The chicken eggshell membrane: a versatile, sustainable, biological material for translational biomedical applications

Naturally derived materials are often preferred over synthetic materials for biomedical applications due to their innate biological characteristics, relative availability, sustainability, and agreement with conscientious end-users. The chicken eggshell membrane (ESM) is an abundant resource with a defined structural profile, chemical composition, and validated morphological and mechanical characteristics. These unique properties have not only allowed the ESM to be exploited within the food industry but has also led to it be considered for other novel translational applications such as tissue regeneration and replacement, wound healing and drug delivery. However, challenges still exist in order to enhance the native ESM (nESM): the need to improve its mechanical properties, the ability to combine/join fragments of ESM together, and the addition or incorporation of drugs/growth factors to advance its therapeutic capacity. This review article provides a succinct background to the nESM, its extraction, isolation, and consequent physical, mechanical and biological characterisation including possible approaches to enhancement. Moreover, it also highlights current applications of the ESM in regenerative medicine and hints at future novel applications in which this novel biomaterial could be exploited to beneficial use.

Automated summary

Chicken eggshell membrane (ESM) is a rich resource with defined structural profile, chemical composition, and mechanical characteristics, which has potential applications in tissue regeneration, wound healing, and drug delivery. However, challenges remain in improving its mechanical properties, joining fragments, and enhancing its therapeutic capacity. This review provides an overview of ESM extraction, isolation, and characterization, as well as current and future applications in regenerative medicine.