A novel nanofibrous construct for promoting peripheral nerve repair was fabricated and tested in a rat sciatic nerve defect model. The conduit is made out of bilayered nanofibrous membranes with the nanofibers longitudinally aligned in the lumen and randomly oriented on the outer surface. The intra-luminal guidance channel is made out of aligned nanofibrous yarns. In addition, biomolecules such as laminin and nerve growth factor were incorporated in the nanofibrous nerve construct to determine their efficacy in in vivo nerve regeneration. Muscle reinnervation, withdrawal reflex latency, histological, axon density and electrophysiology tests were carried out to compare the efficacy of nanofibrous constructs with an autograft. Our study showed mixed results when comparing the artificial constructs with an autograft. In some cases, the nanofibrous conduit with aligned nanofibrous yarn as an intra-luminal guidance channel performs better than the autograft in muscle reinnervation and withdrawal reflex latency tests. However, the axon density count is highest in the autograft at mid-graft. Functional recovery was improved with the use of the nerve construct which suggested that this nerve implant has the potential for clinical usage in reconstructing peripheral nerve defects.
Nanotechnology is an area receiving increasing attention as progress is made towards
tailoring the morphology of polymeric biomaterial for a variety of applications. In the
present study an attempt was made to electrospin poly(L-lactide-co-glycolide)
biodegradable polymer nanofibres. In this process, polymer fibres with diameters down to
the nanometre range are formed by subjecting a fluid jet to a high electric field.
The nanofibres were collected on to a rotating Teflon mandrel and fabricated to
tubes or conduits, to function as nerve guidance channels. The feasibility of in
vivo nerve regeneration was investigated through several of these conduits. The
biological performance of the conduits were examined in the rat sciatic nerve model
with a 10 mm gap length. After implantation of the nanofibre nerve guidance
conduit to the right sciatic nerve of the rat, there was no inflammatory response.
One month after implantation five out of eleven rats showed successful nerve
regeneration. None of the implanted tubes showed tube breakage. The nanofibre
nerve guidance conduits were flexible, permeable and showed no swelling. Thus,
these new poly(L-lactide-co-glycolide) nanofibre conduits can be effective aids for
nerve regeneration and repair. Improvements could be done by impregnating
nerve growth factors or Schwann cells and may lead to clinical applications.
the derivation of age- and education-adjusted normative scores of a selected neuropsychological assessment battery on elderly Chinese people enables a more accurate diagnosis of dementia to be made and may facilitate better international comparisons of this condition. As our subjects are representative of many others from China, these results may serve not only as a local, but also as a regional, reference source.
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