Abstract
ObjectiveAnterior temporal lobe resection (ATLR) is an effective treatment for refractory temporal lobe epilepsy but may result in a contralateral superior visual field deficit (VFD) that precludes driving in the seizure-free patient. Diffusion tensor imaging (DTI) tractography can delineate the optic radiation preoperatively and stratify risk. It would be advantageous to incorporate display of tracts into interventional magnetic resonance imaging (MRI) to guide surgery.MethodsWe studied 20 patients undergoing ATLR. Structural MRI scans, DTI, and visual fields were acquired before and 3 to 12 months following surgery. Tractography of the optic radiation was performed on preoperative images and propagated onto postoperative images. The anteroposterior extent of the damage to Meyer's loop was determined, and visual loss was quantified using Goldmann perimetry.ResultsTwelve patients (60%) suffered a VFD (10–92% of upper quadrant; median, 39%). Image registration took <3 minutes and predicted that Meyer's loop was 4.4 to 18.7mm anterior to the resection margin in these patients, but 0.0 to 17.6mm behind the resection margin in the 8 patients without VFD. The extent of damage to Meyer's loop significantly correlated with the degree of VFD and explained 65% of the variance in this measure.InterpretationThe optic radiation can be accurately delineated by tractography and propagated onto postoperative images. The technique is fast enough to propagate accurate preoperative tractography onto intraoperative scans acquired during neurosurgery, with the potential to reduce the risk of VFD. ANN NEUROL 2012;
Highlights
Due to the high variability observed between Goldmann perimetry sessions[28] and the lack of preoperative data in some patients, visual field loss was calculated using the areas of the upper quadrants (UQs) as follows: visual field deficit (VFD) 1⁄4 1 À/(area ipsilateral UQ [left eye] þ area ipsilateral UQ [right eye])
Accurate registration explaining the majority of the variance in the measured postoperative VFD could be achieved within 3 minutes
This technique will be applied intraoperatively using interventional magnetic resonance imaging (MRI), so that the preoperative representation of the optic radiation is correctly displayed to the operating surgeon, taking account of the brain shift that occurs during surgery and facilitating the modification of the surgical approach to avoid damaging this critical pathway
Summary
Anterior temporal lobe resection (ATLR) is an effective treatment for refractory temporal lobe epilepsy but may result in a contralateral superior visual field deficit (VFD) that precludes driving in the seizure-free patient. This study was designed to demonstrate the feasibility of a rapid novel image processing technique to propagate preoperative tractography data onto postoperative structural images by showing that the extent of damage to Meyer’s loop as assessed by this technique is more highly predictive of visual field outcome following surgery than assessment using the combination of the degree of resection and location of Meyer’s loop This method can be applied to register preoperative tractography results to intraoperative structural MRI scans taken after craniotomy to make these data available in real time during image-guided surgery and reduce the risk of optic radiation damage
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