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Personalized Delivery of Probiotics and Prebiotics via 3D Food Printing

Ji Young Yu

2025Metabolites5 citationsDOIOpen Access PDF

Abstract

Personalized nutrition aims to optimize health by addressing interindividual differences in metabolism, microbiota composition, and dietary responses. Modulating the gut microbiota through probiotics, prebiotics, and synbiotics is promising, yet conventional systems such as capsules or fermented foods offer limited control over dosage, release kinetics, and microbial viability. These formats often cause 2-4 log reductions in viable counts during processing and gastrointestinal transit, underscoring the need for advanced delivery technologies. Three-dimensional (3D) food printing enables digital design of edible matrices with programmable geometry and composition to enhance microbial protection and controlled release. Coaxial and gel-in-gel architectures have retained over 90-96% of probiotic cells after printing and 80-85% after simulated digestion. Synbiotic formulations combining probiotics with fructooligosaccharides or whey protein achieve 98-99% survival and stability for 35 days. This review summarizes advances in formulation, encapsulation, and printing strategies, highlighting how 3D food printing uniquely overcomes challenges of viability, release control, and personalized dosage in microbiota-based nutrition.

Topics & Concepts

SynbioticsProbioticFood scienceBiotechnologyHealth benefits3D printingFood productsPrebiotic3d printedFunctional foodFood processingBiofabricationNovel foodInulinMedicineGut floraPersonalized medicineNutrigenomicsBiologyFood microbiologyFermented milk productsComputer scienceCosmetics3D Printing in Biomedical ResearchProbiotics and Fermented FoodsTissue Engineering and Regenerative Medicine
Personalized Delivery of Probiotics and Prebiotics via 3D Food Printing | Litcius