高级鲁米诺衍生物的增强化学发光提供基于智能手机的酶促μPAD护理点测试

IF 3.4 Q2 CHEMISTRY, ANALYTICAL Analysis & sensing Pub Date : 2023-02-28 DOI:10.1002/anse.202200111
Simone Rink, Prof. Dr. Axel Duerkop, Prof. Dr. Antje J. Baeumner
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引用次数: 0

摘要

化学发光(CL)为护理点测试(POCT)提供了理想的条件,具有宽的动态范围、优异的灵敏度和检测简单性。由于典型探针的量子产率自然较低,并且缺乏灵敏的低成本检测设备,因此它还没有常规进入POCT领域。在这里,我们开发了一种通用的微流体纸基分析装置(μPAD),使用l-乳酸作为模型分析物。我们证明,当使用强CL发射器间羧基鲁米诺时,智能手机相机可以与科学CCD相机作为性能基准进行竞争,从而获得67的非凡信噪比。μPAD提供CV<;10 %, 室温稳定性≥3 几个月和简单的处理。此外,μPAD能够检测发光体的皮摩尔数,从而提供额外的设计灵活性。因此,这种新的CL-μPAD可用于将在微量滴定板、微阵列或其他更复杂的检测策略中进行的许多CL标准分析分析转化为POC。
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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Enhanced Chemiluminescence of a Superior Luminol Derivative Provides Sensitive Smartphone-Based Point-of-Care Testing with Enzymatic μPAD

Chemiluminescence (CL) provides ideal conditions for point-of-care testing (POCT) with wide dynamic ranges, superior sensitivities, and detection simplicity. It has not arrived routinely in the POCT field due to naturally low quantum yields of typical probes and the lack of sensitive low-cost detection devices. Here, we developed a universal microfluidic paper-based analytical device (μPAD) using l-lactate as model analyte. We demonstrate that a smartphone camera can compete with a scientific CCD camera as performance benchmark when using the strong CL emitter, m-carboxy luminol, resulting in extraordinary signal-to-noise ratios of 67. The μPAD provides CV<10 %, stability at room temperature for≥3 months and simple processing. Furthermore, the μPAD enables the detection of picomoles of the luminophore providing additional design flexibility. Thus, this new CL-μPAD is available for translating the many CL standard analytical assays performed in microtiter plates, microarrays or other more complex detection strategies to the POC.

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