Preoperative Planning and Functional Neuronavigation - with functional MRI and Diffusion Tensor Tractography in Patients with Brain Lesions

Blood-Oxygenation-Level-Dependent functional Magnetic-Resonance-Imaging (BOLD fMRI) and Diffusion Tensor Imaging (DTI) are specialized MRI-techniques for imaging of eloquent cortices and neural tracts in gray and white matter, respectively. By processing of the BOLD fMRI images, it is possible to map eloquent cortices and visualize them as statistical parametric color coded maps to be overlain on for instance anatomical MRI-images. Processing of the DTI images using a technique called Diffusion Tensor Tractography (DTT), makes it possible to map important neural tracts and visualize them as fiber bundles. The results from these examinations may be helpful during planning and resection of brain lesions, by providing information on functional eloquent cortices and important white matter tracts in close proximity to the lesion, as the goal of surgery is to maximize resection without inflicting new neurological deficits. This functional information may also be incorporated into neuronavigation systems and utilized during surgery. The overall aim of this thesis was to develop, implement, and evaluate BOLD fMRI and DTT at 3 Tesla for routine use in preoperative planning and 3D ultrasound-guided functional neuronavigation combined with minimal invasive neurosurgery. Obtaining normative functional data in healthy subjects is a first step in the development of clinical useful tasks. Thus, we investigated different motor tasks in a group of healthy subjects to evaluate which combination was best suited for functional mapping and delineation of the primary motor cortex. Movement of fingers, toes, and tongue yielded the highest success rates in healthy subjects and proved equally successful in patients with brain lesions. We also investigated a set of language tasks and the reproducibility of the activation size and location for these. We found that a word-generation task and a responsive naming task should be preferred for mapping of the frontal and temporal language area, respectively. 4 A novel language task with the potential to map both the frontal and temporal language areas was also established. This task has the advantage of being more engaging, which may help the subjects to maintain concentration and stay motivated throughout the scanning session. We have also evaluated the use of BOLD fMRI and DTT in 3D ultrasound-guided functional neuronavigation by retrospectively reviewing patients operated during a three-year period. We found that surgery gave an overall significant improvement in clinical status compared to preoperatively, and for gliomas we found a median residual tumor volume of 11%. We also found a significant correlation between decreasing lesion-to-eloquent-area distance …