OBJECTIVE: Hippocampal sclerosis (HS) is observed in many intractable, mesial temporal lobe epilepsy (MTLE) patients. We aimed to delineate the internal structural changes (ISC) shown as loss of internal architecture in the hippocampus on 3-Tesla magnetic resonance imaging (3T-MRI) due to its higher spatial resolution. METHODS: We studied 12 MTLE patients who exhibited unilateral HS on conventional 1.5 Tesla-MRI. Using 3T-MRI, high resolution T2-weighted coronal images of the hippocampus were investigated by visual inspection without the use of detailed clinical information. In addition, tissue samples obtained from four patients who underwent epilepsy surgery were analyzed histopathologically. RESULTS: In addition to hippocampal atrophy (HA) in the abnormal side, blurring of the low-intensity streak, i.e., ISC, in the hippocampus was seen in 12 patients and atrophy or high signal intensity was observed in Ammon's horn or the dentate gyrus in nine patients. After four patients underwent epilepsy surgery, tissue samples showed astrogliosis and a loss of pyramidal neurons in the hippocampal body, concordant with ISC or HA on MRI examination. CONCLUSION: High-resolution MRI suggests that minute internal structural changes in the hippocampus reflect neuronal cell loss or gliosis, possibly in the early stage, and also show laterality of changes more sensitively. Different internal structural changes could further subclassify HS and may predict the surgical outcomes of seizure control based on the clinicopathological correlation.
OBJECTIVE:Hippocampal sclerosis (HS) is observed in many intractable, mesial temporal lobe epilepsy (MTLE) patients. We aimed to delineate the internal structural changes (ISC) shown as loss of internal architecture in the hippocampus on 3-Tesla magnetic resonance imaging (3T-MRI) due to its higher spatial resolution. METHODS: We studied 12 MTLE patients who exhibited unilateral HS on conventional 1.5 Tesla-MRI. Using 3T-MRI, high resolution T2-weighted coronal images of the hippocampus were investigated by visual inspection without the use of detailed clinical information. In addition, tissue samples obtained from four patients who underwent epilepsy surgery were analyzed histopathologically. RESULTS: In addition to hippocampal atrophy (HA) in the abnormal side, blurring of the low-intensity streak, i.e., ISC, in the hippocampus was seen in 12 patients and atrophy or high signal intensity was observed in Ammon's horn or the dentate gyrus in nine patients. After four patients underwent epilepsy surgery, tissue samples showed astrogliosis and a loss of pyramidal neurons in the hippocampal body, concordant with ISC or HA on MRI examination. CONCLUSION: High-resolution MRI suggests that minute internal structural changes in the hippocampus reflect neuronal cell loss or gliosis, possibly in the early stage, and also show laterality of changes more sensitively. Different internal structural changes could further subclassify HS and may predict the surgical outcomes of seizure control based on the clinicopathological correlation.
Authors: Elke Hattingen; Simon Jonas Enkirch; Alina Jurcoane; Maximilian Kruse; Daniel Delev; Alexander Grote; Albert Becker Journal: Neuroradiology Date: 2017-10-30 Impact factor: 2.804
Authors: Roberson S Polli; Jackeline M Malheiros; Renan Dos Santos; Clement Hamani; Beatriz M Longo; Alberto Tannús; Luiz E Mello; Luciene Covolan Journal: Front Neurol Date: 2014-07-01 Impact factor: 4.003