Augmented Reality in Surgical Planning: Enhancing Precision

Abner Tom Kalukusu

Department of Clinical Medicine and Dentistry Kampala International University Uganda

Email: abnertomkalukusu@studwc.kiu.ac.ug

ABSTRACT

Augmented Reality (AR) is revolutionizing surgical planning by providing immersive and precise visualization of anatomical structures. By superimposing 3D medical images onto real-world environments, AR enables surgeons to interact with patient-specific anatomy in real time, enhancing preoperative planning, intraoperative navigation, and training. This paper examines the historical development, technological foundations, and current applications of AR in surgical environments, highlighting its role in improving spatial awareness, reducing procedural errors, and enhancing decision-making. Despite its transformative potential, the integration of AR faces several challenges, including technological limitations, geometric complexity, usability concerns, and ethical implications. Case studies demonstrate AR’s effectiveness in complex procedures such as neurosurgery, maxillofacial reconstruction, and minimally invasive interventions. The study concludes by examining future trends and regulatory considerations essential for widespread adoption of AR in surgical practice. The paper emphasizes the need for surgeon-centered design, robust data integration, and the development of user-friendly AR authoring tools to optimize surgical outcomes and ensure ethical deployment.

Keywords: Augmented Reality, Surgical Planning, 3D Visualization, Medical Imaging, Intraoperative Guidance, Immersive Technology, Image-Guided Surgery.

CITE AS: Abner Tom Kalukusu (2025). Augmented Reality in Surgical Planning: Enhancing Precision. IAA Journal of Biological Sciences 13(1):59-66. https://doi.org/10.59298/IAAJB/2025/1315966