Recent advances in delivering mangosteen-based phytochemicals using promising micro/nanocarriers: Formulation, outcomes, and perspectives

Nowadays, mangosteen (Garcinia mangostana L.) is getting more attention from researchers because of the rich source of bioactive phytochemicals in its fruit shell including xanthones, anthocyanins, benzophenones, etc. The bioactivity of these phytochemicals cannot be achieved fully during the applic...

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Published in:Trends in food science & technology 2024-11, Vol.153, p.104734, Article 104734
Main Authors: Karim, Naymul, Shishir, Mohammad Rezaul Islam, Marappan, Gobinath, Khan, Suliman, Hashim, Sulafa B.H., Aalim, Halah, Arslan, Muhammad, Tahir, Haroon Elrasheid, Zhihua, Li, Zhai, Xiaodong, Rahman, Md. Atiar, Tangpong, Jitbanjong, Zou, Xiaobo
Format: Article
Language:English
Subjects:
Bioactive phytochemicals
Garcinia mangostana
Improved bioactivity
Mangosteen fruit
Micro and nanocarrier
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Summary:Nowadays, mangosteen (Garcinia mangostana L.) is getting more attention from researchers because of the rich source of bioactive phytochemicals in its fruit shell including xanthones, anthocyanins, benzophenones, etc. The bioactivity of these phytochemicals cannot be achieved fully during the application as/in functional materials due to their physicochemical and physiological instability. Therefore, encapsulation of mangosteen-based phytochemicals (MPC) using promising carriers could be one of the possible ways to overcome these limitations as well as to ensure controlled release properties and enhanced bioactivity. This review first highlights the physicochemical properties and biological potentials of mangosteen. Thereafter, our review comprehensively focuses on the controlled delivery of MPC using advanced carrier systems. Encapsulation of mangosteen-based phytochemicals (MPC) using lipid-based particles (e.g. liposomes, solid-lipid particles, and niosomes), polymeric particles (nanocapsules and nanospheres), β-cyclodextrin-based inclusion complexes, ethyl-cellulose and methyl-cellulose blends, poly(ethylene glycol)-based polymeric particles, emulsions-based particles could improve the physicochemical stability, controlled release properties, and bioactivities. Only a single study has been found on MPC-loaded nanofiber mats, bacterial cellulosic nanofiber film, nanomicelles, and nanosponges with improved bioactivity. Thus, more research is required on these promising carriers to develop MPC-based functional materials with improved effects. In conclusion, encapsulating MPC in promising micro/nanocarriers could allow us to develop some unique functional materials with exceptional bio-efficacy. [Display omitted] •Mangosteen is a tropical fruit available in Southeast Asian countries.•Physicochemical properties and biological potentials of mangosteen are discussed.•Mangosteen shell is the potential source of mangosteen-based phytochemicals (MPC).•Micro and nanoencapsulation of MPC in advanced carrier systems are broadly studied.•The delivery and bioactivities of MPC are improved after encapsulation in carriers.
ISSN:0924-2244
DOI:10.1016/j.tifs.2024.104734