Raquel Hernáez‐Moya scite author profile

Introduction: Biomaterials have provided a wide range of exciting opportunities in tissue engineering and regenerative medicine. Gelatin, a collagen-derived natural biopolymer, has been extensively used in regenerative medicine applications over the years, due to its cell-responsive properties and the capacity to deliver a wide range of biomolecules. Areas covered: The most relevant properties of gelatin as biomaterial are presented together with its main therapeutic applications. The latter includes drug delivery systems, tissue engineering approaches, potential uses as ink for 3D/4D Bioprinting and its relevance in organ-on-a-chip platforms. Expert Opinion: Advances in polymer chemistry, mechanobiology, imaging technologies and 3D biofabrication techniques have expanded the application of gelatin in multiple biomedical research applications ranging from bone and cartilage tissue engineering, to wound healing and anti-cancer therapy. Here, we highlight the latest advances in gelatin-based approaches within the fields of biomaterial-based drug delivery and tissue engineering together with some of the most relevant challenges and limitations.

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Corneal Wound Healing Promoted by 3 Blood Derivatives

Freire

Andollo

Etxebarría

et al. 2014

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All 3 blood derivatives studied are promoters of corneal reepithelization. However, the corneal wound-healing progresses differently with each derivative, being faster in vitro under AS and s-PRGF treatment and producing in vivo the greatest decrease in wound size under s-PRGF treatment. These findings highlight that the manufacturing process of the blood derivatives may modulate the efficacy of the final product.

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Raquel Hernáez‐Moya

Recent advances in gelatin-based therapeutics

Corneal Wound Healing Promoted by 3 Blood Derivatives

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