John Walmsley : Publications
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[1]
Application of stochastic phenomenological modelling to cell−to−cell and beat−to−beat electrophysiological variability in cardiac tissue
John Walmsley‚ Gary R Mirams‚ Joe Pitt−Francis‚ Blanca Rodriguez and Kevin Burrage
In Journal of theoretical biology. Vol. 365. Pages 325–336. 2015.
Details about Application of stochastic phenomenological modelling to cell−to−cell and beat−to−beat electrophysiological variability in cardiac tissue | BibTeX data for Application of stochastic phenomenological modelling to cell−to−cell and beat−to−beat electrophysiological variability in cardiac tissue | DOI (10.1016/j.jtbi.2014.10.029)
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[2]
Estimation of conductivity tensors from human ventricular optical mapping recordings
J. Walmsley‚ G.R. Mirams‚ I.R. Efimov‚ K. Burrage and B. Rodriguez
In Functional Imaging and Modeling of the Heart. Vol. 7495. Pages 224–231. 2013.
Details about Estimation of conductivity tensors from human ventricular optical mapping recordings | BibTeX data for Estimation of conductivity tensors from human ventricular optical mapping recordings
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[3]
Messenger RNA expression levels predict cellular electrophysiologic remodeling in failing human hearts using a population−based simulation study
J. Walmsley‚ J.F. Rodriguez‚ G.R. Mirams‚ K. Burrage‚ I.R. Efimov and B. Rodriguez
In Heart Rhythm. Vol. 11. No. 3. Pages 1913. 2012.
Details about Messenger RNA expression levels predict cellular electrophysiologic remodeling in failing human hearts using a population−based simulation study | BibTeX data for Messenger RNA expression levels predict cellular electrophysiologic remodeling in failing human hearts using a population−based simulation study | Download of Messenger RNA expression levels predict cellular electrophysiologic remodeling in failing human hearts using a population−based simulation study | DOI (10.1016/j.hrthm.2012.09.101)
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[4]
Parameter estimation for a phenomenological model of the cardiac action potential
F. Liu‚ J. Walmsley and K. Burrage
In W. McLean and A. J. Roberts, editors, Proceedings of the 15th Biennial Computational Techniques and Applications Conference‚ CTAC−2010. Vol. 52 of ANZIAM J.. Pages C482–C499. July, 2011.
http://anziamj.austms.org.au/ojs/index.php/ANZIAMJ/article/view/3812[July 28‚ 2011]
Details about Parameter estimation for a phenomenological model of the cardiac action potential | BibTeX data for Parameter estimation for a phenomenological model of the cardiac action potential
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[5]
Phenomenological modeling of cell−to−cell and beat−to−beat variability in isolated Guinea Pig ventricular myocytes
J. Walmsley‚ G.R. Mirams‚ M. Bahoshy‚ C. Bollensdorff‚ B. Rodriguez and K. Burrage
In Engineering in Medicine and Biology Society (EMBC)‚ 2010 Annual International Conference of the IEEE. Pages 1457–1460. IEEE. 2010.
Details about Phenomenological modeling of cell−to−cell and beat−to−beat variability in isolated Guinea Pig ventricular myocytes | BibTeX data for Phenomenological modeling of cell−to−cell and beat−to−beat variability in isolated Guinea Pig ventricular myocytes | DOI (10.1109/IEMBS.2010.5626858)
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[6]
Stochasticity in Action Potential duration Enhances Dispersion of Repolarisation at Fast Pacing Rates
John Walmsley‚ Kevin Burrage‚ Joe M. Pitt−Francis‚ Gary R. Mirams and Blanca Rodriguez
Vol. 102. No. 3. Pages 592a−593a. 2012.
Details about Stochasticity in Action Potential duration Enhances Dispersion of Repolarisation at Fast Pacing Rates | BibTeX data for Stochasticity in Action Potential duration Enhances Dispersion of Repolarisation at Fast Pacing Rates | DOI (10.1016/j.bpj.2011.11.3230)
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[7]
Stochasticity in action potential duration enhances dispersion of repolarisation at fast pacing rates
J. Walmsley‚ K. Burrage‚ J.M. Pitt−Francis‚ G.R. Mirams and B. Rodriguez
In Biophysical Journal. Vol. 102. No. 3. Pages 592a−593a. 2012.
Details about Stochasticity in action potential duration enhances dispersion of repolarisation at fast pacing rates | BibTeX data for Stochasticity in action potential duration enhances dispersion of repolarisation at fast pacing rates | DOI (10.1016/j.bpj.2011.11.3230)
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[8]
mRNA expression levels in failing human hearts predict cellular electrophysiological remodelling: A population−based simulation study
J. Walmsley‚ J.F. Rodriguez‚ G.R. Mirams‚ K. Burrage‚ I.R. Efimov and B. Rodriguez
In PLoS ONE. Vol. 8. No. 2. Pages e56359. 2013.
Details about mRNA expression levels in failing human hearts predict cellular electrophysiological remodelling: A population−based simulation study | BibTeX data for mRNA expression levels in failing human hearts predict cellular electrophysiological remodelling: A population−based simulation study | DOI (10.1371/journal.pone.0056359)