Exploring the Performance of Geometry-Based Markerless Registration in a Simulated Surgical Environment: A Comparative Study of Registration Algorithms in Medical Augmented Reality.

Augmented Reality (AR) has been utilized in multiple applications in the medical field, such as augmenting Computed Tomography (CT) images onto the patient's body during surgery. However, one of the challenges in its utilization is to register the pre-operative CT images to the patient's body accurately. The current registration process requires prior attachment of tracking markers, and their localization within the body and CT images. This process can be cumbersome, error-prone, and dependent on the surgeon's experience. Moreover, there are cases where medical instruments, drapes, or the body may occlude the markers. In light of these limitations, markerless registration algorithms have the potential to aid the registration process in the clinical setting. While those algorithms have been successfully used in other sectors, such as multimedia, they have not yet been thoroughly investigated in a clinical setting, especially in surgery, where there are more challenging cases with different positions of the patients in the image and the surgical environment. In this paper, we benchmarked and evaluated the performance of 6 state-of-the-art markerless registration algorithms from the multimedia sector by registering a CT image onto the whole-body phantom dataset acquired from a simulated surgical environment. We also analyzed the suitability of these algorithms for use in the surgical setting and discussed their potential for the advancement of AR-assisted surgery.Clinical Relevance-Our study provides insight into the potential of AR-assisted surgery and helps practitioners in choosing the most suitable registration algorithm for their needs to improve patient outcomes, reduce the risk of surgical errors and shorten the time of preoperative planning.