Saturday, May 9, 2009
Sunday, April 5, 2009
BiomedExperts: A statistical model of the human core-temperature circadian rhythm.
BiomedExperts: A statistical model of the human core-temperature circadian rhythm.: "We formulate a statistical model of the human core-temperature circadian rhythm in which the circadian signal is modeled as a van der Pol oscillator, the thermoregulatory response is represented as a first-order autoregressive process, and the evoked effect of activity is modeled with a function specific for each circadian protocol. The new model directly links differential equation-based simulation models and harmonic regression analysis methods and permits statistical analysis of both static and dynamical properties of the circadian pacemaker from experimental data. We estimate the model parameters by using numerically efficient maximum likelihood algorithms and analyze human core-temperature data from forced desynchrony, free-run, and constant-routine protocols. By representing explicitly the dynamical effects of ambient light input to the human circadian pacemaker, the new model can estimate with high precision the correct intrinsic period of this oscillator ( approximately 24 h) from both free-run and forced desynchrony studies. Although the van der Pol model approximates well the dynamical features of the circadian pacemaker, the optimal dynamical model of the human biological clock may have a harmonic structure different from that of the van der Pol oscillator."
SAGE Journals Online -- Search Results
SAGE Journals Online -- Search Results
Results 1-10 of 427 found for articles related to Journal of Biological Rhythms
Results 1-10 of 427 found for articles related to Journal of Biological Rhythms
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