Abstract
Three-Dimensional Printing (3DP), also known as rapid prototyping or additive manufacturing, has revolutionized the field of medicine, particularly in preoperative planning. By transforming intricate Two-Dimensional (2D) medical imaging data into tangible, patient-specific Three-Dimensional (3D) models, 3DP enhances surgical precision and patient care. This technology facilitates detailed preoperative visualization, enabling surgeons to interact with accurate anatomical models, plan complex procedures, and anticipate potential challenges. The evolution of 3DP, driven by advances in Fused Deposition Modeling (FDM), Selective Laser Sintering (SLS), and Stereolithography (SLA), has democratized access to affordable and sophisticated 3D printers, spurring innovation in medical applications. In this study, a comprehensive review of the literature on the integration of 3DP technology into preoperative planning is conducted. Applications across various surgical disciplines, including cardiovascular, orthopedic, craniofacial, neurosurgical, oncological, transplant, and pediatric surgeries are examined. Benefits of 3DP in providing tactile feedback, creating patient-specific surgical guides and implants, and enhancing surgical simulation and training are evaluated. Additionally, challenges associated with the high costs, time-intensive processes, and material limitations of 3DP are assessed. Findings demonstrate that 3DP significantly reduces operative times, improves surgical outcomes, and lowers complication rates. The study highlights the transformative impact of 3DP on surgical practice and underscores its potential for future advancements. With ongoing research and innovation in materials science, bioprinting, artificial intelligence, and augmented reality, 3DP is poised to further revolutionize preoperative planning, offering more personalized, precise, and patient-centered healthcare solutions.
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