Add to ORKGTransected axons fail to regrow across anatomically complete spinal cord injuries (SCI) in adults. Diverse molecules can partially facilitate or attenuate axon growth during development or after injury1-3, but efficient reversal of this regrowth failure remains elusive4. Here we show that three factors that are essential for axon growth during development but are attenuated or lacking in adults-(i) neuron intrinsic growth capacity2,5-9, (ii) growth-supportive substrate10,11 and (iii) chemoattraction12,13-are all individually required and, in combination, are sufficient to stimulate robust axon regrowth across anatomically complete SCI lesions in adult rodents. We reactivated the growth capacity of mature descending propriospinal neuron...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
In general, axonal regeneration is very limited after transection of adult rat spinal cord. We previ...
Transected axons fail to regrow across anatomically complete spinal cord injuries (SCI) in adults. D...
Transected axons fail to regrow across anatomically complete spinal cord injuries (SCI) in adults. D...
Transected axons fail to regrow across anatomically complete spinal cord injuries (SCI) in adults. D...
Spinal cord injury (SCI) results in a severing of axonal connections that leads to permanent sensori...
Growth factors influence the topography of axonal projections during nervous system development and ...
In order for axon regeneration to result in functional recovery after spinal cord injury (SCI), axon...
Masaki Ueno, Toshihide YamashitaDepartment of Molecular Neuroscience, Graduate School of Medicine, O...
Injury to the brain and spinal cord has devastating consequences because adult central nervous syste...
Common mechanisms of peripheral axon regeneration are recruited following diverse forms of damage to...
Growth factors are indispensable in the formation and maintenance of neuronal circuits during develo...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
Axonal regeneration after spinal cord injury (SCI) can be enhanced by activation of the intrinsic ne...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
In general, axonal regeneration is very limited after transection of adult rat spinal cord. We previ...
Transected axons fail to regrow across anatomically complete spinal cord injuries (SCI) in adults. D...
Transected axons fail to regrow across anatomically complete spinal cord injuries (SCI) in adults. D...
Transected axons fail to regrow across anatomically complete spinal cord injuries (SCI) in adults. D...
Spinal cord injury (SCI) results in a severing of axonal connections that leads to permanent sensori...
Growth factors influence the topography of axonal projections during nervous system development and ...
In order for axon regeneration to result in functional recovery after spinal cord injury (SCI), axon...
Masaki Ueno, Toshihide YamashitaDepartment of Molecular Neuroscience, Graduate School of Medicine, O...
Injury to the brain and spinal cord has devastating consequences because adult central nervous syste...
Common mechanisms of peripheral axon regeneration are recruited following diverse forms of damage to...
Growth factors are indispensable in the formation and maintenance of neuronal circuits during develo...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
Axonal regeneration after spinal cord injury (SCI) can be enhanced by activation of the intrinsic ne...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
While long-distance regeneration may be limited in mammalian species, it is becoming apparent that d...
In general, axonal regeneration is very limited after transection of adult rat spinal cord. We previ...