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Biomaterials are essential in modern medicine, driving advancements in tissue engineering (TE), drug delivery, and medical devices. This review explores the intersection of biomaterials and sustainability, highlighting efforts to develop environmentally friendly materials through advanced technology. It examines key biomaterial characteristics for example biodegradability, mechanical strength, and biocompatibility, and discusses the influence of polymers on medical technology. From inert substances to bioactive materials, biomaterials have evolved to elicit biological responses. Notably, 3D-printed biomaterials are revolutionizing implant development with their customization and tissue facilitation advantages. The emergence of production-on-demand (POD) in 3D printing promises environmental sustainability and cost efficiency. Forecasts indicate significant growth in the global biomaterials market, particularly in Asia, reflecting increasing demand for biomaterial-based medical products. With applications ranging from synthetic skin to dental implants, biomaterials showcase versatility and importance in healthcare. Advanced characterization techniques and bioprocessing technologies enable the production of sustainable biomaterials, addressing environmental concerns. Despite challenges for example scalability and regulatory hurdles, ongoing research and collaboration are vital. Future efforts should prioritize bioprocessing optimization, novel biomaterial formulations, and life cycle assessments to enhance sustainability. Overall, sustainable biomaterials play an essential part in direction of environment related issues and advancing healthcare, necessitating continuous innovation and collaboration.
Vinchurkar et al. (Wed,) studied this question.