Rapid screening of tuna samples for food safety issues related to histamine content using fourier-transform mid-infrared (FT-MIR) and chemometrics

IF 5.3 2区农林科学 Q1 ENGINEERING, CHEMICAL

Journal of Food Engineering Pub Date : 2024-05-13 DOI:10.1016/j.jfoodeng.2024.112129

Mónica Sánchez-Parra , Juan Antonio Fernández Pierna , Vincent Baeten , José Manuel Muñoz-Redondo , José Luis Ordóñez-Díaz , José Manuel Moreno-Rojas

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引用次数: 0

Abstract

Biogenic amines (BAs) generally result from the decarboxylation reaction of free amino acids as a result of the activity of different microorganisms. A build-up of these compounds can result in food being spoilt. Therefore, the rapid and precise detection of BAs like histamine is an important task for food safety. This research aimed to explore the potential of Fourier-Transform Mid-Infrared (FT-MIR) spectroscopy combined with chemometric methods to assess histamine in fresh tuna quantitatively. Based on the FT-MIR data, partial least squares regression models for the prediction of histamine were successfully constructed with R² > 0.90. Machine learning algorithms (partial least squares-discrimination analysis, k-nearest neighbors, and support vector machine) were applied, and excellent discrimination results were achieved based on the limits specified in two different legislations (EU and FDA). The results support the use of a rapid, economic and reliable approach for the discrimination of samples that could pose a health risk to consumers.

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利用傅立叶变换中红外（FT-MIR）和化学计量学快速筛查金枪鱼样品中组胺含量的食品安全问题

生物胺（BA）通常是游离氨基酸在不同微生物的作用下发生脱羧反应而产生的。这些化合物的积累会导致食物变质。因此，快速准确地检测组胺等生物碱是食品安全的一项重要任务。本研究旨在探索傅立叶变换中红外光谱（FT-MIR）结合化学计量学方法定量评估新鲜金枪鱼中组胺的潜力。基于傅立叶变换中红外光谱数据，成功构建了预测组胺含量的偏最小二乘回归模型，R2 > 0.90。应用机器学习算法（偏最小二乘判别分析、k-近邻和支持向量机），根据两个不同法规（欧盟和美国食品药物管理局）规定的限值，取得了极佳的判别结果。这些结果支持使用一种快速、经济、可靠的方法来鉴别可能对消费者健康造成危害的样品。

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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来源期刊

Journal of Food Engineering 工程技术-工程：化工

CiteScore

11.80

自引率

5.50%

发文量

275

审稿时长

24 days

期刊介绍： The journal publishes original research and review papers on any subject at the interface between food and engineering, particularly those of relevance to industry, including: Engineering properties of foods, food physics and physical chemistry; processing, measurement, control, packaging, storage and distribution; engineering aspects of the design and production of novel foods and of food service and catering; design and operation of food processes, plant and equipment; economics of food engineering, including the economics of alternative processes. Accounts of food engineering achievements are of particular value.

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