Publication (Journal publications)

Benchmarking commercial depth sensors for intraoperative markerless registration in neurosurgery applications

Sancho Aragón, Jaime; Villa Romero, Manuel; Rosa Olmeda, Gonzalo; Juárez Martínez, Eduardo; Sanz Álvaro, César

Abstract:

Purpose This study proposes a generalization of markerless patient registration in image-guided neurosurgery based on depth information. The work builds on previous research to evaluate the performance of a range of commercial depth cameras and two different registration algorithms in this context. Methods A multimodal experimental setup was used, testing five depth cameras in seven configurations. Fiducial registration error (FRE) and target registration error (TRE) metrics were calculated using iterative closest point (ICP) and deep global registration (DGR) algorithms. A phantom head model was used to simulate clinical conditions, with cameras positioned to capture the face and craniotomy regions. Results The best-performing cameras, such as the D405 and Zed-M+, achieved TRE values as low as 2.36 ± 0.46 mm and 2.49 ± 0.35 mm, respectively, compared to manual registration that obtains a 1.37 mm error. Cameras equipped with texture projectors or enhanced depth refinement demonstrated improved performance. The proposed methodology effectively characterized the suitability of the camera for the registration tasks. Conclusion This study validates an adaptable and reproducible framework to evaluate depth cameras in neurosurgical scenarios, highlighting D405 and Zed-M + as reliable options. Future work will focus on improving depth quality through hardware and algorithmic improvements. The experimental data and the accompanying code were made publicly available to ensure reproducibility.

Research areas:

• Image and Video Technologies

Year:

2025

Type of Publication:

Journal publications

Journal:

International Journal of Computer Assisted Radiology and Surgery

Volume:

20

Pages:

1759–1769

Month:

Abril

DOI:

10.1007/s11548-025-03416-y