R W Thatcher1, D M North, C J Biver. 1. EEG and NeuroImaging Laboratory, Applied Neuroscience Research Institute, St. Petersburg, FL 33722, USA. rwthatcher@yahoo.com
Abstract
OBJECTIVES: The purpose of this study was to explore the relationship between EEG phase reset and performance on the Wechsler Intelligence test. METHODS: The electroencephalogram (EEG) was recorded from 19 scalp locations from 378 subjects ranging in age from 5 years to 17.6 years. The Wechsler Intelligence test (WISC-R) was administered to the same subjects on the same day but not while the EEG was recorded. Complex demodulation was used to compute instantaneous EEG phase differences between pairs of electrodes and the 1st and 2nd derivatives were used to measure phase reset by phase shift duration and phase lock duration. The dependent variable was full scale I.Q. and the independent variables were phase shift duration (SD) and phase lock duration (LD) with age as a covariate. RESULTS: Phase shift duration (40-90 ms) was positively related to intelligence (P<.00001) and the phase lock duration (100-800 ms) was negatively related to intelligence (P<.00001). Phase reset in short interelectrode distances (6 cm) was more highly correlated to I.Q. (P<.0001) than in long distances (>12 cm). CONCLUSIONS: The duration of unstable phase dynamics and phase locking represent a bounded optimization process, for example, too long a duration of phase locking then less flexibility and too short of a phase shift then reduced neural resources. A two compartmental model of local field coupling and neuron synchrony to a preferred phase was developed to explain the findings.
OBJECTIVES: The purpose of this study was to explore the relationship between EEG phase reset and performance on the Wechsler Intelligence test. METHODS: The electroencephalogram (EEG) was recorded from 19 scalp locations from 378 subjects ranging in age from 5 years to 17.6 years. The Wechsler Intelligence test (WISC-R) was administered to the same subjects on the same day but not while the EEG was recorded. Complex demodulation was used to compute instantaneous EEG phase differences between pairs of electrodes and the 1st and 2nd derivatives were used to measure phase reset by phase shift duration and phase lock duration. The dependent variable was full scale I.Q. and the independent variables were phase shift duration (SD) and phase lock duration (LD) with age as a covariate. RESULTS: Phase shift duration (40-90 ms) was positively related to intelligence (P<.00001) and the phase lock duration (100-800 ms) was negatively related to intelligence (P<.00001). Phase reset in short interelectrode distances (6 cm) was more highly correlated to I.Q. (P<.0001) than in long distances (>12 cm). CONCLUSIONS: The duration of unstable phase dynamics and phase locking represent a bounded optimization process, for example, too long a duration of phase locking then less flexibility and too short of a phase shift then reduced neural resources. A two compartmental model of local field coupling and neuron synchrony to a preferred phase was developed to explain the findings.
Authors: Nicolas Langer; Andreas Pedroni; Lorena R R Gianotti; Jürgen Hänggi; Daria Knoch; Lutz Jäncke Journal: Hum Brain Mapp Date: 2011-05-09 Impact factor: 5.038
Authors: Rikkert Hindriks; Fetsje Bijma; Bob W van Dijk; Cornelis J Stam; Ysbrand Y van der Werf; Eus J W van Someren; Jan C de Munck; Aad W van der Vaart Journal: Hum Brain Mapp Date: 2011-01-10 Impact factor: 5.038
Authors: Gareth Ball; Paul R Stokes; Rebecca A Rhodes; Subrata K Bose; Iead Rezek; Alle-Meije Wink; Louis-David Lord; Mitul A Mehta; Paul M Grasby; Federico E Turkheimer Journal: Front Syst Neurosci Date: 2011-01-25