超高通量质谱与超高速分离：差分迁移率光谱-声弹射质谱（DAEMS）。

IF 1.8 4区医学 Q3 BIOCHEMICAL RESEARCH METHODS

Bioanalysis Pub Date : 2025-08-01 Epub Date: 2025-08-14 DOI:10.1080/17576180.2025.2546780

Samad Bazargan, Chang Liu, Bradley B Schneider, Thomas R Covey

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引用次数: 0

摘要

随着质谱环境电离领域的不断进步，具有1个样品/秒等高通量能力的系统随时可用。这导致质谱法广泛应用于各种应用，包括药物发现过程中的应用。质谱仪传统上依赖于分离前技术，如高压液相色谱法进行样品清理和等压分离，但这些技术不具有高通量兼容性。差分迁移率光谱法是一种高速大气分离装置，分离与m/z正交，可以与高通量样品引入装置（如声弹射质谱仪）相结合，以解决这一差距。在本文中，我们将重点介绍关于该主题的最新报告的重要性，并提供一些关于将该技术扩展到新应用程序的见解。我们相信这是一个有前途的新发展，将有助于推动高通量质谱超越等压干扰。

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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Ultra-high throughput mass spectrometry with ultra high-speed separations: differential mobility spectrometry-acoustic ejection mass spectrometry (DAEMS).

With the ongoing advancements in the field of ambient ionization for mass spectrometry, systems with a high-throughput capability on the order of 1 sample/second are readily available. This has led to the adoption of mass spectrometry for a wide variety of applications including those in the drug discovery process. Mass spectrometers have traditionally relied on pre-separation technologies such as high-pressure liquid chromatography for sample clean-up and isobaric separations, but such techniques are not high-throughput compatible. Differential mobility spectrometry is a high-speed atmospheric separation device with separations orthogonal to m/z that can be coupled with the high-throughput sample introduction devices such as acoustic ejection mass spectrometer to address this gap. In this article we highlight the significance of the recent reports on this topic and provide some insights into expanding the use of this technique for new applications. We believe this is a promising new development and will help propel the high-throughput mass spectrometry beyond isobaric interferences.

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来源期刊

Bioanalysis BIOCHEMICAL RESEARCH METHODS-CHEMISTRY, ANALYTICAL

CiteScore

3.30

自引率

16.70%

发文量

审稿时长

2 months

期刊介绍： Reliable data obtained from selective, sensitive and reproducible analysis of xenobiotics and biotics in biological samples is a fundamental and crucial part of every successful drug development program. The same principles can also apply to many other areas of research such as forensic science, toxicology and sports doping testing. The bioanalytical field incorporates sophisticated techniques linking sample preparation and advanced separations with MS and NMR detection systems, automation and robotics. Standards set by regulatory bodies regarding method development and validation increasingly define the boundaries between speed and quality. Bioanalysis is a progressive discipline for which the future holds many exciting opportunities to further reduce sample volumes, analysis cost and environmental impact, as well as to improve sensitivity, specificity, accuracy, efficiency, assay throughput, data quality, data handling and processing. The journal Bioanalysis focuses on the techniques and methods used for the detection or quantitative study of analytes in human or animal biological samples. Bioanalysis encourages the submission of articles describing forward-looking applications, including biosensors, microfluidics, miniaturized analytical devices, and new hyphenated and multi-dimensional techniques. Bioanalysis delivers essential information in concise, at-a-glance article formats. Key advances in the field are reported and analyzed by international experts, providing an authoritative but accessible forum for the modern bioanalyst.