Huaying Li scite author profile

Regrowth of axons into the distal spinal cord through a Schwann‐cell‐seeded mini‐channel implanted into hemisected adult rat spinal cord

Xu

¹

,

Zhang

²

,

Li

³

et al. 1999

Eur J of Neuroscience

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Schwann cells (SCs) have been shown to be a key element in promoting axonal regeneration after being grafted into the central nervous system (CNS). In the present study, SC-supported axonal regrowth was tested in an adult rat spinal cord implantation model. This model is characterized by a right spinal cord hemisection at the eighth thoracic segment, implantation of a SC-containing mini-channel and restoration of cerebrospinal fluid circulation by suturing the dura. We demonstrate that a tissue cable containing grafted SCs formed an effective bridge between the two stumps of the hemicord 1 month after transplantation. Approximately 10 000 myelinated and unmyelinated axons (1 : 9) per cable were found at its midpoint. In addition to propriospinal axons and axons of peripheral nervous system (PNS) origin, axons from as many as 19 brainstem regions also grew into the graft without additional treatments. Most significantly, some regenerating axons in the SC grafts were able to penetrate through the distal graft-host interface to re-enter the host environment, as demonstrated by anterograde axonal labelling. These axons coursed toward, and then entered the grey matter where terminal bouton-like structures were observed. In channels containing no SCs, limited axonal growth was seen within the graft and no axons penetrated the distal interface. These findings further support the notion that SCs are strong promotors of axonal regeneration and that the mini-channel model may be appropriate for further investigation of axonal re-entry, synaptic reconnection and functional recovery following spinal cord injury.

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Neurotrophins BDNF and NT-3 promote axonal re-entry into the distal host spinal cord through Schwann cell-seeded mini-channels

Bamber

¹

,

Li

²

,

Lü

³

et al. 2001

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To promote axonal regeneration in the injured adult spinal cord, a two-phase repair strategy was employed to (i) bridge a spinal cord hemilesion cavity with a grafted Schwann cell (SC)-seeded mini-channel, and (ii) promote axonal re-entry into the distal cord by infusing two neurotrophins, BDNF and/or NT-3, directly into the distal cord parenchyma. Here we report that infusion of two neurotrophins, delivered alone or in combination, effectively promotes axonal outgrowth from SC-seeded mini-channels into the distal host spinal cord. When an anterogradely transported marker, PHA-L or BDA, was injected into the spinal cord 3 mm rostral to the graft, a large number of axons was observed to regenerate from the SC graft into the distal cord in neurotrophin-treated groups. A subpopulation of these axons was found to grow up to 6 mm within the distal spinal cord. These axons, which were confined mainly within the grey matter, arborized and formed structures which resemble terminal boutons. In channels containing no SCs, the infusion of neurotrophins did not promote axonal ingrowth from the proximal cord stump. In cases which received SC grafts but no neurotrophin infusion, axonal re-entry into the distal cord was limited. Thus, the present study demonstrates that regenerating axons not only cross a lesion site when a permissive cellular bridge is provided but also penetrate into the distal host spinal cord and elongate for a distance of several cord segments after the infusion of two neurotrophins. The latter event is prerequisite for establishment of appropriate connections between regenerating axons and target neurons and thus, functional recovery.

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Delayed Glial Cell Death Following Wallerian Degeneration in White Matter Tracts after Spinal Cord Dorsal Column Cordotomy in Adult Rats

Warden

¹

,

Bamber

²

,

Li

³

et al. 2001

Experimental Neurology

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Postnatal growth of corticospinal axons in the spinal cord of developing mice

Gianino¹,

Stein²,

Li³

et al. 1999

Developmental Brain Research

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Neurotrophins BDNF and NT‐3 promote axonal re‐entry into the distal host spinal cord through Schwann cell‐seeded mini‐channels

Bamber

¹

,

Li

²

,

Lü

³

et al. 2001

Eur J of Neuroscience

View full text Add to dashboard Cite

To promote axonal regeneration in the injured adult spinal cord, a two-phase repair strategy was employed to (i) bridge a spinal cord hemilesion cavity with a grafted Schwann cell (SC)-seeded mini-channel, and (ii) promote axonal re-entry into the distal cord by infusing two neurotrophins, BDNF and/or NT-3, directly into the distal cord parenchyma. Here we report that infusion of two neurotrophins, delivered alone or in combination, effectively promotes axonal outgrowth from SC-seeded mini-channels into the distal host spinal cord. When an anterogradely transported marker, PHA-L or BDA, was injected into the spinal cord 3 mm rostral to the graft, a large number of axons was observed to regenerate from the SC graft into the distal cord in neurotrophin-treated groups. A subpopulation of these axons was found to grow up to 6 mm within the distal spinal cord. These axons, which were confined mainly within the grey matter, arborized and formed structures which resemble terminal boutons. In channels containing no SCs, the infusion of neurotrophins did not promote axonal ingrowth from the proximal cord stump. In cases which received SC grafts but no neurotrophin infusion, axonal re-entry into the distal cord was limited. Thus, the present study demonstrates that regenerating axons not only cross a lesion site when a permissive cellular bridge is provided but also penetrate into the distal host spinal cord and elongate for a distance of several cord segments after the infusion of two neurotrophins. The latter event is prerequisite for establishment of appropriate connections between regenerating axons and target neurons and thus, functional recovery.

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Huaying Li

Regrowth of axons into the distal spinal cord through a Schwann‐cell‐seeded mini‐channel implanted into hemisected adult rat spinal cord

Neurotrophins BDNF and NT-3 promote axonal re-entry into the distal host spinal cord through Schwann cell-seeded mini-channels

Delayed Glial Cell Death Following Wallerian Degeneration in White Matter Tracts after Spinal Cord Dorsal Column Cordotomy in Adult Rats

Postnatal growth of corticospinal axons in the spinal cord of developing mice

Neurotrophins BDNF and NT‐3 promote axonal re‐entry into the distal host spinal cord through Schwann cell‐seeded mini‐channels

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