[在线样品制备技术与液相色谱-质谱联用系统在食品危害检测中的应用进展]。

IF 1.2 4区 化学 Q4 CHEMISTRY, ANALYTICAL
Hongwen Zhai, Hongyu Ma, Meirong Cao, Mingxing Zhang, Junmei Ma, Yan Zhang, Qiang Li
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引用次数: 0

摘要

食品安全日益受到人们的关注,食品检测意义重大。食品基质复杂,食品危害多样。因此,食品基质的检测方法和样品制备技术必须不断优化和更新。使用色谱系统检测食品危害通常需要几个步骤:样品制备,即使用合适的预处理方法从不同基质中分离目标物;目标物分离和纯化,通常使用色谱分离来实现。通常根据目标化合物的特性选择合适的检测器进行定性和定量分析。样品制备过程被认为是整个食品分析过程中最耗时的环节。它还容易造成分析误差。因此,优化样品制备过程是化学分析领域的一个关键问题。研究人员已经开发出一系列新型、高效、准确的样品预处理方法,并发现在线样品制备系统是一种可行的方法。在线样品制备与液相色谱-质谱联用(LC-MS)具有许多优点。首先,人工操作可减少分析误差,确保良好的准确性和重复性。它还可以减少化学试剂的消耗,避免样品之间的交叉污染。此外,在线样品制备系统可以缩短样品制备时间,提高检测效率。与 LC-MS 相结合的在线样品制备系统已广泛应用于环境、生物和食品等领域。与液相色谱-质谱联用的在线样品制备系统分为两个模块:第一模块涉及样品制备,第二模块涉及液相色谱系统。第一个模块去除杂质,分离目标化合物,为定性和定量检测做准备。这两个模块的耦合主要取决于阀门的开关。本文将介绍最常用的在线样品制备技术,包括在线固相萃取(on-line SPE)、管内固相微萃取(in-tube SPME)和湍流色谱(TFC)。然后,我们将详细介绍这三种在线分析技术的基本原理和耦合设备。耦合设备在两个模块之间建立物理连接。接下来,我们讨论了在线样品制备柱中不同纯化填料的特性。此外,还讨论了在线系统在农药残留、兽药残留和生物毒素方面的应用和研究进展。与离线样品制备相比,在线分析系统具有多种优势。在线分析系统不仅能大大减少分析时间和溶剂消耗,还能提高检测灵敏度和准确度。此类系统可用于确定食品危害,确保食品安全。最后,对在线分析系统存在的问题和发展趋势进行了讨论和展望。为促进在线分析技术在食品安全检测中的应用,我们建议从以下三个方面着手。首先,除 C18 或聚合物填料外,应开发更多使用新型填料的在线纯化柱。其次,与普通检测器相比,高分辨率 MS 检测器具有更高的精度和准确度。将在线分析技术与高分辨率质谱仪结合起来可能有利于在线分析的进一步发展。第三,应对不同的食品基质进行比较和评估,不断优化检测过程,提高在线分析系统的效率。随着人们对食品安全问题的日益关注,在线分析技术在食品检测方面的应用将变得越来越重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Application progress of on-line sample preparation techniques coupled with liquid chromatography-mass spectrometry system in the detection of food hazards].

Food safety has received increased attention, and food detection is of great significance. The food matrix is complex, and diverse food hazards have been identified. Thus, the detection methods and sample preparation techniques for food matrices must be continuously optimized and updated. Several steps are usually required when a chromatographic system is used to determine food hazards: sample preparation, that is, the separation of targets from different substrates using a suitable preprocessing method and target-substance separation and purification, which is usually achieved using chromatographic separation. The selection of an appropriate detector for qualitative and quantitative analyses is usually based on the properties of the target compound. The sample preparation procedure is considered the most time-consuming aspect of the entire food-analysis process. It is also prone to analytical errors. Therefore, optimization of the sample preparation process is a key issue in the field of chemical analysis. Researchers have developed a series of new, efficient, and accurate sample preprocessing methods, and an on-line sample-preparation system has been found to be a feasible approach. On-line sample preparation coupled with liquid chromatography-mass spectrometry (LC-MS) presents many advantages. First, manual operation could reduce analytical errors to ensure good accuracy and repeatability. It could also reduce the consumption of chemical reagents and avoid cross-contamination between samples. Furthermore, an on-line sample-preparation system could shorten the sample-preparation time and improve the detection efficiency. On-line sample preparation coupled with LC-MS has been widely applied in the fields of environment, biology, and food. On-line sample preparation systems coupled with LC-MS are divided into two modules: the first modules involves sample preparation and the second module involves the LC system. The first module remove impurities and isolates the target compounds in preparation for their qualitative and quantitative detection. The coupling of these two modules depends mainly on valve switching. In this paper, we introduce the most frequently used on-line sample-preparation techniques, including on-line solid phase extraction (on-line SPE), in-tube solid phase microextraction (in-tube SPME), and turbulent chromatography (TFC). We then describe the basic principles and coupling equipment of these three on-line analytical technologies in detail. The coupling equipment establishes a physical connection between the two modules. Next, we discuss the properties of different purification fillers in an on-line sample-preparation column. The applications and research progress of on-line systems for pesticide residues, veterinary drug residues, and biotoxins are also discussed. Compared with offline sample preparation, on-line analytical systems present several advantages. On-line analytical systems can not only greatly reduce the analysis time and solvent consumption but also improve the detection sensitivity and accuracy. Such systems can be used to determine food hazards to ensure food safety. Finally, the existing problems and development trends of on-line analytical systems are discussed and prospected. To promote the applications of on-line analytical technology in food-safety detection, we suggest that the following three aspects be considered. First, more on-line purification columns with novel fillers, in addition to C18 or polymer fillers, should be developed. Second, compared with ordinary detectors, high-resolution MS detectors have better precision and accuracy. Coupling on-line analytical technologies with a high-resolution mass spectrometer may be beneficial for the further development of on-line analyses. Third, different food matrices should be compared and evaluated to continuously optimize the detection process and improve the efficiency of on-line analytical systems. As concerns regarding food safety issues have increased, the applications of on-line analytical technologies for food detection can be expected to become increasingly important.

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来源期刊
色谱
色谱 CHEMISTRY, ANALYTICAL-
CiteScore
1.30
自引率
42.90%
发文量
7198
期刊介绍: "Chinese Journal of Chromatography" mainly reports the basic research results of chromatography, important application results of chromatography and its interdisciplinary subjects and their progress, including the application of new methods, new technologies, and new instruments in various fields, the research and development of chromatography instruments and components, instrument analysis teaching research, etc. It is suitable for researchers engaged in chromatography basic and application technology research in scientific research institutes, master and doctoral students in chromatography and related disciplines, grassroots researchers in the field of analysis and testing, and relevant personnel in chromatography instrument development and operation units. The journal has columns such as special planning, focus, perspective, research express, research paper, monograph and review, micro review, technology and application, and teaching research.
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