TY  - JOUR
AU  - González, J.
AU  - Gamundi, A.
AU  - Rial, R.
AU  - Nicolau, M.C.
AU  - De Vera, L.
AU  - Pereda, E.
T1  - Nonlinear, fractal, and spectral analysis of the EEG of lizard, Gallotia galloti
LA  - eng
PY  - 1999
T2  - American Journal of Physiology - Regulatory Integrative and Comparative Physiology
SN  - 0363-6119
VL  - 277
IS  - 1 46-1
AB  - Electroencephalogram (EEG) from dorsal cortex of lizard Gallotia galloti was analyzed at different temperatures to test the presence of fractal or nonlinear structure during open (OE) and closed eyes (CE), with the aim of comparing these results with those reported for human slow-wave sleep (SWS). Two nonlinear parameters characterizing EEG complexity [correlation dimension (D2)] and predictability [largest Lyapunov exponent (λ1)] were calculated, and EEG spectrum and fractal exponent β were determined via coarse graining spectral analysis. At 25°C, evidence of nonlinear structure was obtained by the surrogate data test, with EEG phase space structure suggesting the presence of deterministic chaos (D2 ~6, λ1 ~1.5). Both nonlinear parameters were greater in OE than in CE and for the right hemisphere in both situations. At 35°C the evidence of nonlinearity was not conclusive and differences between states disappeared, whereas interhemispheric differences remained for λ1. Harmonic power always increased with temperature within the band 8-30 Hz, but only with OE within the band 0.3-7.5 Hz. Qualitative similarities found between lizard and human SWS EEG support the hypothesis that reptilian waking could evolve into mammalian SWS.
UR  - https://portalciencia.ull.es/documentos/5e39b7172999523aa9270fb8
DP  - Dialnet - Portal de la Investigación
ER  -