BACKGROUND AND PURPOSE: Serotonin is a major regulator of structural brain plasticity, which may occur following cortical resection in humans. In this study we used positron emission tomography (PET) with alpha[11C]methyl-l-tryptophan (AMT) to evaluate serotonergic alterations in subcortical structures following cortical resection in children with intractable epilepsy. METHODS: AMT uptake in the thalamus and lentiform nucleus was evaluated postoperatively (1-89 months following resection) in 19 children (mean age: 8.7 years) with a previous cortical resection due to intractable epilepsy. Ten children with partial epilepsy but without resection and seven normal children served as controls. RESULTS: There was an increased AMT uptake in the lentiform nucleus ipsilateral to the resection as compared to the contralateral side (mean asymmetry: 4.2+/-3.0%), and the asymmetries were significantly higher than those measured in the control groups (p<or=0.001). Post-resection asymmetry indices in the lentiform nucleus correlated inversely with postoperative time (r=-0.67; p=0.002), but not with age (p=0.29) or the extent of resection (p=0.77). In contrast, thalamic AMT uptake asymmetries were not different among the three groups (p=0.63). CONCLUSIONS: Cortical resection results in a sustained increase of AMT uptake in the lentiform nucleus, suggesting increased serotonin synthesis. Serotonergic activation in the deafferented striatum may play a role in the functional reorganization of cortico-striatal projections in humans.
BACKGROUND AND PURPOSE:Serotonin is a major regulator of structural brain plasticity, which may occur following cortical resection in humans. In this study we used positron emission tomography (PET) with alpha[11C]methyl-l-tryptophan (AMT) to evaluate serotonergic alterations in subcortical structures following cortical resection in children with intractable epilepsy. METHODS: AMT uptake in the thalamus and lentiform nucleus was evaluated postoperatively (1-89 months following resection) in 19 children (mean age: 8.7 years) with a previous cortical resection due to intractable epilepsy. Ten children with partial epilepsy but without resection and seven normal children served as controls. RESULTS: There was an increased AMT uptake in the lentiform nucleus ipsilateral to the resection as compared to the contralateral side (mean asymmetry: 4.2+/-3.0%), and the asymmetries were significantly higher than those measured in the control groups (p<or=0.001). Post-resection asymmetry indices in the lentiform nucleus correlated inversely with postoperative time (r=-0.67; p=0.002), but not with age (p=0.29) or the extent of resection (p=0.77). In contrast, thalamic AMT uptake asymmetries were not different among the three groups (p=0.63). CONCLUSIONS: Cortical resection results in a sustained increase of AMT uptake in the lentiform nucleus, suggesting increased serotonin synthesis. Serotonergic activation in the deafferented striatum may play a role in the functional reorganization of cortico-striatal projections in humans.
Authors: A Bernasconi; N Bernasconi; M Lassonde; P J Toussaint; E Meyer; D C Reutens; J Gotman; F Andermann; J G Villemure Journal: Neuroreport Date: 2000-09-28 Impact factor: 1.837