7E-956FA48A2009Q36362978-74126027-0471-461B-9A84-D0639C4A702FQ36394845-C141ACDE-A414-4773-95BD-08F9A66AB185Q36404880-9C3F3CB2-99E6-4360-A4F2-6FA9AACFC3C9Q36432487-5BF62B16-F429-4185-80FE-8F7293F33F2C
P2860
Comparing the function of the corticospinal system in different species: organizational differences for motor specialization?
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Comparing the function of the ...... nces for motor specialization?
@ast
Comparing the function of the ...... nces for motor specialization?
@en
type
label
Comparing the function of the ...... nces for motor specialization?
@ast
Comparing the function of the ...... nces for motor specialization?
@en
prefLabel
Comparing the function of the ...... nces for motor specialization?
@ast
Comparing the function of the ...... nces for motor specialization?
@en
P356
P1433
P1476
Comparing the function of the ...... nces for motor specialization?
@en
P2093
James Griffiths
Roger N Lemon
P304
P356
10.1002/MUS.20333
P577
2005-09-01T00:00:00Z