On the Disinfection of Electrochemical Aptamer-Based Sensors.

ECS sensors plus Pub Date : 2022-03-01 DOI:10.1149/2754-2726/ac60b2

Julia Chung, Lior Sepunaru, Kevin W Plaxco

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引用次数: 21

Abstract

Electrochemical aptamer-based (EAB) sensors encompass the only biosensor approach yet reported that is simultaneously: (1) independent of the chemical or enzymatic reactivity of its target, rendering it general; (2) continuous and real-time; and (3) selective enough to deploy in situ in the living body. Consistent with this, in vivo EAB sensors supporting the seconds-resolved, real-time measurement of multiple drugs and metabolites have been reported, suggesting the approach may prove of value in biomedical research and the diagnosis, treatment, and monitoring of disease. However, to apply these devices in long-duration animal models, much less in human patients, requires that they be free of any significant pathogen load. Thus motivated, here we have characterized the compatibility of EAB sensors with standard sterilization and high-level disinfection techniques. Doing so, we find that, while many lead to significant sensor degradation, treatment with CIDEX OPA (0.55% ortho-phthalaldehyde) leads to effective disinfection without causing any detectable loss in sensor performance.

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电化学适体传感器的消毒研究。

基于电化学适配体(EAB)的传感器包含了迄今为止报道的唯一的生物传感器方法，同时:(1)独立于其目标的化学或酶反应性，使其具有一般性;(2)连续、实时;(3)有足够的选择性在活体中就地部署。与此相一致的是，有报道称，体内EAB传感器支持秒分辨、实时测量多种药物和代谢物，这表明该方法可能在生物医学研究和疾病的诊断、治疗和监测中具有价值。然而，要将这些装置应用于长时间的动物模型，更不用说应用于人类患者，就需要它们没有任何显著的病原体负荷。因此，我们在这里描述了EAB传感器与标准灭菌和高级消毒技术的兼容性。这样做，我们发现，虽然许多导致严重的传感器降解，但用CIDEX OPA(0.55%邻苯二醛)处理可以有效消毒，而不会导致传感器性能的任何可检测到的损失。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ECS sensors plus

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