PURPOSE: To investigate the distribution of MR findings in the hippocampus and amygdala in patients with hippocampal sclerosis. METHODS: We blindly evaluated MR scans for atrophy and signal changes occurring in the amygdala, hippocampal head, hippocampal body, and hippocampal tail in 57 consecutive patients with hippocampal sclerosis proved by pathologic analysis. RESULTS: Regional atrophy or signal change was present in limbic structures. Atrophy was detected in 52 patients, occurring in the amygdala in 7 (12%), hippocampal head in 29 (51%), hippocampal body in 50 (88%), and hippocampal tail in 35 (61%). Hyperintense signal on long-repetition-time images was observed in 49 patients and involved the amygdala in 2 (4%), hippocampal head in 22 (39%), hippocampal body in 46 (81%), and hippocampal tail in 28 (49%). Thirty patients (53%) had abnormal MR findings distributed through the entire ipsilateral hippocampus, 25 (44%) had regional rather than widespread involvement of limbic structures, and 2 (3%) had no MR abnormalities. CONCLUSION: Signal and volume changes associated with hippocampal sclerosis affect the entire hippocampus in most patients. However, a substantial number of patients have MR abnormalities that are regional, involving only portions of the hippocampus and amygdala. The most frequently affected region was the hippocampal body. These findings can have important implications for surgery and quantitative image analysis, if the seizure generator is related to MR changes.
PURPOSE: To investigate the distribution of MR findings in the hippocampus and amygdala in patients with hippocampal sclerosis. METHODS: We blindly evaluated MR scans for atrophy and signal changes occurring in the amygdala, hippocampal head, hippocampal body, and hippocampal tail in 57 consecutive patients with hippocampal sclerosis proved by pathologic analysis. RESULTS: Regional atrophy or signal change was present in limbic structures. Atrophy was detected in 52 patients, occurring in the amygdala in 7 (12%), hippocampal head in 29 (51%), hippocampal body in 50 (88%), and hippocampal tail in 35 (61%). Hyperintense signal on long-repetition-time images was observed in 49 patients and involved the amygdala in 2 (4%), hippocampal head in 22 (39%), hippocampal body in 46 (81%), and hippocampal tail in 28 (49%). Thirty patients (53%) had abnormal MR findings distributed through the entire ipsilateral hippocampus, 25 (44%) had regional rather than widespread involvement of limbic structures, and 2 (3%) had no MR abnormalities. CONCLUSION: Signal and volume changes associated with hippocampal sclerosis affect the entire hippocampus in most patients. However, a substantial number of patients have MR abnormalities that are regional, involving only portions of the hippocampus and amygdala. The most frequently affected region was the hippocampal body. These findings can have important implications for surgery and quantitative image analysis, if the seizure generator is related to MR changes.
Authors: Thomas R Henry; Marie Chupin; Stéphane Lehéricy; John P Strupp; Michael A Sikora; Zhiyi Y Sha; Kâmil Ugurbil; Pierre-François Van de Moortele Journal: Radiology Date: 2011-07-11 Impact factor: 11.105
Authors: S P C Bower; S J Vogrin; K Morris; I Cox; M Murphy; C J Kilpatrick; M J Cook Journal: J Neurol Neurosurg Psychiatry Date: 2003-09 Impact factor: 10.154
Authors: Maria Thom; Ioannis Liagkouras; Lillian Martinian; Joan Liu; Claudia B Catarino; Sanjay M Sisodiya Journal: Epilepsy Res Date: 2012-05-16 Impact factor: 3.045