Advanced CaCO3-derived delivery systems for bioactive compounds

Calcium carbonate (CaCO3) has long been used as a delivery system owing to its wide availability, biocom-patibility, and degradability. However, it often suffers from many challenges toward rapid dissolution at stomach acid environment, low retention ability, and lack of sustained release. Many of these issues can be addressed by modifying the CaCO3 particles or integrating them with other encapsulation systems, generating advanced CaCO3-derived systems. This review article presents a recent progress (2015-2022) in the utilization of CaCO3 particles in the exploration of various advanced delivery systems, including polymer-doped CaCO3, surface-coated CaCO3, CaCO3-stabilized Pickering emulsions, CaCO3-in-hydrogels, and liposomal CaCO3. Some emerging systems templated on CaCO3 sacrificial cores, such as hollow capsules, matrix-type capsules, and core-shell capsules, are also reviewed. A brief description of each system is given, and then their formation, structure, and properties are described. Particular emphasis is given to the applications and challenges of these advanced systems for the protection and controlled delivery of bioactive compounds in the biological, pharmaceutical, and functional food fields.

Automated summary

This review article discusses the recent progress in utilizing calcium carbonate particles in various advanced delivery systems. The challenges in rapid dissolution, low retention ability, and lack of sustained release are addressed through modification and integration with other encapsulation systems. The applications and challenges of these advanced systems for the protection and controlled delivery of bioactive compounds in the biological, pharmaceutical, and functional food fields are emphasized.