预防、诊断和治疗COVID-19的纳米材料方法:范式转变

Sougata Ghosh, E. Mostafavi, Ada Vernet-Crua, T. Webster
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引用次数: 3

摘要

在中国武汉出现的2019年新型冠状病毒(严重急性呼吸系统综合征冠状病毒2(SARS-CoV-2))到2020年4月迅速传播到203个国家和地区,其全球影响令人担忧。迄今为止,已有14,909,279人被感染,造成614471人死亡。虽然起源于动物,但该病毒目前已适应了人与人之间的传播模式,这对所有现有的抗病毒疗法都构成了挑战。不幸的是,目前还没有药物或疫苗被批准用于治疗COVID-19,因为现有的治疗方法,如单克隆抗体、基于寡核苷酸的疗法、多肽、干扰素疗法和小分子药物,可能无法有效地靶向病毒,而且开发时间太长。因此,很可能需要至少一年的时间才能获得治疗(例如疫苗),这是令人痛苦的。考虑到SARS-CoV-2疫情的紧迫性,我们提出了第一个纳米级替代品(包括Moderna开发的最成功的纳米药物之一),用于有效控制和遏制COVID-19。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanomaterial Approaches for the Prevention, Diagnosis and Treatment of COVID-19: A Paradigm Shift
The global impact of the 2019 novel coronavirus (Severe Acute Respiratory Syndrome Coronavirus 2(SARS-CoV-2)) that emerged in Wuhan, China is alarming due to its rapid spread to 203 countries and territories by April 2020. To date, 14,909,279 individuals have been infected which has claimed 614471 lives. Although originating in animals, the virus has adapted a human-to-human mode of transmission presently which has challenged all existing antiviral therapies. Unfortunately, no drug or vaccine has yet been approved to treat COVID-19 because available therapeutics like monoclonal antibodies, oligonucleotide-based therapies, peptides, interferon therapies and small-molecule drugs might not effectively target the virus and take too long to develop. Hence, it is likely that it will take at least a year before treatment (e.g., a vaccine) becomes available, which is distressing. Herein, we present the first nanoscale alternatives (including one of the most successful nanomedicines developed by Moderna) for the effective control and containment of COVID-19 considering the urgency of the SARS-CoV-2 outbreak.
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