Objective: Obese subjects without eating disorders were characterised by poor electroencephalographic (EEG) alpha rhythms during resting-state eye-closed condition (. Babiloni et al., 2011b). Is this true also for the desynchronisation of alpha rhythms during resting-state eyes opening? Methods: EEG data were recorded in 15 underweight, 20 normal-weight, and 18 overweight/obese subjects during resting-state eyes-closed and -open conditions. EEG sources were estimated by LORETA for alpha 1 (8-10.5. Hz) and alpha 2 (10.5-13. Hz). The alpha desynchronisation was calculated as the difference eyes-open minus -closed condition. Results: The occipital alpha 1 desynchronisation was lower in overweight/obese and underweight subjects compared with normal-weight subjects (. p<. 0.000005). The same was true for parietal, occipital and temporal alpha 2 (10.5-13. Hz) desynchronisation (. p<. 0.000002). The parietal and temporal alpha 1 desynchronisation was lower in overweight/obese than in normal-weight subjects (. p<. 0.00001). These effects spatially matched those observed in the resting-state eyes-closed condition. Conclusion: Subjects with abnormal weight and normal eating behaviour are characterised by poor alpha desynchronisation during resting-state eyes opening. Significance: Obese subjects without eating disorders show abnormal mechanisms of cortical neural synchronisation and desynchronisation of alpha rhythms in the resting state condition. © 2013 International Federation of Clinical Neurophysiology.
Poor desynchronisation of resting-state eyes-open cortical alpha rhythms in obese subjects without eating disorders
Valenzano A;Bellomo A;
2013-01-01
Abstract
Objective: Obese subjects without eating disorders were characterised by poor electroencephalographic (EEG) alpha rhythms during resting-state eye-closed condition (. Babiloni et al., 2011b). Is this true also for the desynchronisation of alpha rhythms during resting-state eyes opening? Methods: EEG data were recorded in 15 underweight, 20 normal-weight, and 18 overweight/obese subjects during resting-state eyes-closed and -open conditions. EEG sources were estimated by LORETA for alpha 1 (8-10.5. Hz) and alpha 2 (10.5-13. Hz). The alpha desynchronisation was calculated as the difference eyes-open minus -closed condition. Results: The occipital alpha 1 desynchronisation was lower in overweight/obese and underweight subjects compared with normal-weight subjects (. p<. 0.000005). The same was true for parietal, occipital and temporal alpha 2 (10.5-13. Hz) desynchronisation (. p<. 0.000002). The parietal and temporal alpha 1 desynchronisation was lower in overweight/obese than in normal-weight subjects (. p<. 0.00001). These effects spatially matched those observed in the resting-state eyes-closed condition. Conclusion: Subjects with abnormal weight and normal eating behaviour are characterised by poor alpha desynchronisation during resting-state eyes opening. Significance: Obese subjects without eating disorders show abnormal mechanisms of cortical neural synchronisation and desynchronisation of alpha rhythms in the resting state condition. © 2013 International Federation of Clinical Neurophysiology.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.