Denis Melanson scite author profile

Both the amygdala and the hippocampus are involved in the pathogenesis of a number of neurologic conditions, including temporal lobe epilepsy, postanoxic amnesia, and Alzheimer's disease. To enhance the investigation and management of patients with these disorders, we developed a protocol to measure the volumes of the amygdala and as much of the hippocampus as possible (approximately 90 to 95%) using high-resolution MRI. We present the anatomic basis of these two protocols and our results in normal control subjects. These volumetric studies of the amygdala may clarify the role of this structure in the pathogenesis of temporal lobe epilepsy.

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MRI volumetric measurement of amygdala and hippocampus in temporal lobe epilepsy

Cendes¹,

Andermann²,

Gloor³

et al. 1993

Neurology

391

212

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We performed MRI volumetric measurements of the amygdala (AM), the hippocampal formation (HF), and the anterior temporal lobe in a group of 30 patients with intractable temporal lobe epilepsy (TLE) and in seven patients with extratemporal lobe foci. Measurements were analyzed with a semiautomated software program and the results compared with those of normal controls and correlated with the findings of all other investigations. In particular, we compared the results with the lateralization of epileptic abnormalities in the EEG. Volumetric studies of AM and HF showed lateralization of measurable atrophy consistent with that derived from extracranial and intracranial EEG examinations. The HF volumes were more sensitive and provided a lateralization in 87%. Combined measurements of AM and HF showed lateralization in 93%, always congruent with the results of EEG lateralization. This slight but important additional improvement in discrimination justifies using AM measurements in MRI volumetric studies of mesial temporal structures. Volumetric studies combined with other currently employed noninvasive techniques may diminish the need for invasive methods of investigation in patients with TLE.

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Hypothalamic hamartomas and ictal laughter: Evolution of a characteristic epileptic syndrome and diagnostic value of magnetic resonance imaging

Berkovic

Andermann

Melanson

et al. 1988

Annals of Neurology

286

214

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Detailed study of 4 patients and review of the literature allowed us to delineate further the epileptic syndrome associated with hypothalamic hamartomas, which characteristically begins in infancy with laughing seizures. Because early childhood psychomotor development is usually normal, the condition appears benign and may not even be recognized. The episodes of laughter are brief, frequent, and mechanical in nature. These features distinguish it from other forms of epileptic laughter, particularly that which occurs in temporal lobe epilepsy. Subsequently, the seizures become longer, other seizure types appear, and between the ages of 4 and 10 years, the clinical and electroencephalographic features of secondary generalized epilepsy develop. Cognitive deterioration occurs and severe behavior problems are frequent. Prognosis for seizure control and social adjustment is poor. Cortical abnormality occurs in association with the hypothalamic hamartoma. The lesions are best detected by magnetic resonance imaging but may be difficult to identify by computed tomographic scanning.

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Hippocampal sclerosis in temporal lobe epilepsy demonstrated by magnetic resonance imaging

Berkovic

Andermann

Olivier

et al. 1991

Annals of Neurology

341

136

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The value of magnetic resonance imaging in the detection of hippocampal sclerosis has been controversial. We studied 10 patients aged 22.5 +/- 6.0 years with intractable temporal lobe epilepsy selected because of a history of a prolonged childhood convulsion, which is characteristic of a group of patients in whom hippocampal sclerosis is a constant finding. All 10 patients showed reduction in size of one hippocampus associated with increased signal intensity on T2-weighted magnetic resonance images. These changes were reliably detected on coronal spin-echo images, perpendicular to the long axis of the hippocampus. Appreciation of the normal imaging anatomy of the hippocampus allowed correct interpretation of the relative changes in signal intensities of the hippocampus and adjacent temporal horn on sequential echo images. The side of the abnormal hippocampus on magnetic resonance imaging accorded with the electroencephalographic localization in all 10 patients, and with the lateralization of the early convulsions in all 6 patients where this was known. Temporal lobectomy was performed in all 10 patients. Hippocampal sclerosis was confirmed in the 3 patients in whom hippocampal tissue was available for histological examination. The value of this technique was reinforced by the excellent postoperative results, with 80% being seizure free at a mean follow-up time of 33 +/- 4 months.

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Denis Melanson

Anatomic basis of amygdaloid and hippocampal volume measurement by magnetic resonance imaging

MRI volumetric measurement of amygdala and hippocampus in temporal lobe epilepsy

Hypothalamic hamartomas and ictal laughter: Evolution of a characteristic epileptic syndrome and diagnostic value of magnetic resonance imaging

Hippocampal sclerosis in temporal lobe epilepsy demonstrated by magnetic resonance imaging

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