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Epilepsy Cases (epilepsy + case)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Multivariate Neuropsychological Prediction of Seizure Lateralization in Temporal Epilepsy Surgical Cases

EPILEPSIA, Issue 8 2007
Therese A. Keary
Summary:,Purpose: Neuropsychological assessment can be of assistance in determining seizure lateralization in cases where EEG and MRI findings do not provide clear lateralizing data. While several studies have examined the lateralizing value of individual neuropsychological measures, clinicians are still in need of a statistically sound method that permits the incorporation of multiple neuropsychological variables to predict seizure lateralization in the individual patient. Method: The present study investigated the lateralizing value of several commonly used neuropsychological measures in a large sample of patients (n = 217) who eventually underwent surgical resection to treat their epilepsy. Side of surgery was used to operationally define seizure lateralization. A comparison of the relative utility of a multivariate versus univariate approach to predict seizure lateralization was conducted in temporal epilepsy cases. Results: The results provide evidence for the incremental validity of neuropsychological measures, other than memory and IQ tests, in the prediction of seizure lateralization in patients with medically intractable epilepsy. These data indicate that a multivariate approach increases the accuracy of prediction of seizure lateralization for temporal lobe epilepsy cases. Conclusion: This study supports the use of a multivariate approach using neuropsychological measures to predict seizure lateralization in temporal epilepsy surgical candidates. Regression formulas are provided to enhance the clinical utility of these findings. [source]

Neuromagnetic Source Localization of Epileptiform Activity in Patients with Graphogenic Epilepsy

EPILEPSIA, Issue 11 2006
Naoaki Tanaka
Summary:,Purpose: To clarify the source localization of epileptiform activity by using magnetoencephalography (MEG) in patients with graphogenic epilepsy. Methods: MEG and simultaneous EEG were recorded with a 204-channel whole-head MEG system in two patients with graphogenic epilepsy. During the MEG recordings, the patients performed a set of tasks comprising mental arithmetic calculation, speaking, moving the right arm in a manner resembling writing, writing, and thinking of writing. Equivalent current dipoles (ECD) were calculated for epileptiform discharges on MEG by using a single-dipole model. The ECD were superimposed on the magnetic resonance images of the patients. Results: The task of writing provoked seizures, in which both patients jerked the right arms. Thinking of writing also induced these seizures. In both patients, EEG associated with the seizures showed bursts of spike-and-slow-wave complexes predominantly in the centroparietal region. MEG also showed epileptiform discharges corresponding to the EEG bursts. ECDs obtained from the discharges were clustered in the left centroparietal area. Conclusions: Thinking of writing was a trigger for the seizures, as well as the task of writing. The source of the epileptiform discharge associated with the seizures was localized in the unilateral centroparietal area. The findings suggest that the centroparietal region plays an important role in the pathophysiology underlying these two graphogenic epilepsy cases. [source]

Ictal Brain Hyperperfusion Contralateral to Seizure Onset: The SPECT Mirror Image

EPILEPSIA, Issue 1 2006
Gilles Huberfeld
Summary:,Purpose: Ictal single-photon emission computed tomography (SPECT) may help localize the seizure-onset zone (SOZ) by detecting changes in regional cerebral blood flow induced by epileptic discharges. This imaging method also reveals hyperperfusions in areas of seizure propagation, including the hemisphere contralateral to the SOZ. We have studied the occurrence, the topography, and the clinical value of such contralateral ictal hyperperfusion areas (HPAs). Methods: We examined data from presurgical evaluations of 36 consecutive patients with pharmacoresistant partial epilepsy of various localizations. Ictal and interictal SPECT examinations were made with 99mTc-ECD, and the scans were processed for coregistration, normalization, subtraction, and merging with MRI images. Results: Contralateral HPAs were observed in 72% of the patients: 50% of mesiotemporal epilepsy cases with hippocampal sclerosis, 85.7% of the other mesiotemporal epilepsies, 85.7% of neocortical lateral temporal epilepsies, and 87.5% of extratemporal epilepsies. Contralateral HPAs were usually symmetrical to the SOZ, forming a mirror image, observed in 57.1% of the patients. They could be slightly asymmetrical in mesiotemporal epilepsies, perhaps because of the particular anatomic pathways linking temporal lobes. In neocortical epilepsies, they were located in the cortex homotopic to the SOZ. Conclusions: We show that the symmetrical nature of the mirror image usually does not disturb SPECT interpretation. It can confirm the location of the SOZ (11 patients) and even occasionally improve the precision of its definition (nine patients) by restraining several potential SOZ-related HPAs to a single one or by permitting a restricted localization of the SOZ in a large HPA. [source]

Community Leader Education to Increase Epilepsy Attendance at Clinics in Epworth, Zimbabwe

EPILEPSIA, Issue 8 2000
D. E. Ball
Summary: Objective: To determine whether educating community leaders about epilepsy would lead to an increase in epilepsy cases being diagnosed and treated at primary health centers. Methods: This was a single-arm cohort study performed in Epworth, a periurban township outside Harare, Zimbabwe. The subjects were Epworth community leaders (Local Board members, teachers, nurses, police officers, traditional healers, prophets). Educational workshops were given on epilepsy, its cause, and its management, and the number of new epilepsy cases on local primary health clinic registers 6 months after the workshops was measured. Results: Six new cases were recorded, all among patients previously diagnosed with epilepsy. This was a significant increase (p = 0.02) compared with the null hypothesis. Conclusion: Although there was a significant increase in new cases, these did not represent newly diagnosed patients. Significant prejudice within the community may still prevent identified patients with epilepsy from seeking treatment. Alternative methods must be sought to increase the awareness of epilepsy within low-income communities and to reach "hidden" people with epilepsy. [source]

What I learnt from studying epilepsy: Epileptology and myself

PSYCHIATRY AND CLINICAL NEUROSCIENCES, Issue 2 2004
HARUO AKIMOTO
Abstract, My life work with epilepsy has allowed me to learn a great deal. As an old soldier, I would like to give an account of some important milestones in my lifetime learning. The first factor that linked me to epilepsy was listening to a lecture delivered by Dr Yushi Uchimura on ,The pathogenesis of Ammon's horn sclerosis' at a conference of the Japanese Society of Neurology (now Japanese Society of Psychiatry and Neurology) in 1928 when I was a 4th year medical student at Tokyo University. The following year, I started to study under Dr Uchimura at the Department of Psychiatry, Hokkaido University School of Medicine. Another factor that linked me to clinical care and research of epilepsy as a psychiatrist was my encounter with the two volumes of ,Selected Writing of John Hughlings Jackson' edited by J. Taylor. Jackson's greatest asset and contribution to modern epileptology include (i) the discovery of ,Jacksonian epilepsy', (ii) ,conceptual revolution of epilepsy' by recognizing transient mental disorders as seizures, (iii) modern definition of epilepsy by defining epileptic seizures as discharges in the gray matter, and (iv) discovery of ,new epilepsy' (now temporal lobe epilepsy). In 1940, I reported clinical courses indistinguishable from schizophrenia in epilepsy cases. Through my studies, I disputed the then prevailing interpretation of this condition as epilepsy complicating schizophrenia, and proved that these cases were in fact epileptic mental disorders caused by epilepsy. Many patients with epilepsy require medical care as well as rehabilitation and welfare support. We need to further promote the facilities for rehabilitation and employment in the community for persons with epilepsy, such as co-operatives and welfare worksites. The issues that epileptology and epilepsy face in the 21st century is to realize the goals of liberating epilepsy from social stigma and protecting all the citizen's rights for persons with epilepsy. [source]