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1.
Neural Plast ; 2018: 5851914, 2018.
Artículo en Inglés | MEDLINE | ID: mdl-30275822

RESUMEN

The regenerative capacity of CNS tracts has ever been a great hurdle to regenerative medicine. Although recent studies have described strategies to stimulate retinal ganglion cells (RGCs) to regenerate axons through the optic nerve, it still remains to be elucidated how these therapies modulate the inhibitory environment of CNS. Thus, the present work investigated the environmental content of the repulsive axon guidance cues, such as Sema3D and its receptors, myelin debris, and astrogliosis, within the regenerating optic nerve of mice submitted to intraocular inflammation + cAMP combined to conditional deletion of PTEN in RGC after optic nerve crush. We show here that treatment was able to promote axonal regeneration through the optic nerve and reach visual targets at twelve weeks after injury. The Regenerating group presented reduced MBP levels, increased microglia/macrophage number, and reduced astrocyte reactivity and CSPG content following optic nerve injury. In addition, Sema3D content and its receptors are reduced in the Regenerating group. Together, our results provide, for the first time, evidence that several regenerative repulsive signals are reduced in regenerating optic nerve fibers following a combined therapy. Therefore, the treatment used made the CNS microenvironment more permissive to regeneration.


Asunto(s)
Compresión Nerviosa/efectos adversos , Regeneración Nerviosa/fisiología , Traumatismos del Nervio Óptico/patología , Nervio Óptico/patología , Nervio Óptico/fisiología , Animales , Células Cultivadas , Ratones , Ratones Endogámicos C57BL , Ratones Transgénicos , Nervio Óptico/ultraestructura , Traumatismos del Nervio Óptico/metabolismo , Retina/metabolismo , Retina/patología , Retina/ultraestructura
2.
Neural Regen Res ; 13(10): 1811-1819, 2018 Oct.
Artículo en Inglés | MEDLINE | ID: mdl-30136697

RESUMEN

Poly(lactic acid) (PLA)-containing nerve guidance conduits (NGCs) are currently being investigated for nerve repair as an alternative to autograft, which leads to permanent functional impairment in the territory innervated by the removed nerve. Combination of polymers modifies the physical properties of the conduits, altering their nerve-guidance properties. Conduits made from PLA-only or combined with other polymers have been used successfully for nerve repair, but their efficiency has not been compared. We compared the morphological and functional outcomes of peripheral nerve repair by using NGCs made of poly(lactic acid) and combined or not with polycaprolactone (PLA/PCL) or polyvinylpyrrolidone (PLA/PVP). To assess the functional recovery, we employed a mechanical hyperalgesia analysis, sciatic functional index (SFI), and electroneuromyography. The mechanical hyperalgesia analysis showed that the PLA group improved more rapidly than the PLA/PVP and PLA/PCL groups; similarly, in the electroneuromyography assay, the PLA group exhibited higher amplitude than the PLA/PCL and PLA/PVP groups. However, the SFI improvement rates did not differ among the groups. Morphologically, the PLA group showed more vascularization, while the nerve fiber regeneration did not differ among the groups. In conclusion, the PLA-only conduits were superior to the other NGCs tested for nerve repair.

3.
Brain Res ; 1650: 243-251, 2016 11 01.
Artículo en Inglés | MEDLINE | ID: mdl-27641994

RESUMEN

The regenerative potential of the peripheral nervous system (PNS) is widely known, but functional recovery, particularly in humans, is seldom complete. Therefore, it is necessary to resort to strategies that induce or potentiate the PNS regeneration. Our main objective was to test the effectiveness of Olfactory Ensheathing Cells (OEC) transplantation into a biodegradable conduit as a therapeutic strategy to improve the repair outcome after nerve injury. Sciatic nerve transection was performed in C57BL/6 mice; proximal and distal stumps of the nerve were sutured into the collagen conduit. Two groups were analyzed: DMEM (acellular grafts) and OEC (1×105/2µL). Locomotor function was assessed weekly by Sciatic Function Index (SFI) and Global Mobility Test (GMT). After eight weeks the sciatic nerve was dissected for morphological analysis. Our results showed that the OEC group exhibited many clusters of regenerated nerve fibers, a higher number of myelinated fibers and myelin area compared to DMEM group. The G-ratio analysis of the OEC group showed significantly more fibers on the most suitable sciatic nerve G-ratio index. Motor recovery was accelerated in the OEC group. These data provide evidence that the OEC therapy can improve sciatic nerve functional and morphological recovery and can be potentially translated to the clinical setting.


