A multi-modality tracking, navigation and calibration for a flexible robotic drill system for total hip arthroplasty

Ahmad Fuad, Ahmad Nazmi Bin and Deep, Kamal and Yao, Wei (2018) A multi-modality tracking, navigation and calibration for a flexible robotic drill system for total hip arthroplasty. International Journal of Medical Robotics and Computer Assisted Surgery, 14 (1). e1878. ISSN 1478-5951 (https://doi.org/10.1002/rcs.1878)

[thumbnail of Fuad-etal-IJMRCAS-2018-A-multi-modality-tracking-navigation-and-calibration]
Preview
Text. Filename: Fuad_etal_IJMRCAS_2018_A_multi_modality_tracking_navigation_and_calibration.pdf
Accepted Author Manuscript

Download (726kB)| Preview

Abstract

Background This paper presents a novel multi-modality tracking and navigation system that provides a unique capability to guild a flexible drill tip inside the bone with accurate curved tunnelling. Methods As the flexible drill tip cannot be tracked optically inside the bone, this research focuses on developing a hybrid tracking and navigation system for tracking a flexible drill tip by using both optical and kinematic tracking. The tracking information is used to guide the THA (total hip arthroplasty) procedure, providing a real-time virtual model of the flexible drill. Results The flexible and steerable drill tip system is then tested on total hip arthroplasty followed by evaluation of the positioning and orientation of femoral stem placement by femoral milling. Conclusions Based on this study, we conclude that the tracking and navigation system is able to guide the flexible drill to mill inside femoral canal.

ORCID iDs

Ahmad Fuad, Ahmad Nazmi Bin ORCID logoORCID: https://orcid.org/0000-0001-9051-5013, Deep, Kamal and Yao, Wei;