Ellen Kunkel-Bagden scite author profile

There is little axonal growth after central nervous system (CNS) injury in adult mammals. The administration of antibodies (IN-1) to neutralize the myelin-associated neurite growth inhibitory proteins leads to long-distance regrowth of a proportion of CNS axons after injury. Our aim was: to determine if spinal cord lesion in adult rats, followed by treatment with antibodies to neurite growth inhibitors, can lead to regeneration and anatomical plasticity of other spinally projecting pathways; to determine if the anatomical projections persist at long survival intervals; and to determine whether this fibre growth is associated with recovery of function. We report here that brain stem-spinal as well as corticospinal axons undergo regeneration and anatomical plasticity after application of IN-1 antibodies. There is a recovery of specific reflex and locomotor functions after spinal cord injury in these adult rats. Removal of the sensorimotor cortex in IN-1-treated rats 2-3 months later abolished the recovered contact-placing responses, suggesting that the recovery was dependent upon the regrowth of these pathways.

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Methods to Assess the Development and Recovery of Locomotor Function after Spinal Cord Injury in Rats

Kunkel-Bagden

Dai

Bregman

1993

Experimental Neurology

279

159

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Recovery of Function after Spinal Cord Injury: Mechanisms Underlying Transplant-Mediated Recovery of Function Differ after Spinal Cord Injury in Newborn and Adult Rats

Bregman

Kunkel-Bagden

Reier

et al. 1993

Experimental Neurology

271

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Recovery of function after spinal cord hemisection in newborn and adult rats: Differential effects on reflex and locomotor function

Kunkel-Bagden

Dai

Bregman

1992

Experimental Neurology

144

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