Non-linear dynamics of cardiac alternans: subcellular to tissue-level mechanisms of arrhythmia.
Publication
, Journal Article
Gaeta, SA; Christini, DJ
Published in: Front Physiol
2012
Cardiac repolarization alternans is a rhythm disturbance of the heart in which rapid stimulation elicits a beat-to-beat alternation in the duration of action potentials and magnitude of intracellular calcium transients in individual cardiac myocytes. Although this phenomenon has been identified as a potential precursor to dangerous reentrant arrhythmias and sudden cardiac death, significant uncertainty remains regarding its mechanism and no clinically practical means of halting its occurrence or progression currently exists. Cardiac alternans has well-characterized tissue, cellular, and subcellular manifestations, the mechanisms and interplay of which are an active area of research.
Duke Scholars
Published In
Front Physiol
DOI
EISSN
1664-042X
Publication Date
2012
Volume
3
Start / End Page
157
Location
Switzerland
Related Subject Headings
- 3208 Medical physiology
- 3101 Biochemistry and cell biology
- 1701 Psychology
- 1116 Medical Physiology
- 0606 Physiology
Citation
APA
Chicago
ICMJE
MLA
NLM
Gaeta, S. A., & Christini, D. J. (2012). Non-linear dynamics of cardiac alternans: subcellular to tissue-level mechanisms of arrhythmia. Front Physiol, 3, 157. https://doi.org/10.3389/fphys.2012.00157
Gaeta, Stephen A., and David J. Christini. “Non-linear dynamics of cardiac alternans: subcellular to tissue-level mechanisms of arrhythmia.” Front Physiol 3 (2012): 157. https://doi.org/10.3389/fphys.2012.00157.
Gaeta SA, Christini DJ. Non-linear dynamics of cardiac alternans: subcellular to tissue-level mechanisms of arrhythmia. Front Physiol. 2012;3:157.
Gaeta, Stephen A., and David J. Christini. “Non-linear dynamics of cardiac alternans: subcellular to tissue-level mechanisms of arrhythmia.” Front Physiol, vol. 3, 2012, p. 157. Pubmed, doi:10.3389/fphys.2012.00157.
Gaeta SA, Christini DJ. Non-linear dynamics of cardiac alternans: subcellular to tissue-level mechanisms of arrhythmia. Front Physiol. 2012;3:157.
Published In
Front Physiol
DOI
EISSN
1664-042X
Publication Date
2012
Volume
3
Start / End Page
157
Location
Switzerland
Related Subject Headings
- 3208 Medical physiology
- 3101 Biochemistry and cell biology
- 1701 Psychology
- 1116 Medical Physiology
- 0606 Physiology