Journal of Joint Surgery and Research (Sep 2024)
Method for defining the horizontal plane in fluoroscopic kinematic analysis
Abstract
Purpose: In vivo kinematics of skeletal joints and prostheses is affected by gravity; therefore, absolute tilt must be taken into account. However, current fluoroscopic kinematic analysis cannot measure the tilt. This study introduces and validates a method for defining the horizontal plane in fluoroscopy systems to measure the tilt of an object. Methods: A rectangular metal plate (200 × 200 × 10 mm) with a flatness of 0.03/100 mm was horizontally adjusted using a leveler (sensitivity of 0.02° and accuracy of ±0.06°), and its three-dimensional coordinate was calculated from a two-dimensional fluoroscopic image. A coordinate calculation formula was developed, with precision and accuracy assessed via computer simulations. Actual fluoroscopic tests included four aspects: accuracy under the same condition; accuracy under different X-ray tube height; reproducibility when changing X-ray tube height; and reproducibility when the flat panel was tilted and returned. Results: The theoretical measurement error indicated by the computer simulations was 0.0 ± 0.2° on the xy-plane and 0.0 ± 0.0° on the yz-plane. The actual experimental results showed that the horizontal plane tilt was measured to be −0.2 ± 0.1° tilt on the xy-plane and 0.3 ± 0.0° tilt on the yz-plane for the device used in this study. The F-test showed no significant differences between the computer simulations and the actual experiments. There were no significant differences between the four actual tests. Conclusions: This method enables the horizontal plane to be defined and the tilt of an object to be measured in fluoroscopic kinematic analysis.