Asunto(s)
Vaina de Mielina/trasplante , Regeneración Nerviosa/fisiología , Neuroglía/fisiología , Animales , Trasplante de Células , Ratones , Ratones Endogámicos C57BL , Vaina de Mielina/fisiología , Fibras Nerviosas/fisiología , Corteza Olfatoria , Recuperación de la Función/fisiología , Células de Schwann/trasplante , Nervio Ciático/lesiones
4.
Methods ; 99: 28-36, 2016 Apr 15.
Artículo en Inglés | MEDLINE | ID: mdl-26361830

RESUMEN

Polymeric biomaterials are often used for stimulating nerve regeneration. Among different conduits, poly(lactide acid) - PLA polymer is considered to be a good substrate due to its biocompatibility and resorbable characteristics. This polymer is an aliphatic polyester which has been mostly used in biomedical application. It is an organic compound with low allergenic potential, low toxicity, high biocompatibility and predictable kinetics of degradation. In this study we fabricated and evaluated a PLA microporous hollow fiber as a conduit for its ability to bridge a nerve gap in a mouse sciatic nerve injury model. The PLA conduit was prepared from a polymer solution, throughout extrusion technique. The left sciatic nerve of C57BL/6 mouse was transected and the nerve stumps were placed into a resorbable PLA (PLA group) or a PCL conduit (PCL group), n=5 each group. We have also used another group in which the nerves were repaired by autograft (autograft group, n=5). Motor function was analyzed according to sciatic functional index (SFI). After 56days, the regenerated nerves were processed for light and electron microscopy and morphometric analyses were performed. A quantitative analysis of regenerated nerves showed significant increase in the number of myelinated fibers and blood vessels in animals that received PLA conduit. The PLA group exhibited better overall tissue organization compared to other groups. Presenting well-organized bundles, many regenerating clusters composed of preserved nerve fibers surrounded by layers of compacted perineurium-like cells. Also the SFI revealed a significant improvement in functional recovery. This work suggests that PLA conduits are suitable substrate for cell survival and it provides an effective strategy to be used to support axonal growth becoming a potential alternative to autograft.


Asunto(s)
Regeneración Nerviosa , Poliésteres/química , Nervio Ciático/fisiopatología , Andamios del Tejido/química , Animales , Supervivencia Celular , Células Cultivadas , Estudios de Evaluación como Asunto , Implantes Experimentales , Masculino , Ratones Endogámicos C57BL , Traumatismos de los Nervios Periféricos/terapia , Recuperación de la Función , Células de Schwann/fisiología , Células de Schwann/ultraestructura
6.
PLoS One ; 9(10): e110090, 2014.
Artículo en Inglés | MEDLINE | ID: mdl-25333892

RESUMEN

BACKGROUND: Despite the regenerative potential of the peripheral nervous system, severe nerve lesions lead to loss of target-organ innervation, making complete functional recovery a challenge. Few studies have given attention to combining different approaches in order to accelerate the regenerative process. OBJECTIVE: Test the effectiveness of combining Schwann-cells transplantation into a biodegradable conduit, with treadmill training as a therapeutic strategy to improve the outcome of repair after mouse nerve injury. METHODS: Sciatic nerve transection was performed in adult C57BL/6 mice; the proximal and distal stumps of the nerve were sutured into the conduit. Four groups were analyzed: acellular grafts (DMEM group), Schwann cell grafts (3×105/2 µL; SC group), treadmill training (TMT group), and treadmill training and Schwann cell grafts (TMT + SC group). Locomotor function was assessed weekly by Sciatic Function Index and Global Mobility Test. Animals were anesthetized after eight weeks and dissected for morphological analysis. RESULTS: Combined therapies improved nerve regeneration, and increased the number of myelinated fibers and myelin area compared to the DMEM group. Motor recovery was accelerated in the TMT + SC group, which showed significantly better values in sciatic function index and in global mobility test than in the other groups. The TMT + SC group showed increased levels of trophic-factor expression compared to DMEM, contributing to the better functional outcome observed in the former group. The number of neurons in L4 segments was significantly higher in the SC and TMT + SC groups when compared to DMEM group. Counts of dorsal root ganglion sensory neurons revealed that TMT group had a significant increased number of neurons compared to DMEM group, while the SC and TMT + SC groups had a slight but not significant increase in the total number of motor neurons. CONCLUSION: These data provide evidence that this combination of therapeutic strategies can significantly improve functional and morphological recovery after sciatic injury.


Asunto(s)
Trasplante de Células , Regeneración Nerviosa , Condicionamiento Físico Animal , Células de Schwann/citología , Nervio Ciático/citología , Nervio Ciático/fisiología , Animales , Axones/fisiología , Supervivencia Celular , Modelos Animales de Enfermedad , Masculino , Ratones , Neuronas Motoras/fisiología , Factores de Crecimiento Nervioso/metabolismo , Unión Neuromuscular , Traumatismos de los Nervios Periféricos/patología , Traumatismos de los Nervios Periféricos/fisiopatología , Traumatismos de los Nervios Periféricos/terapia , Poliésteres/metabolismo , Recuperación de la Función , Nervio Ciático/ultraestructura
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