Research progress on chitin/chitosan-based emulsion delivery systems and their application in lipid digestion regulation

AbstractExcessive lipid intake is linked to an elevated risk of health problems. However, reducing lipid contents may influence food structure and flavor. Some alternatives are needed to control the lipid absorption. Emulsions are common carriers for lipids, which can control the hydrolysis and absorption of lipids. Chitin (Ch) and chitosan (CS) are natural polysaccharides with good biodegradability, biocompatibility, and unique cationic properties. They have been reported to be able to delay lipolysis, which can be regarded as one of the most promising agents that regulates lipid digestion (LiD). The application of Ch/CS and their derivatives in emulsions are summarized in this review with a focus on their performances and mechanisms for LiD regulation, aiming to provide theoretical guidance for the development of novel Ch/CS emulsions, and the regulation of LiD. A reasonable design of emulsion interface can provide its resistance to the external environment and then control LiD. The properties of emulsion interface are the key factors affecting LiD. Therefore, systematic study on the relationship between Ch/CS-based emulsion structure and LiD can not only instruct the reasonable design of emulsion interface to accurately regulate LiD, but also provide scientific guidelines for applying Ch/CS in functional food, medicine and other fields.HIGHLIGHTSApplication of chitin/chitosan and their derivatives in emulsionsStrategies to improve emulsifying properties of chitin/chitosanDigestion behaviors of chitin/chitosan emulsions during gastrointestinal digestionRational design and potential mechanism of chitin/chitosan to regulate lipolysisKeywords: Carrierslipid intakegastrointestinal digestionemulsionslipid hydrolysis Authors' contributionsShanshan Hu: investigation, methodology, writing-original draft. Wenbo Li: investigation. Zhi Cai: investigation. Cuie Tang: methodology. Shilin Liu: supervision. Bin Li: supervision. Yan Li: supervision, writing-review & editing, funding acquisition.Disclosure statementThe authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.Additional informationFundingThis work was financially supported by National Natural Science Foundation of China (No. 32372325).