AI Article Synopsis
- The voltage-gated Na channel Na1.5 plays a vital role in heart cell excitability, and mathematical models help study its function and link to heart rhythm disorders.
- Researchers used Bayesian statistics to account for the variability in human Na1.5 measurements across different labs, leading to a refined model that considers physiological differences.
- The new model was validated against experimental data and aims to expand to other cardiac ion channels, which could enhance understanding of heart function variability and its implications for drug responses and inherited arrhythmias.
Article Abstract
The voltage-gated Na channel Na1.5 is critical for normal cardiac myocyte excitability. Mathematical models have been widely used to study Na1.5 function and link to a range of cardiac arrhythmias. There is growing appreciation for the importance of incorporating physiological heterogeneity observed even in a healthy population into mathematical models of the cardiac action potential. Here, we apply methods from Bayesian statistics to capture the variability in experimental measurements on human atrial Na1.5 across experimental protocols and labs. This variability was used to define a physiological distribution for model parameters in a novel model formulation of Na1.5, which was then incorporated into an existing human atrial action potential model. Model validation was performed by comparing the simulated distribution of action potential upstroke velocity measurements to experimental measurements from several different sources. Going forward, we hope to apply this approach to other major atrial ion channels to create a comprehensive model of the human atrial AP. We anticipate that such a model will be useful for understanding excitability at the population level, including variable drug response and penetrance of variants linked to inherited cardiac arrhythmia syndromes.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8234464 | PMC |
| http://dx.doi.org/10.3390/cells10061516 | DOI Listing |
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