STMO-17 USEFULNESS OF INTEGRATION OF PREOPERATIVE FUNCTIONAL IMAGING AND INTRAOPERATIVE MRI NAVIGATION SYSTEM IN GLIOMA SURGERY

PURPOSE: Intraoperative magnetic resonance imaging (MRI) update navigation is performed in all cases to preserve neurological function and remove the tumor as much as possible, and to prevent recurrence and improve prognosis. And under awake craniotomy, we supported operators by integrating preoperative functional images with intraoperative MRI. We report our usefulness of image superimposition between medium magnetic field intraoperative MRI and preoperative position emission tomography (PET) and preoperative diffusion tensor imaging (DTI) color-map. METHOD: Of more than 2,200 cases using intraoperative MRI since 2000, 58 preoperative PET (57 methionine and 1 FDG nuclides) superimposed cases (32 left-sided, 35 males, 15 under awake craniotomy, mean 44.8 y.o.) were evaluated. The tumor was located to 34 frontal-, 12 temporal-, 10 parietal lobes, 1 insular gyrus, 1 thalamus. Color-map image superimposition of preoperative DTI (3T, 6-axis application) anisotropic indices in 12 cases (localized in 8 frontal-, 2 insular-, 2 parietal lobes, 7 left-sided, 7 females, mean 35 y.o.). Neurophysiological monitoring was combined (5 under general, 7 awake anesthesia). RESULTS: The preoperative TN ratio was 3.8 (in 57 methionine-PET cases), and pathological results (Grade 3-4 in 15-31 cases respectively, out of 54 cases) were used for reliable and preferential removal of sites with higher malignancy and recurrence-prone sites. Recurrent cases (41/58) had altered brain structures that were too difficult to identify without the navigation. In the DTI cases, intraoperative MRI, DTI color-map, and microscopic surgical images were displayed on one screen, and white matter tracts information as a reference is quickly conveyed to operators, and helped to reduce perioperative neurological complications. CONCLUSION: Co-registering an effective superimposition of medium magnetic field intraoperative MRI with high positional accuracy, and preoperative PET- and DTI- images according to the patient's characteristics is currently the most practical navigation application method for intraoperative prediction of important functional information.