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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 (2001)

Bamber, Norman I. ; Li, Huaying ; Lu, Xiaobin ; [et al.]

Oxford, UK : Blackwell Science Ltd

European journal of neuroscience 13 (2001), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: 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.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.2001.01387.x

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Transient expression of stage-specific embryonic antigen-1 (CD15) in the developing dorsal rat spinal cord (1992)

Oudega, Martin ; Marani, Enrico ; Thomeer, Rath T. W. M.

Springer

Journal of molecular histology 24 (1992), S. 869-877

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ISSN: 1573-6865

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The localization of CD15 (synonyms: stage-specific embryonic antigen-1 (SSEA-1), 3(α)-fucosyl-N-acetyl-lactosamine or FAL), which is implicated in neuronal differentiation, in the developing dorsal rat spinal cord was studied by immunocytochemistry. A embryonal day 9 (E9), SSEA-1 was detected in the neural ectoderm and, at E11, in cells near the ventricle of the matrix layer. This localization indicated that SSEA-1 is present in proliferating premigratory cells of the rat spinal cord. Between E12 and E16, cells of the alar plate expressed SSEA-1. Expression of the antigen was restricted to neuroblasts that will form the dorsal horn. SSEA-1, therefore, can be used at this stage as a marker for a subdivision of the matrix layer. At E14, the dorsal root entrance zone showed SSEA-1. This indicated that SSEA-1 is associated with ingrowing primary afferents. From E16 on, SSEA-1 was present in the dorsal raphe, which suggested a function for SSEA-1 in the guidance of developing fibres. After E17, the antigen was also found within the dorsal mantle layer. SSEA-1 was first present in Rexed's laminae II, IV and V. Later on in development the antigen was detected only in Rexed's laminae II (substantia gelatinosa). These distribution patterns indicated that SSEA-1 is present on migratory and/or postmigratory cells. In addition, SSEA-1 is associated with small-diameter dorsal root fibres, the C fibres and A(∂) fibres, that terminate within the substantia gelatinosa. After birth SSEA-1 was present throughout the dorsal horn, probably as a result of the myelination of the fibres.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01046358

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Poly(α-hydroxyacids) for application in the spinal cord: Resorbability and biocompatibility with adult rat Schwann cells and spinal cord (1998)

Gautier, Sandrine E. ; Oudega, Martin ; Fragoso, Miryam ; [et al.]

Hoboken, NJ : Wiley-Blackwell

Journal of Biomedical Materials Research 42 (1998), S. 642-654

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ISSN: 0021-9304

Keywords: biodegradable implants ; lactic and glycolic acid polymers ; biocompatibility ; Schwann cells ; axonal regeneration ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine , Technology

Notes: Future surgical strategies to restore neurological function in the damaged human spinal cord may involve replacement of nerve tissue with cultured Schwann cells using biodegradable guiding implants. We have studied the in vitro and in vivo degradability of various aliphatic polyesters as well as their effects on rat Schwann cells in vitro and on spinal cord tissue in vivo. In vitro, cylinders made of poly(D,L-lactic-co-glycolic acid) 50:50 (PLA25GA50) started to degrade at 7 days, compared with 28 days for cylinders made of poly(D,L-lactic acid) (PLA50). This faster degradation of PLA25GA50 was reflected by a much higher absorption of water. In vivo, after implantation of PLA25GA50 or PLA50 cylinders between the stumps of a completely transected adult rat spinal cord, the decrease in molecular weight of both polymers was similar to that found in vitro. In vitro degradation of poly(L-lactic acid) (PLA100) mixed with increasing amounts of PLA100 oligomers also was determined. The degradation rate of PLA100 mixed with 30% oligomers was found to be similar to that of PLA50. In vitro, PLA25GA50 and the breakdown products had no adverse effect on the morphology, survival, and proliferation of cultured rat Schwann cells. In vivo, PLA25GA50 cylinders were integrated into the spinal tissue 2 weeks after implantation, unlike PLA50 cylinders. At all time points after surgery, the glial and inflammatory response near the lesion site was largely similar in both experimental and control animals. At time points later than 1 week, neurofilament-positive fibers were found within PLA25GA50 cylinders or the remains thereof. Growth-associated protein 43, which is indicative of regenerating axons, was observed in fibers in the vicinity of the injury site and in the remains of PLA25GA50 cylinders. The results suggest that poly(α-hydroxyacids) are likely candidates for application in spinal cord regeneration paradigms involving Schwann cells. © 1998 John Wiley & Sons, Inc. J Biomed Mater Res, 42, 642-654, 1998.

Additional Material: 9 Ill.

Type of Medium: Electronic Resource

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