AI Article Synopsis
- The study developed an image fusion platform to integrate preoperative MRI and fMRI data with intraoperative images, specifically for neurosurgeries.
- The system, using a 0.5 T MRI scanner and a dedicated navigation system, enhances surgical planning by merging various imaging modalities, enabling detailed navigation during procedures.
- So far, the technology has been applied in 70 surgeries, improving navigation accuracy and safety, particularly for complex brain lesions, by quickly detecting patient movement and tissue changes.
Article Abstract
The aim of this work was to realize and clinically evaluate an image fusion platform for the integration of preoperative MRI and fMRI data into the intraoperative images of an interventional MRI system with a focus on neurosurgical procedures. A vertically open 0.5 T MRI scanner was equipped with a dedicated navigation system enabling the registration of additional imaging modalities (MRI, fMRI, CT) with the intraoperatively acquired data sets. These merged image data served as the basis for interventional planning and multimodal navigation. So far, the system has been used in 70 neurosurgical interventions (13 of which involved image data fusion--requiring 15 minutes extra time). The augmented navigation system is characterized by a higher frame rate and a higher image quality as compared to the system-integrated navigation based on continuously acquired (near) real time images. Patient movement and tissue shifts can be immediately detected by monitoring the morphological differences between both navigation scenes. The multimodal image fusion allowed a refined navigation planning especially for the resection of deeply seated brain lesions or pathologies close to eloquent areas. Augmented intraoperative orientation and instrument guidance improve the safety and accuracy of neurosurgical interventions.
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| http://dx.doi.org/10.1007/s001170170036 | DOI Listing |
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