Abstract
3-D printing, also known as additive manufacturing, is changing the medical field by enabling the creation of personalized, patient-specific devices, models, and even biological tissues. The application of 3-D printing in medicine began with the production of anatomical models for surgical planning, enhancing the precision and effectiveness of complex procedures. Today, its scope has expanded into bioprinting, where living tissues and organs are printed layer by layer using biocompatible materials. This paper explores the diverse uses of 3-D printing in medicine, focusing on its role in patient-specific surgical planning, custom implants, and the growing field of tissue engineering. We also review the advancements in bioprinting, particularly in the creation of vascularized tissues and micro-organs, which hold promise for addressing the critical shortage of organ donors. The paper discusses the current challenges in 3-D printing, such as the need for vascularization in printed tissues, and the future potential for 3-D printing technologies to improve the transplantation and regenerative medicine fields. Finally, we explore the critical role that 3-D printing will play in the future of personalized healthcare and the development of on-demand organ printing.