Results 251 to 260 of about 55,024 (303)

Correction: A novel cell-free intrathecal approach with PRP for the treatment of spinal cord multiple sclerosis in cats. [PDF]

open access: yesInflamm Regen
Farid MF   +6 more
europepmc   +1 more source

The translational landscape in spinal cord injury: focus on neuroplasticity and regeneration

open access: yesNature Reviews Neurology, 2019
Over the past decade, we have witnessed a flourishing of novel strategies to enhance neuroplasticity and promote axon regeneration following spinal cord injury, and results from preclinical studies suggest that some of these strategies have the potential
Thomas H Hutson   +2 more
exaly   +3 more sources

Spinal Cord Regeneration

Neurosurgery, 1980
The proceedings of the First International Symposium on Spinal Cord Reconstruction, held in Las Vegas, Nevada, on January 7 to 11, 1980, are reviewed and summarized. Major problems facing investigators of central nervous system regeneration are discussed.
N E, Naftchi   +3 more
openaire   +4 more sources

Regeneration of the lesioned spinal cord

NeuroRehabilitation, 1998
The ability of the adult central nervous system to recover from injury is highly limited. Limiting factors in the repair process appear to be a combination of an inhibiting environment and the restricted intrinsic capacity of the neuron to reactivate its regenerative machinery. Studies using experimental treatments designed to neutralize the inhibiting
van de Meent H, Schwab ME
openaire   +5 more sources

Dendrite regeneration in the vertebrate spinal cord

Developmental Biology, 2022
Axon regeneration in response to injury has been documented in many animals over several hundred years. In contrast, how neurons respond to dendrite injury has been examined only in the last decade. So far, dendrite regeneration after injury has been documented in invertebrate model systems, but has not been assayed in a vertebrate.
Michelle C. Stone   +4 more
openaire   +2 more sources

Advances in Spinal Cord Regeneration

Spine, 1999
Spinal cord injury continues to be a major cause of morbidity, particularly among young people involved in vehicle-related trauma, falls, and sports injuries. Although research advances are still a long way from clinical treatments, recent studies on animals have indicated new possibilities for recovery of function.
J, Lu, P, Waite
openaire   +2 more sources

Regeneration in injured spinal cord

The American Journal of Surgery, 1965
Summary There is experimental evidence that the transected spinal cord in rabbits can regenerate with concomitant return of motor, sensory and sphincter function when adequate apposition is obtained.
G, MURRAY, E, UGRAY, A, GRAVES
openaire   +2 more sources

Spinal Cord Regeneration

Spine, 2001
The past 20 years has seen the emergence of many exciting and promising experimental therapeutic strategies to promote regeneration of the injured spinal cord in laboratory animals. A greater understanding of the pathophysiologic mechanisms that contribute to the initial and secondary cord injury may facilitate the development of neuroprotective ...
B K, Kwon, W, Tetzlaff
openaire   +2 more sources

Spinal Cord Regeneration

2005
Repairing the damaged spinal cord has for a long time eluded neuroscientists. Few other achievements in neuroscience would have such a tremendous impact amongst the medical profession and the public. Despite numerous efforts, no patient has yet benefited from a regeneration therapy.
Poonam, Verma, James, Fawcett
openaire   +2 more sources

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