干细胞作为臂丛神经损伤有前景的治疗方法的前景:一项系统评价
Prospect of Stem Cells as Promising Therapy for Brachial Plexus Injury: A Systematic Review.
作者信息
Sumarwoto Tito, Suroto Heri, Mahyudin Ferdiansyah, Utomo Dwikora Novembri, Romaniyanto F N U, Prijosedjati Andhi, Notobroto Hari Basuki, Tinduh Damayanti, Prakoeswa Cita Rosita Sigit, Rantam Fedik Abdul, Rhatomy Sholahuddin
机构信息
Doctoral Program, Faculty of Medicine, Airlangga University, Surabaya, Indonesia.
Department of Orthopaedics and Traumatology, Prof Soeharso Orthopaedic Hospital/Faculty of Medicine, Sebelas Maret University, Surakarta, Indonesia.
出版信息
Stem Cells Cloning. 2022 Jun 22;15:29-42. doi: 10.2147/SCCAA.S363415. eCollection 2022.
BACKGROUND
Brachial plexus injury is an advanced and devastating neurological injury, for which both nerve surgery and tendon transfers sometimes remain insufficient in restoring normal movement. Stem cell therapy may be applicable to rescue the injured motor neurons from degeneration which potentially improves muscle strength.
STUDY DESIGN
Systematic Review; Level of evidence V.
DATA SOURCES
A systematic literature search was conducted on PubMed (MEDLINE), EMBASE, the Cochrane Library, and Scopus using the terms ("stem cell") AND ("brachial plexus") as search keywords.
METHODS
The process of study selection was summarized by PRISMA flow diagram. The study included in vivo and in vitro studies with English language, humans or animals with some brachial plexus injuries, interventions, some applications of stem cells to the groups of study, with functional, biomechanical, or safety outcomes.
RESULTS
In total, there were 199 studies identified from the literature sources where 75 articles were qualified for forward evaluation following selecting the titles and abstracts. Ten studies were finally included in this systematic review after full-text assessment. Stem cells can produce neurotrophic factors in vitro and in vivo in rats, and their level was increased after injury. Electrophysiological measurement showed that the intervention group had distinctly higher CMAP amplitude and evidently shorter CMAP latency than the model group. Application of bone marrow stem cells (BMSCs) showed an elevation in the numbers of axons and density of myelinated fibers, the density of nerve fibers, the diameter of regenerating axons, and a decrease in axonal degeneration. A study in humans indicated an improvement of the movements in a patient with traumatic total BPI after injection of Ad-MSC. It is associated with increased muscle mass and sensory recovery and also suggested that mononuclear cell injection enhances muscle regeneration and reinnervation in the partly denervated muscle of brachial plexus injury. Various muscle groups had obtained strength together with restoration, the muscle strength attained after the previous transplantation were preserved. The results of this review support stem cell treatment in brachial plexus injury.
CONCLUSION
This review provides evidence of the positive effects of stem cell treatment in brachial plexus injury.
背景
臂丛神经损伤是一种严重的毁灭性神经损伤,对于这种损伤,神经外科手术和肌腱转移有时在恢复正常运动方面仍显不足。干细胞疗法可能适用于挽救受损的运动神经元免于退化,这有可能提高肌肉力量。
研究设计
系统评价;证据等级为V级。
数据来源
使用搜索关键词(“干细胞”)和(“臂丛神经”)在PubMed(MEDLINE)、EMBASE、Cochrane图书馆和Scopus上进行了系统的文献检索。
方法
研究选择过程通过PRISMA流程图进行总结。该研究包括体内和体外研究,语言为英语,研究对象为患有某些臂丛神经损伤的人类或动物,有干预措施,将干细胞应用于研究组,有功能、生物力学或安全性结果。
结果
从文献来源中总共识别出199项研究,在筛选标题和摘要后,有75篇文章符合进一步评估的条件。经过全文评估,最终有10项研究纳入本系统评价。干细胞在体外和大鼠体内均可产生神经营养因子,损伤后其水平升高。电生理测量显示,干预组的复合肌肉动作电位(CMAP)幅度明显高于模型组,CMAP潜伏期明显短于模型组。应用骨髓干细胞(BMSCs)显示轴突数量增加、有髓纤维密度增加、神经纤维密度增加、再生轴突直径增加,且轴突变性减少。一项针对人类的研究表明,注射腺病毒载体介导的间充质干细胞(Ad-MSC)后,一名创伤性全臂丛神经损伤患者的运动功能得到改善。这与肌肉质量增加和感觉恢复有关,还表明单核细胞注射可增强臂丛神经损伤部分失神经肌肉的肌肉再生和神经再支配。各个肌肉群在恢复的同时都获得了力量,先前移植后获得的肌肉力量得以保留。本综述的结果支持干细胞治疗臂丛神经损伤。
结论
本综述提供了干细胞治疗臂丛神经损伤具有积极效果的证据。
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