Role of encapsulation on the bioavailability of omega‐3 fatty acids

Omega‐3 fatty acids (omega‐3 FAs) have been widely recognized for their therapeutic advantages, including anti‐inflammatory and cardioprotective properties. They have shown promise in enhancing regulatory function, promotingdevelopment and mitigating the progression of diabetes and cancer. The scien...

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Bibliographic Details
Published in:Comprehensive reviews in food science and food safety 2024-01, Vol.23 (1), p.1-35
Main Authors: Homroy, Snigdha, Chopra, Rajni, Singh, Priyanka Kumari, Dhiman, Aishwarya, Chand, Monika, Talwar, Binanshu
Format: Article
Language:English
Subjects:
Bioavailability
Diabetes mellitus
Edible oils
Encapsulation
Epithelium
Fatty acids
Food products
Food selection
High temperature
Inflammation
Lipids
Nutritive value
omega‐3
Oxidation
oxidative stability
polyunsaturated fatty acid
Polyunsaturated fatty acids
Product development
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Summary:Omega‐3 fatty acids (omega‐3 FAs) have been widely recognized for their therapeutic advantages, including anti‐inflammatory and cardioprotective properties. They have shown promise in enhancing regulatory function, promotingdevelopment and mitigating the progression of diabetes and cancer. The scientific communities, along with industries, are actively endorsing initiatives aimed at increasing the daily intake of lipids rich in omega‐3 FAs. Nevertheless, incorporating polyunsaturated FAs (PUFAs) into food products poses several challenges due to their susceptibility to oxidation when exposed to oxygen, high temperatures, and moisture. This oxidative deterioration results in undesirable flavours and a loss of nutritional value. Various methods, including physical blending, interesterification, and encapsulation, have been utilized as ways to enhance the stability of edible oils rich in PUFA against oxidation. Encapsulation has emerged as a proven strategy for enhancing the oxidative stability and functional properties of omega‐3 FA‐rich oils. Multiple encapsulation methods have been developed to stabilize and improve the delivery of omega‐3 FAs in food products. The selection of an appropriate encapsulation method depends on the desired application of the encapsulated oil. In addition, encapsulation enhances the bioavailability of omega‐3 FAs by promoting increased absorption of the encapsulated form in the intestinal epithelium. This review discusses the techniques and principles of omega‐3 FA‐rich oil encapsulation and its role in improving stability and bioavailability. Furthermore, it also investigates the potential health benefits of these encapsulated oils. This review explores the variations in bioavailability based on encapsulation techniques and processing, offering vital insights for nutrition and product development.
ISSN:1541-4337
1541-4337
DOI:10.1111/1541-4337.13272