Flexible effects of quantified cigarette-smoke delivery on EEG dimensional complexity |
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| Authors: | Walter S. Pritchard David G. Gilbert Dennis W. Duke |
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| Affiliation: | (1) Biological Research Group R&D, Bowman Gray Technical Center 611-12, R.J. Reynolds Tobacco Company, 27102 Winston-Salem, NC, USA;(2) Department of Psychology, Southern Illinois University, 62901 Carbondale, IL, USA;(3) Supercomputer Computations Research Institute and Department of Physics, Florida State University, 32306 Tallahassee, FL, USA |
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| Abstract: | A quantified smoke delivery system (QSDS) was used to experimentally control the administration of inhaled cigarette smoke to 28 male smokers. One puff (2 s, 35 cc) was taken every 30 s on a cigarette (nicotine yield 1.0 mg) until the char line reached 3 mm from the filter wrap. The smoke was inhaled for 5 s. Resting eyes-closed and eyes-open EEG was recorded from F3, F4, P3, and P4 before and after quantified smoke delivery (QSD). EEG dimensional complexity (DCx, a measure derived from chaos theory) was computed using the Takens-Ellner method. QSD appeared to have a  flexible effect on EEGDCx, primarily lowering it in subjects whose pre-smoking level was high, not affecting it in subjects whose pre-smoking level was intermediate, and tending to raise it in subjects whose pre-smoking level was low. This replicates previous results obtained with ad libitum smoking, suggesting the hypothesis that smoking may have an  optimizing effect on the complexity of brain dynamics. |
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| Keywords: | Cigarette Quantified smoke delivery system EEG Nonlinear dynamics Chaos |
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