Since the 2010s, the demand for healthcare models has exceeded the prevailing resources
available due to the rapid increase in the aging population in China. However, a significant …

Fish collagen garnered significant academic and commercial focus in the last decades
featuring prospective applications in a variety of health-related industries, including food …

Hydrogels have been extensively used as scaffolds in tissue engineering for cell adhesion,
proliferation, migration, and differentiation because of their high-water content and …

In regenerative medicine and tissue engineering, the possibility to:(I) customize the shape
and size of scaffolds,(II) develop highly mimicked tissues with a precise digital control,(III) …

Development of an ideal biomaterial for clinical use is one of the main objectives of current
research in tissue engineering. Marine-origin polysaccharides, in particular agaroses, have …

A biocomposite for enhancing muscle tissue regeneration was introduced using
decellularized fish skins. Decellularized tilapia and cod skin were explored as constituents …

Collagen, the most abundant protein in our bodies, plays a crucial role in maintaining the
structural integrity of various tissues and organs. Beyond its involvement in skin elasticity …

In the past decade, there has been significant progress in 3D printing research for tissue
engineering (TE) using biomaterial inks made from natural and synthetic compounds. These …

Impact statement This review discusses the research done using marine collagens (MCs) on
biomaterials for bone, cartilage, and osteochondral tissue regenerative applications with the …

Bioprinting has a critical role in tissue engineering, allowing the creation of sophisticated
cellular scaffolds with high resolution, shape fidelity, and cell viability. Achieving these …