Abstract

Bioprinting technologies have emerged as transformative tools in the fields of regenerative medicine and personalized healthcare. This review explores the application of bioprinting in the development of customized implants and prosthetics, emphasizing the ability to create patient-specific solutions that enhance functional outcomes and biocompatibility. We examine various bioprinting techniques, including inkjet, extrusion, and laser-assisted methods, alongside advancements in biomaterials and cell integration. The potential of bioprinting to reduce surgical complications and improve recovery times is highlighted, as well as the challenges of regulatory approval and scalability. Future directions in bioprinting research are discussed, particularly in relation to enhancing the mechanical properties and biological functionality of printed constructs. Ultimately, bioprinting represents a promising frontier for the evolution of personalized medical devices, paving the way for innovative treatments tailored to individual patient needs.