Application of nano/micro-encapsulated bioactive compounds in 3D printed foods

Background

The exploration of nano/micro-encapsulated bioactive compounds in 3D printed foods offers promising strategies in the delivery of personalized and customized foods. 3D printing helps improve the stability and bioavailability of bioactive compounds by creating delivery systems with diverse compositions, geometries, and release patterns. The integration with encapsulation also facilitates the design of novel 3D printer and bioinks.

Scope and approach

This review summarizes the recent development of integrating encapsulation and 3D printing technologies for functional food applications. Various types of nano/micro-delivery systems including solid lipid nanoparticles, Pickering emulsion, high internal phase emulsion, hydrogel, oleogel, and liposome can be 3D printed. Particular interest is the use of novel composite systems, such as liposome-in-film, liposome-in-hydrogel, bigel, and emulsion gel. The opportunities and challenges of the combined technologies are also highlighted.

Key findings and conclusions

The combination of 3D printing and encapsulation would offer up novel opportunities in precision nutrition. This review may help direct the upcoming advancements in design of multi-material printing and multi-head printers for precise delivery of bioactive compounds.