Frontiers in Physiology 6, p. 390.
ISSN/ISBN: Not available at this time. DOI: 10.3389/fphys.2015.00390
Abstract: Disruptions in the normal rhythmic functioning of the heart, termed as arrhythmia, often result from qualitative changes in the excitation dynamics of the organ. The transitions between different types of arrhythmia are accompanied by alterations in the spatiotemporal pattern of electrical activity that can be measured by observing the time-intervals between successive excitations of different regions of the cardiac tissue. Using biophysically detailed models of cardiac activity we show that the distribution of these time-intervals exhibit a systematic change in their skewness during such dynamical transitions. Further, the leading digits of the normalized intervals appear to fit Benford's law better at these transition points. This raises the possibility of using these observations to design a clinical indicator for identifying changes in the nature of arrhythmia. More importantly, our results reveal an intriguing relation between the changing skewness of a distribution and its agreement with Benford's law, both of which have been independently proposed earlier as indicators of regime shift in dynamical systems.
Bibtex:
@ARTICLE{,
AUTHOR={Seenivasan, Pavithraa and Easwaran, Soumya and Sridhar, Seshan and Sinha, Sitabhra},
TITLE={Using Skewness and the First-Digit Phenomenon to Identify Dynamical Transitions in Cardiac Models},
JOURNAL={Frontiers in Physiology},
VOLUME={6},
PAGES={390},
YEAR={2016},
URL={https://www.frontiersin.org/article/10.3389/fphys.2015.00390},
DOI={10.3389/fphys.2015.00390},
}
Reference Type: Journal Article
Subject Area(s): Medical Sciences