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A novel technique using hydrophilic polymers to promote axonal fusion 被引量:2

A novel technique using hydrophilic polymers to promote axonal fusion
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摘要 The management of traumatic peripheral nerve injury remains a considerable concern for clinicians.With minimal innovations in surgical technique and a limited number of specialists trained to treat peripheral nerve injury,outcomes of surgical intervention have been unpredictable.The inability to manipulate the pathophysiology of nerve injury(i.e.,Wallerian degeneration) has left scientists and clinicians depending on the slow and lengthy process of axonal regeneration(-1 mm/day).When axons are severed,the endings undergo calcium-mediated plasmalemmal sealing,which limits the ability of the axon to be primarily repaired.Polythethylene glycol(PEG) in combination with a bioengineered process overcomes the inability to fuse axons.The mechanism for PEG axonal fusion is not clearly understood,but multiple studies have shown that a providing a calcium-free environment is essential to the process known as PEG fusion.The proposed mechanism is PEG-induced lipid bilayer fusion by removing the hydration barrier surrounding the axolemma and reducing the activation energy required for membrane fusion to occur.This review highlights PEG fusion,its past and current studies,and future directions in PEG fusion. The management of traumatic peripheral nerve injury remains a considerable concern for clinicians.With minimal innovations in surgical technique and a limited number of specialists trained to treat peripheral nerve injury,outcomes of surgical intervention have been unpredictable.The inability to manipulate the pathophysiology of nerve injury(i.e.,Wallerian degeneration) has left scientists and clinicians depending on the slow and lengthy process of axonal regeneration(-1 mm/day).When axons are severed,the endings undergo calcium-mediated plasmalemmal sealing,which limits the ability of the axon to be primarily repaired.Polythethylene glycol(PEG) in combination with a bioengineered process overcomes the inability to fuse axons.The mechanism for PEG axonal fusion is not clearly understood,but multiple studies have shown that a providing a calcium-free environment is essential to the process known as PEG fusion.The proposed mechanism is PEG-induced lipid bilayer fusion by removing the hydration barrier surrounding the axolemma and reducing the activation energy required for membrane fusion to occur.This review highlights PEG fusion,its past and current studies,and future directions in PEG fusion.
出处 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第4期525-528,共4页 中国神经再生研究(英文版)
基金 supported by the Department of Defense:Grant Number OR120216--Development of Class Ⅱ Medical Device for Clinical Translation of a Novel PEG Fusion Method for Immediate Physiological Recovery after Peripheral Nerve Injury
关键词 peripheral nerve injury polyethylene glycol axonal fusion nerve transection traumatic neuropathy peripheral nerve injury polyethylene glycol axonal fusion nerve transection traumatic neuropathy
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