在ASSURED标准下评估碳电极电泳术。

Frontiers in Medical Technology Pub Date : 2022-07-26 eCollection Date: 2022-01-01 DOI:10.3389/fmedt.2022.922737
Rodrigo Martinez-Duarte, Dario Mager, Jan G Korvink, Monsur Islam
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引用次数: 0

摘要

极端护理点是指在缺乏初级资源或基础设施的不利条件下进行的医学检测。正如最近所看到的那样,人们对开发用于极端护理点应用的设备和技术非常感兴趣,世界卫生组织为此推出了一套令人鼓舞和规范的准则。这些被称为ASSURED标准,是Affordable (A)、Sensitive (S)、Specific (S)、User - friendly (U)、Rapid and Robust (R)、设备free -free (E)和Delivered (D)的首字母缩写。然而,目前的极端护理设备可能需要中间的样品制备步骤来执行复杂的生物医学分析,包括罕见细胞疾病的诊断和败血症的早期检测。本文评估了碳电极电泳仪(CarbonDEP)在极端护理点的样品制备能力的潜力,遵循有保证的标准。我们首先讨论了介质电泳(DEP)的理论和应用,以及在此目的中使用碳微电极的优点。然后,我们批判性地回顾了在ASSURED标准范围内使用CarbonDEP进行生物制品操作的相关文献。最后,我们提供了加强在极端护理点应用中使用CarbonDEP所需的路线图的观点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Evaluating carbon-electrode dielectrophoresis under the ASSURED criteria.

Evaluating carbon-electrode dielectrophoresis under the ASSURED criteria.

Evaluating carbon-electrode dielectrophoresis under the ASSURED criteria.

Evaluating carbon-electrode dielectrophoresis under the ASSURED criteria.

Extreme point-of-care refers to medical testing in unfavorable conditions characterized by a lack of primary resources or infrastructure. As witnessed in the recent past, considerable interest in developing devices and technologies exists for extreme point-of-care applications, for which the World Health Organization has introduced a set of encouraging and regulating guidelines. These are referred to as the ASSURED criteria, an acronym for Affordable (A), Sensitive (S), Specific (S), User friendly (U), Rapid and Robust (R), Equipment-free (E), and Delivered (D). However, the current extreme point of care devices may require an intermediate sample preparation step for performing complex biomedical analysis, including the diagnosis of rare-cell diseases and early-stage detection of sepsis. This article assesses the potential of carbon-electrode dielectrophoresis (CarbonDEP) for sample preparation competent in extreme point-of-care, following the ASSURED criteria. We first discuss the theory and utility of dielectrophoresis (DEP) and the advantages of using carbon microelectrodes for this purpose. We then critically review the literature relevant to the use of CarbonDEP for bioparticle manipulation under the scope of the ASSURED criteria. Lastly, we offer a perspective on the roadmap needed to strengthen the use of CarbonDEP in extreme point-of-care applications.

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