AI Article Synopsis
- Food allergies pose a significant risk to human health, and existing processing technologies often fall short of fully meeting consumer needs for hypoallergenic foods.
- The paper reviews combined processing technology (CPT), which integrates different methods to enhance the hypoallergenic quality of foods, highlighting its effectiveness compared to single technologies.
- It explores three types of CPT—physical-biochemical, biochemical-biochemical, and physical-physical—discussing their mechanisms, advantages, and disadvantages, with physical-biochemical CPT being the most effective and well-researched option.
Article Abstract
Food allergy is a severe threat to human health. Although processing technologies are widely used to reduce allergenicity, hypoallergenic foods produced by a single processing technology cannot satisfy consumer demands. Combined processing technology (CPT) is a promising strategy for efficiently producing high-quality hypoallergenic foods. This paper reviews the effects of CPT on the allergenicity of food allergens from three aspects: physical-biochemical CPT, biochemical-biochemical CPT, and physical-physical CPT. The synergistic mechanisms, strengths, and limitations of these technologies were discussed. It was found that CPT is generally more effective than single-processing technologies. Physical-biochemical CPT is the most widely studied and well-established because physical and biochemical processing technologies complement each other and effectively disrupt conformational and linear epitopes. Biochemical-biochemical CPT primarily disrupts linear epitopes, but most methods are time-consuming. Physical-physical CPT is the least studied; they mainly disrupt conformational epitopes and only rarely affect linear epitopes.
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| http://dx.doi.org/10.1016/j.foodchem.2024.141559 | DOI Listing |
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