新加坡COVID-19诊断技术创新

Wenfa Ng
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引用次数: 0

摘要

由于物种屏障和对新宿主环境的适应性差,很少有病原体引起全球大流行。但是,SARS-CoV-2是一个例外,它具有高传播性和延迟症状发作。幸运的是,世界能够利用这些技术,特别是成熟的用于对抗SARS的RT-qPCR,对SARS- cov -2发动初步攻势。这些最初的努力可能为科学家们争取了时间,以开发专门针对SARS-CoV-2的更精确的诊断测试。本文描述了新加坡生物技术行业和学术界为开发诊断测试所做的努力,这些测试有助于早期发现阳性病例,从而帮助控制病毒。直接检测,如RT-qPCR和抗原快速检测,分别检测病毒核酸和表面蛋白。但是,在病例检测和治疗中同样重要的是血清学测试,测量IgM和IgG的相对丰度,这表明阳性病例的感染阶段和免疫反应的质量。其他测试,如等温扩增、基于crispr的诊断和呼吸测试也在开发中或处于初步现场部署阶段,毫无疑问将提供宝贵的使用经验,有助于开发分子分析方法,以发现和对抗下一个全球关注的病原体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Technological Innovations in COVID-19 Diagnostics in Singapore
Due to species barriers and poor adaptability to new host environments, few pathogens cause global pandemics. But, SARS-CoV-2 is one exception with its high transmissivity and delayed onset of symptoms. Fortunately, the world was able to tap on the technologies especially the maturing RT-qPCR designed to combat SARS to launch an initial offensive on SARS-CoV-2. These initial efforts may have bought time for scientists to develop more refined diagnostic tests that specifically target SARS-CoV-2. This article describes the effort put forth by the biotech industry and academia in Singapore to develop diagnostic tests that aid the early detection of positive cases, and thereby help contain the virus. Direct tests such as RT-qPCR and antigen rapid test profile the virus nucleic acid and surface proteins, respectively. But, of equal importance in case detection and treatment is serological tests that measure the relative abundance of IgM and IgG which is indicative of infection phase and quality of immune response in positive cases. Other tests such as isothermal amplification, CRISPR-based diagnostics and breath tests are also in development or at initial field deployment, and would undoubtedly provide valuable use experience useful for the development of molecular assays to detect and combat the next pathogen of global concern.
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