The Feasibility and Accuracy of Holographic Navigation with Laser Crosshair Simulator Registration on a Mixed-Reality Display

The Feasibility and Accuracy of Holographic Navigation with Laser Crosshair Simulator Registration on a Mixed-Reality Display

Addressing conventional neurosurgical navigation systems’ high costs and complexity, this study explores the feasibility and accuracy of a simplified, cost-effective mixed reality navigation (MRN) system based on a laser crosshair simulator (LCS). A new automatic registration method was developed, f...

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Autoren: Qi, Ziyu, Jin, Haitao, Wang, Qun, Gan, Zhichao, Xiong, Ruochu, Zhang, Shiyu, Liu, Minghang, Wang, Jingyue, Ding, Xinyu, Chen, Xiaolei, Zhang, Jiashu, Nimsky, Christopher, Bopp, Miriam H. A.
פורמט: Artikel
שפה:אנגלית
יצא לאור: Philipps-Universität Marburg 2024
נושאים:
neurosurgical planning
dice similarity coefficient
laser crosshair simulator
Medizin
augmented reality
target registration error
automatic registration
intracranial lesion
mixed reality
neuronavigation
head phantom
Medical sciences Medicine
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סיכום:Addressing conventional neurosurgical navigation systems’ high costs and complexity, this study explores the feasibility and accuracy of a simplified, cost-effective mixed reality navigation (MRN) system based on a laser crosshair simulator (LCS). A new automatic registration method was developed, featuring coplanar laser emitters and a recognizable target pattern. The workflow was integrated into Microsoft’s HoloLens-2 for practical application. The study assessed the system’s precision by utilizing life-sized 3D-printed head phantoms based on computed tomography (CT) or magnetic resonance imaging (MRI) data from 19 patients (female/male: 7/12, average age: 54.4 ± 18.5 years) with intracranial lesions. Six to seven CT/MRI-visible scalp markers were used as reference points per case. The LCS-MRN’s accuracy was evaluated through landmark-based and lesion-based analyses, using metrics such as target registration error (TRE) and Dice similarity coefficient (DSC). The system demonstrated immersive capabilities for observing intracranial structures across all cases. Analysis of 124 landmarks showed a TRE of 3.0 ± 0.5 mm, consistent across various surgical positions. The DSC of 0.83 ± 0.12 correlated significantly with lesion volume (Spearman rho = 0.813, p < 0.001). Therefore, the LCS-MRN system is a viable tool for neurosurgical planning, highlighting its low user dependency, cost-efficiency, and accuracy, with prospects for future clinical application enhancements.
תאור פריט:Gefördert durch den Open-Access-Publikationsfonds der UB Marburg.
DOI:10.3390/s24030896

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