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Abstract

Biodegradable implants have emerged as a transformative solution in the field of medical devices, particularly in the areas of drug delivery and tissue regeneration. These implants, made from materials that naturally degrade within the body over time, offer distinct advantages over traditional implants by eliminating the need for a second surgery to remove the device. In recent years, significant advancements have been made in developing biodegradable implants with tailored properties for drug release and promoting tissue healing. Innovations in biomaterials, such as polymers, ceramics, and composites, are enhancing the functionality and versatility of these implants, allowing for controlled, localized drug delivery and supporting tissue regeneration in a variety of clinical applications. These implants are revolutionizing the treatment of chronic diseases, infections, and injuries, offering safer, more effective alternatives to traditional implantable devices. However, challenges such as material degradation rates, mechanical properties, and long-term efficacy must be addressed before widespread clinical adoption. This article explores the future of biodegradable implants, focusing on innovations in drug delivery systems and tissue regeneration applications, and discusses the potential impact of these technologies on the medical field.