TY - JOUR
T1 - Cross-modal fusion of external magnetic sensing and simulated 2D imaging for 3D guidewire pose estimation
AU - Wei, Wei
AU - Li, Zhengqian
AU - Xiao, Nan
AU - Gao, Zihan
AU - Yang, Dong
AU - Guo, Jianming
AU - Zheng, Qian
AU - Li, Jiaqian
N1 - Publisher Copyright:
© IMechE 2026
PY - 2026/4
Y1 - 2026/4
N2 - During percutaneous coronary intervention, conventional 2D X-ray imaging lacks depth information, making it difficult for clinicians to determine the 3D position of the guidewire. While some recent approaches incorporate micro-sensors to assist with pose estimation, many rely on implanted electromagnetic sensors, which can introduce additional clinical risks. In the paper, we present a non-invasive alternative by using an external 3-axis electronic magnetometer array. We further propose a Local-Global Magneto-Visual Network framework (LG-MagNet) that fuses magnetic field information with image data to enable precise 3D pose estimation of the guidewire. Specifically, we first perform a shared encoder for cross-modal feature fusion. Then we employ convolutional operations that integrate local and global features. Finally, we utilize a lightweight prediction head for end-to-end depth regression. We constructed experimental equipment and collected a clinical simulation datasets. Results show a root mean square error (RMSE) of (0.797 ± 0.095 mm) for depth prediction along the Z-axis and an overall RMSE of (1.216 ± 0.072) mm for 3D guidewire shape reconstruction. Quantitative analysis indicates that fusing external magnetometer data with 2D imaging improves pose estimation stability, particularly in regions with curvature.
AB - During percutaneous coronary intervention, conventional 2D X-ray imaging lacks depth information, making it difficult for clinicians to determine the 3D position of the guidewire. While some recent approaches incorporate micro-sensors to assist with pose estimation, many rely on implanted electromagnetic sensors, which can introduce additional clinical risks. In the paper, we present a non-invasive alternative by using an external 3-axis electronic magnetometer array. We further propose a Local-Global Magneto-Visual Network framework (LG-MagNet) that fuses magnetic field information with image data to enable precise 3D pose estimation of the guidewire. Specifically, we first perform a shared encoder for cross-modal feature fusion. Then we employ convolutional operations that integrate local and global features. Finally, we utilize a lightweight prediction head for end-to-end depth regression. We constructed experimental equipment and collected a clinical simulation datasets. Results show a root mean square error (RMSE) of (0.797 ± 0.095 mm) for depth prediction along the Z-axis and an overall RMSE of (1.216 ± 0.072) mm for 3D guidewire shape reconstruction. Quantitative analysis indicates that fusing external magnetometer data with 2D imaging improves pose estimation stability, particularly in regions with curvature.
KW - X-ray image analysis/reconstruction
KW - computer assisted surgery
KW - data analysis/fusion [medical informatics]
KW - medical signal processing
KW - sensors/sensor applications
UR - https://www.scopus.com/pages/publications/105034795400
U2 - 10.1177/09544119261426514
DO - 10.1177/09544119261426514
M3 - Article
AN - SCOPUS:105034795400
SN - 0954-4119
VL - 240
SP - 386
EP - 399
JO - Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine
JF - Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine
IS - 4
ER -