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Results: 1-4 |
Results: 4
FETAL SPINAL-CORD TRANSPLANTS SUPPORT THE DEVELOPMENT OF TARGET REACHING AND COORDINATED POSTURAL ADJUSTMENTS AFTER NEONATAL CERVICAL SPINAL-CORD INJURY
Authors: DIENER PS BREGMAN BS
Citation: Ps. Diener et Bs. Bregman, FETAL SPINAL-CORD TRANSPLANTS SUPPORT THE DEVELOPMENT OF TARGET REACHING AND COORDINATED POSTURAL ADJUSTMENTS AFTER NEONATAL CERVICAL SPINAL-CORD INJURY, The Journal of neuroscience, 18(2), 1998, pp. 763-778
FETAL SPINAL-CORD TRANSPLANTS SUPPORT GROWTH OF SUPRASPINAL AND SEGMENTAL PROJECTIONS AFTER CERVICAL SPINAL-CORD HEMISECTION IN THE NEONATAL RAT
Authors: DIENER PS BREGMAN BS
Citation: Ps. Diener et Bs. Bregman, FETAL SPINAL-CORD TRANSPLANTS SUPPORT GROWTH OF SUPRASPINAL AND SEGMENTAL PROJECTIONS AFTER CERVICAL SPINAL-CORD HEMISECTION IN THE NEONATAL RAT, The Journal of neuroscience, 18(2), 1998, pp. 779-793
REGENERATING AND SPROUTING AXONS DIFFER IN THEIR REQUIREMENTS FOR GROWTH AFTER INJURY
Authors: BERNSTEINGORAL H DIENER PS BREGMAN BS
Citation: H. Bernsteingoral et al., REGENERATING AND SPROUTING AXONS DIFFER IN THEIR REQUIREMENTS FOR GROWTH AFTER INJURY, Experimental neurology, 148(1), 1997, pp. 51-72
NEUROTROPHIC FACTORS PREVENT THE DEATH OF CNS NEURONS AFTER SPINAL-CORD LESIONS IN NEWBORN RATS
Authors: DIENER PS BREGMAN BS
Citation: Ps. Diener et Bs. Bregman, NEUROTROPHIC FACTORS PREVENT THE DEATH OF CNS NEURONS AFTER SPINAL-CORD LESIONS IN NEWBORN RATS, NeuroReport, 5(15), 1994, pp. 1913-1917
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