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Injury-specific pathways shape corneal nerve regeneration dynamics. [PDF]
Sci RepMeneux L +10 more
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Assessment of nerve regeneration using nerve guidance conduits in inferior alveolar nerve injuries. [PDF]
BioinformationShrivastava A +5 more
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3D printed nerve guidance conduit for biologics-free nerve regeneration and vascular integration. [PDF]
Bioeng Transl MedSchimelman J +6 more
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Systematic Review of Nerve Adhesion Barriers for Peripheral Nerve Regeneration and Functional Recovery. [PDF]
Orthop Res RevSatria O, Aprilya D.
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Natural Polymer‐Derived Bioscaffolds for Peripheral Nerve Regeneration
Advanced Functional Materials, 2022In recent decades, artificial nerve scaffolds have become a promising substitute for peripheral nerve repair. Considerable efforts have been devoted to improving the therapeutic effectiveness of artificial scaffolds.
Hui Zhang +5 more
semanticscholar +1 more source
Biomaterials, 2021
Mechanistic understanding of the topological cues delivered by biomaterials in promotion of oriented tissue regeneration (e.g., peripheral nerve regrowth) remains largely elusive.
Xianhao Dong +12 more
semanticscholar +1 more source
Mechanistic understanding of the topological cues delivered by biomaterials in promotion of oriented tissue regeneration (e.g., peripheral nerve regrowth) remains largely elusive.
Xianhao Dong +12 more
semanticscholar +1 more source
Biomaterials, 2021
Delayed injured nerve regeneration remains a clinical problem, partly ascribing to the lack of regulation of regenerative microenvironment, topographical cues, and blood nourishment. Functional electrospun conduits have been established as an efficacious
Xianzhen Dong +8 more
semanticscholar +1 more source
Delayed injured nerve regeneration remains a clinical problem, partly ascribing to the lack of regulation of regenerative microenvironment, topographical cues, and blood nourishment. Functional electrospun conduits have been established as an efficacious
Xianzhen Dong +8 more
semanticscholar +1 more source
Annual Review of Neuroscience, 1990
Schwann cell basal laminae were demonstrated to serve as efficient conduits for the growth of regenerating axons in frozen nerve grafts, and in in situ freezing experiments. Regenerating axonal sprouts usually emanated from the first node of Ranvier proximal to the site of damage, and grew out along the inner surface of the basal lamina.
J W, Fawcett, R J, Keynes
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Schwann cell basal laminae were demonstrated to serve as efficient conduits for the growth of regenerating axons in frozen nerve grafts, and in in situ freezing experiments. Regenerating axonal sprouts usually emanated from the first node of Ranvier proximal to the site of damage, and grew out along the inner surface of the basal lamina.
J W, Fawcett, R J, Keynes
openaire +4 more sources