Neural Tract Avoidance Path-Planning Optimization: Robotic Neurosurgery

Background: We propose a three-dimensional path-planning method to generate optimized surgical trajectories for steering flexible needles along curved paths while avoiding critical tracts in the context of surgical glioma resection. Methods: Our approach is based on an application of the rapidly exp...

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Bibliographic Details
Published in:Applied sciences 2024-05, Vol.14 (9), p.3687
Main Authors: Manrique-Cordoba, Juliana, Martorell, Carlos, Romero-Ante, Juan D, Sabater-Navarro, Jose M
Format: Article
Language:English
Subjects:
Algorithms
Biopsy
collision avoidance
cost function
Gliomas
Magnetic resonance imaging
Medical imaging equipment
Nervous system
Neurosurgery
Optimization
Software
Surgeons
Surgery
surgical path planning
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Summary:Background: We propose a three-dimensional path-planning method to generate optimized surgical trajectories for steering flexible needles along curved paths while avoiding critical tracts in the context of surgical glioma resection. Methods: Our approach is based on an application of the rapidly exploring random tree algorithm for multi-trajectory generation and optimization, with a cost function that evaluates different entry points and uses the information of MRI images as segmented binary maps to compute a safety trajectory. As a novelty, an avoidance module of the critical neuronal tracts defined by the neurosurgeon is included in the optimization process. The proposed strategy was simulated in real-case 3D environments to reach a glioma and bypass the tracts of the forceps minor from the corpus callosum. Results: A formalism is presented that allows for the evaluation of different entry points and trajectories and the avoidance of selected critical tracts for the definition of new neurosurgical approaches. This methodology can be used for different clinical cases, allowing the constraints to be extended to the trajectory generator. We present a clinical case of glioma at the base of the skull and access it from the upper area while avoiding the minor forceps tracts. Conclusions: This path-planning method offers alternative curved paths with which to reach targets using flexible tools. The method potentially leads to safer paths, as it permits the definition of groups of critical tracts to be avoided and the use of segmented binary maps from the MRI images to generate new surgical approaches.
ISSN:2076-3417
2076-3417
DOI:10.3390/app14093687