Optimization of food-grade colloidal delivery systems for thermal processing applications: a review

⚡ 摘要

食品级胶体递送系统用于热处理工艺的优化:综述

作者 Wen Xu; David Julian McClements; Xinwen Peng; Zhenlin Xu; Man Meng; Yidong Zou; Guanxiong Chen; Zhengyu Jin; Long Chen 期刊 Critical Reviews in Food Science and Nutrition 发表日期 2023 ISSN 1040-8398 DOI 10.1080/10408398.2023.2258215 类型 原创研究 (Original Research)

📄 英文摘要 English Abstract

EN

Colloidal delivery systems are widely used in the food industry to enhance the dispersibility, stability, efficacy, or bioavailability. However, when exposed to the high temperature, delivery systems are often prone to degradation, which limits its application in thermal processing. In this paper, the effects of thermal processing on the performance of traditional protein-based or starch-based delivery systems are firstly described, including the molecular structure changes of proteins, starches or lipids, and the degradation of embedded substances. These effects are unfavorable to the application of the delivery system in thermal processing. Then, strategies of improving the heat resistance of food grade colloid delivery system and their use in frying, baking and cooking food are mainly introduced. The heat resistance of the delivery system can be improved by a variety of strategies, including the development of new heat-resistant materials, the addition of heat-resistant coatings to the surface of delivery systems, the cross-linking of proteins or starches using cross-linking agents, the design of particle structures, the use of physical means such as ultrasound, or the optimization of the ingredient formula. These strategies will help to expand the application of heat-resistant delivery systems so that they can be used in real thermal processing.

📄 中文摘要 Chinese Abstract

中文
胶体递送系统在食品工业中被广泛应用,以提高分散性、稳定性、功效或生物利用度。然而,当暴露于高温时,递送系统往往容易降解,这限制了其在热加工中的应用。本文首先描述了热加工对传统蛋白质基或淀粉基递送系统性能的影响,包括蛋白质、淀粉或脂质的分子结构变化以及包埋物质的降解。这些影响不利于递送系统在热加工中的应用。

📋 英文结构化总结 English Structured Summary

摘要整理

EN

Background:

Colloidal delivery systems are widely used in the food industry to enhance the dispersibility, stability, efficacy, or bioavailability. However, when exposed to the high temperature, delivery systems are often prone to degradation, which limits its application in thermal processing. In this paper, the effects of thermal processing on the performance of traditional protein-based or starch-based delivery systems are firstly described, including the molecular structure changes of proteins, starches or lipids, and the degradation of embedded substances. These effects are unfavorable to the application of the delivery system in thermal processing.

Methods:

N/A – Review article (the paper describes and introduces existing knowledge and strategies rather than presenting original experimental methodology).

Results:

Then, strategies of improving the heat resistance of food grade colloid delivery system and their use in frying, baking and cooking food are mainly introduced. The heat resistance of the delivery system can be improved by a variety of strategies, including the development of new heat-resistant materials, the addition of heat-resistant coatings to the surface of delivery systems, the cross-linking of proteins or starches using cross-linking agents, the design of particle structures, the use of physical means such as ultrasound, or the optimization of the ingredient formula. These strategies will help to expand the application of heat-resistant delivery systems so that they can be used in real thermal processing.

Data Summary:

No quantitative results or key statistics are provided in the text.

Conclusions:

The heat resistance of the delivery system can be improved by a variety of strategies. These strategies will help to expand the application of heat-resistant delivery systems so that they can be used in real thermal processing.

Practical Significance:

The strategies are intended for use in frying, baking and cooking food, thereby allowing heat-resistant delivery systems to be applied in real thermal processing.

📋 中文结构化总结 Chinese Structured Summary

中文

背景:

胶体递送系统在食品工业中被广泛应用,以提高分散性、稳定性、功效或生物利用度。然而,当暴露于高温时,递送系统往往容易降解,这限制了其在热加工中的应用。本文首先描述了热加工对传统蛋白质基或淀粉基递送系统性能的影响,包括蛋白质、淀粉或脂质的分子结构变化以及包埋物质的降解。这些影响不利于递送系统在热加工中的应用。

方法:

不适用——综述类文章(本文描述和介绍现有知识和策略,而非呈现原创实验方法)。

结果:

随后,主要介绍了提高食品级胶体递送系统耐热性的策略及其在油炸、烘焙和烹饪食品中的应用。递送系统的耐热性可通过多种策略得到改善,包括开发新型耐热材料、在递送系统表面添加耐热涂层、利用交联剂对蛋白质或淀粉进行交联、设计颗粒结构、使用超声等物理手段,或优化配方成分。这些策略将有助于拓展耐热递送系统的应用范围,使其能够应用于实际热加工过程。

数据总结:

文中未提供定量结果或关键统计数据。

结论:

递送系统的耐热性可通过多种策略得到改善。这些策略将有助于拓展耐热递送系统的应用范围,使其能够应用于实际热加工过程。

实际意义:

这些策略旨在应用于油炸、烘焙和烹饪食品,从而使耐热递送系统能够在实际热加工中得到应用。