Fabrication and applications of biofunctional collagen biomaterials in tissue engineering

Abstract

Collagen is extensively used in tissue engineering for various organ tissue regeneration due to the main component of human organ extracellular matrix (ECM) and their inherent nature bioactivity. Collagen various types naturally exist in different organ ECMs. Collagen fabricated with natural ECM mimics architecture, composition and mechanical properties for various organ tissue regeneration. Collagen fabrication with organ-specific biofunctionality facilitated organ tissue engineering as compared to unmodified collagen biomaterials. Collagen biofunctionality improved by subjecting collagen to synthesis, fibers and surface modifications, and blending with other components. Furthermore, collagen is loaded with bioactive molecules, growth factors, drugs and cells also enhancing the biofunctionality of collagen biomaterials. In this review, we will explore the recent advancements in biofunctional collagen biomaterials fabrication with organ-specific biofunctionality in tissue engineering to resolve various organ tissue engineering issues and regeneration challenges. Biofunctional collagen biomaterials stimulate microenvironments inside and around the implants to excellently regulate cellular activities, differentiate cells into organ native cells, enhanced ECM production and remodeling to regenerate organ tissues with native structure, function and maturation. This review critically explored biofunctional collagen biomaterials fabrication in resolving various organ tissue engineering issues and regeneration challenges, and opening new directions of biofunctional collagen biomaterials fabrication, design and applications.

Keywords: Biofunctional biomaterials; Collagen fabrication; ECM mimics biomaterials; Organ regeneration; Tissue engineering.