Functional MRI predicts post-surgical memory following temporal lobectomy

doi:10.1093/brain/awh281

Brain Advance Access originally published online on August 25, 2004
Brain 2004 127(10):2286-2298; doi:10.1093/brain/awh281

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Functional MRI predicts post-surgical memory following temporal lobectomy

Marcie L. Rabin¹, Veena M. Narayan¹, Daniel Y. Kimberg¹^,2, Daniel J. Casasanto¹, Guila Glosser¹, Joseph I. Tracy³, Jacqueline A. French¹, Michael R. Sperling³ and John A. Detre¹^,2

¹ Departments of Neurology and ² Center for Functional Neuroimaging, University of Pennsylvania School of Medicine and ³ Department of Neurology, Thomas Jefferson University School of Medicine, Philadelphia, Pennsylvania, USA

Correspondence to: John A. Detre, MD, Department of Neurology, University of Pennsylvania School of Medicine, 3W Gates Bldg, 3400 Spruce Street, Philadelphia, PA 19104, USA E-mail: detre{at}mail.med.upenn.edu

Temporal lobectomy is an effective therapy for medically refractorytemporal lobe epilepsy (TLE), but may be complicated by amnesticsyndromes. Therefore, pre-surgical evaluation to assess therisk/benefit ratio for surgery is required. Intracarotid amobarbitaltesting (IAT) is currently the most widely used method for assessingpre-surgical memory lateralization, but is relatively invasive.Over the past decade functional MRI (fMRI) has been shown tocorrelate with IAT for language lateralization, and also formemory lateralization in a small number of patients. This studywas carried out to compare fMRI during memory encoding withIAT testing for memory lateralization, and to assess the predictivevalue of fMRI during memory encoding for post-surgical memoryoutcome. Thirty-five patients with refractory TLE undergoingpre-surgical evaluation for temporal lobectomy and 30 normalsubjects performed a complex visual scene-encoding task duringfMRI scanning at 1.5 T using a 10-min protocol. Encoding performancewas evaluated with subsequent recognition testing. Twenty-threepatients also completed the same task again outside the scanner,an average of 6.9 months following surgery. A region of interest(ROI) analysis was used to quantify activation within hippocampaland a larger mesial temporal lobe ROI consisting of hippocampus,parahippocampus and fusiform gyrus (HPF) as defined by a publishedtemplate. Normal subjects showed almost symmetrical activationwithin these ROI. TLE patients showed greater asymmetry. Asymmetryratios (ARs) from the HPF ROI correlated significantly withmemory lateralization by intracarotid amobarbital testing. HPFARs also correlated significantly with memory outcome, as determinedby a change in scene recognition between pre-surgical and post-surgicaltrials. When absolute activation within the HPF ROI was considered,a significant inverse correlation between activation ipsilateralto temporal lobectomy and memory outcome was observed, withno significant correlation in the contralateral HPF ROI. Althoughfurther technical improvements and prospective clinical validationare required, these results suggest that mesial temporal memoryactivation detected by fMRI during complex visual scene encodingcorrelates with post-surgical memory outcome and supports thenotion that this approach will ultimately contribute to patientmanagement.

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