Volumetric measurements of subcortical nuclei in patients with temporal lobe epilepsy

Volumetric measurements of subcortical nuclei in patients with temporal lobe epilepsy

S. Dreifuss, MD, F. J.G. Vingerhoets, MD, F. Lazeyras, PhD, S. Gonzales Andino, PhD, L. Spinelli, PhD, J. Delavelle, MD and M. Seeck, MD

From the Laboratory of Presurgical Epilepsy Evaluation (Drs. Dreifuss, Lazeyras, Spinelli, and Seeck), "Functional Neurology and Neurosurgery" Program of the University Hospitals Lausanne and Geneva; the Department of Neurology (Dr. Dreifuss), the Brainmapping Laboratory, Department of Neurology (Dr. Gonzales Andino), and the Department of Radiology (Dr. Delavelle), University Hospital of Geneva; and the Department of Neurology (Dr. Vingerhoets), University Hospital of Lausanne (CHUV), Switzerland.

Address correspondence and reprint requests to Dr. M. Seeck, Laboratory of Presurgical Epilepsy, Department of Neurology, 24 rue Micheli-du-Crest, 1211 Geneva 14, Switzerland; e-mail: margitta.seeck{at}hcuge.ch

Objective:— To determine the volumes of subcortical nucleiin patients with chronic epilepsy.

Background:— Animal and human data suggest a crucial rolefor subcortical structures in the modulation of seizure activity,mostly as seizure-suppressing relays. Although cortical epileptogenicfoci can vary in localization and extent, it nevertheless appearsthat these structures subsequently influence seizure propagationin a universal fashion. There is, however, little knowledgeabout the size of implicated subcortical structures in patientswith epilepsy.

Method:— Using high-resolution MRI, the volumes of selectedsubcortical nuclei, such as the thalamus, caudate nucleus, putamen,and pallidum, were measured in both hemispheres of 27 patientswith temporal lobe epilepsy. Fourteen healthy volunteers servedas controls. Statistical analysis was done for both normalizedvolumes (by total brain volume) and unnormalized volumes.

Results:— Overall, the patient group had smaller thalamicand striatal volumes in both hemispheres, mostly ipsilateralto the epileptic focus. No significant correlations were notedbetween volume measurements and age, age at onset, durationof epilepsy, or total seizure frequency, including frequencyof generalized seizures. The putamen and thalamus seemed tobe affected predominantly in patients with a history of febrileconvulsions, whereas patients without febrile convulsions hadsmaller caudate nuclei bilaterally.

Conclusions:— Volumetric measurements of subcortical nucleireveal atrophy of distinct subcortical nuclei in the patientgroup, predominantly ipsilateral to the focus. This findingprobably reflects persistent abnormalities and not secondarychange. In addition, the structural differences between patientswith and patients without previous febrile convulsions suggestthat these conditions may have different causes.

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