Potential for Stem Cell-Based Therapy in the Road of Treatment for Neurological Disorders Secondary to COVID-19.

IF 2.2 Q3 ENGINEERING, BIOMEDICAL Regenerative Engineering and Translational Medicine Pub Date : 2022-01-01 Epub Date: 2021-10-29 DOI:10.1007/s40883-021-00234-x
Babak Arjmand, Peyvand Parhizkar Roudsari, Sepideh Alavi-Moghadam, Mostafa Rezaei-Tavirani, Akram Tayanloo-Beik, Neda Mehrdad, Hossein Adibi, Bagher Larijani
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引用次数: 1

Abstract

Abstract: The severe acute respiratory syndrome coronavirus 2 has led to the worldwide pandemic named coronavirus disease 2019 (COVID-19). It has caused a significant increase in the number of cases and mortalities since its first diagnosis in December 2019. Although COVID-19 primarily affects the respiratory system, neurological involvement of the central and peripheral nervous system has been also reported. Herein, the higher risk of neurodegenerative diseases in COVID-19 patients in future is also imaginable. Neurological complications of COVID-19 infection are more commonly seen in severely ill individuals; but, earlier diagnosis and treatment can lead to better long-lasting results. In this respect, stem cell biotechnologies with considerable self-renewal and differentiation capacities have experienced great progress in the field of neurological disorders whether in finding out their underlying processes or proving them promising therapeutic approaches. Herein, many neurological disorders have been found to benefit from stem cell medicine strategies. Accordingly, in the present review, the authors are trying to discuss stem cell-based biotechnologies as promising therapeutic options for neurological disorders secondary to COVID-19 infection through reviewing neurological manifestations of COVID-19 and current stem cell-based biotechnologies for neurological disorders.

Lay summary: Due to the substantial burden of neurological disorders in the health, economic, and social system of society, the emergence of neurological manifestations following COVID-19 (as a life-threatening pandemic) creates the need to use efficient and modern methods of treatment. Since stem cell-based methods have been efficient for a large number of neurological diseases, it seems that the use of mentioned methods is also effective in the process of improving neurological disorders caused by COVID-19. Hereupon, the current review aims to address stem cell-based approaches as treatments showing promise to neurological disorders related to COVID-19.

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干细胞疗法在COVID-19继发性神经系统疾病治疗中的潜力
摘要:由严重急性呼吸综合征冠状病毒2引发的冠状病毒病2019 (COVID-19)在全球范围内流行。自2019年12月首次确诊以来,该病毒已导致病例和死亡人数大幅增加。虽然COVID-19主要影响呼吸系统,但也有报道称中枢和周围神经系统受到神经系统的影响。因此,未来COVID-19患者发生神经退行性疾病的风险更高也是可以想象的。COVID-19感染的神经系统并发症更常见于重症患者;但是,早期诊断和治疗可以带来更好的长期效果。在这方面,干细胞生物技术具有相当的自我更新和分化能力,无论是在发现其潜在过程还是证明其有希望的治疗方法方面,都在神经系统疾病领域取得了巨大进展。在此,许多神经系统疾病已被发现受益于干细胞医学策略。因此,在本综述中,作者试图通过回顾COVID-19的神经系统表现和目前基于干细胞的神经系统疾病生物技术,讨论基于干细胞的生物技术作为COVID-19感染继发性神经系统疾病的有希望的治疗选择。摘要:由于神经系统疾病给社会的卫生、经济和社会系统带来巨大负担,COVID-19(作为一种危及生命的大流行)后出现的神经系统症状需要使用高效和现代的治疗方法。由于基于干细胞的方法对大量神经系统疾病有效,因此上述方法的使用似乎在改善COVID-19引起的神经系统疾病的过程中也有效。因此,目前的综述旨在解决基于干细胞的方法作为治疗与COVID-19相关的神经系统疾病的希望。
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来源期刊
CiteScore
4.90
自引率
11.50%
发文量
41
期刊介绍: Regenerative Engineering is an international journal covering convergence of the disciplines of tissue engineering, advanced materials science, stem cell research, the physical sciences, and areas of developmental biology. This convergence brings exciting opportunities to translate bench-top research into bedside methods, allowing the possibility of moving beyond maintaining or repairing tissues to regenerating them. The journal encourages both top-down engineering approaches and bottom-up strategies integrating materials science with stem cell research and developmental biology. Convergence papers on instructive biomaterials, stimuli-responsive biomaterials, micro- and nano-patterning for regenerative engineering, elastomeric biomaterials, hydrogels for tissue engineering, and rapid prototyping and bioprinting approaches are particularly welcome. The journal provides a premier, single-blind peer-reviewed forum for the publication of original papers, authoritative reviews, rapid communications, news and views, and opinion papers addressing the most important issues and efforts toward successfully regenerating complex human tissues and organs. All research articles feature a lay abstract highlighting the relevance and future impact for patients, government and other health officials, and members of the general public. Bridging the gap between the lab and the clinic, the journal also serves as a dedicated platform for showcasing translational research that brings basic scientific research and discoveries into clinical methods and therapies, contributing to the improvement of human health care. Topics covered in Regenerative Engineering and Translational Medicine include: Advanced materials science for regenerative and biomedical applicationsStem cells for tissue regenerationDrug delivery for tissue regenerationNanomaterials and nanobiotechnology for tissue regenerationStudies combining tissue engineering/regeneration with developmental biologyConvergence research in pre-clinical and clinical phases
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