Cardiac Physiology: Publications
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[1]
Control of NFAT Isoform Activation and NFAT−Dependent Gene Expression through Two Coincident and Spatially Segregated Intracellular Ca2+ Signals
P Kar‚ GR Mirams‚ HC Christian and AB Parekh
In Molecular Cell. Vol. 64. No. 4. Pages 746−759. 2016.
Details about Control of NFAT Isoform Activation and NFAT−Dependent Gene Expression through Two Coincident and Spatially Segregated Intracellular Ca2+ Signals | BibTeX data for Control of NFAT Isoform Activation and NFAT−Dependent Gene Expression through Two Coincident and Spatially Segregated Intracellular Ca2+ Signals | DOI (10.1016/j.molcel.2016.11.011) | Link to Control of NFAT Isoform Activation and NFAT−Dependent Gene Expression through Two Coincident and Spatially Segregated Intracellular Ca2+ Signals
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[2]
Hierarchical Bayesian inference for ion channel screening dose−response data
RH Johnstone‚ R Bardenet‚ DJ Gavaghan and GR Mirams
In Wellcome Open Research. Vol. 1. Pages 6. 2016.
Details about Hierarchical Bayesian inference for ion channel screening dose−response data | BibTeX data for Hierarchical Bayesian inference for ion channel screening dose−response data | DOI (10.12688/wellcomeopenres.9945.1) | Link to Hierarchical Bayesian inference for ion channel screening dose−response data
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[3]
White Paper: Uncertainty and variability in computational and mathematical models of cardiac physiology
GR Mirams‚ P Pathmanathan‚ RA Gray‚ P Challenor and RH Clayton
In Journal of Physiology. 2016.
Details about White Paper: Uncertainty and variability in computational and mathematical models of cardiac physiology | BibTeX data for White Paper: Uncertainty and variability in computational and mathematical models of cardiac physiology | DOI (10.1113/JP271671)
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[4]
Connexin 43 contributes to electrotonic conduction across scar tissue in the intact heart
VM Mahoney‚ V Mezzano‚ GR Mirams‚ K Maass‚ Z Li‚ M Cerrone‚ C Vasquez‚ A Bapat‚ M Delmar and GE Morley
In Scientific Reports. Vol. 6. Pages 26744. 2016.
Details about Connexin 43 contributes to electrotonic conduction across scar tissue in the intact heart | BibTeX data for Connexin 43 contributes to electrotonic conduction across scar tissue in the intact heart | DOI (10.1038/srep26744)
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[5]
White Paper: Computational Cardiology and Risk Stratification for Sudden Cardiac Death: One of the Grand Challenges for Cardiology in the 21st Century.
AP Hill‚ MD Perry‚ N Abi−Gerges‚ J−P Couderc‚ B Fermini‚ JC Hancox‚ BC Knollmann‚ GR Mirams‚ J Skinner‚ W Zareba and JI Vandenberg
In Journal of Physiology. 2016.
Details about White Paper: Computational Cardiology and Risk Stratification for Sudden Cardiac Death: One of the Grand Challenges for Cardiology in the 21st Century. | BibTeX data for White Paper: Computational Cardiology and Risk Stratification for Sudden Cardiac Death: One of the Grand Challenges for Cardiology in the 21st Century. | DOI (10.1113/JP272015)
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[6]
Recent developments in using mechanistic cardiac modelling for drug safety evaluation
MR Davies‚ K Wang‚ GR Mirams‚ A Caruso‚ D Noble‚ A Walz‚ T Lavé‚ F Schuler‚ T Singer and L Polonchuk
In Drug Discovery Today. Vol. 21. No. 6. Pages 924–938. 2016.
Details about Recent developments in using mechanistic cardiac modelling for drug safety evaluation | BibTeX data for Recent developments in using mechanistic cardiac modelling for drug safety evaluation | DOI (10.1016/j.drudis.2016.02.003)
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[7]
The Cardiac Electrophysiology Web Lab
Jonathan Cooper‚ Martin Scharm and Gary Mirams
In Biophysical Journal. Vol. 110. No. 2. Pages 292−300. 2016.
Details about The Cardiac Electrophysiology Web Lab | BibTeX data for The Cardiac Electrophysiology Web Lab | DOI (10.1016/j.bpj.2015.12.012)
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[8]
Uncertainty and variability in models of the cardiac action potential: can we build trustworthy models?
RH Johnstone‚ ET Chang‚ R Bardenet‚ TP de Boer‚ DJ Gavaghan‚ P Pathmanathan‚ RH Clayton and GR Mirams
In Journal of Molecular and Cellular Cardiology. Vol. 96. Pages 49−62. 2016.
Details about Uncertainty and variability in models of the cardiac action potential: can we build trustworthy models? | BibTeX data for Uncertainty and variability in models of the cardiac action potential: can we build trustworthy models? | DOI (10.1016/j.yjmcc.2015.11.018)
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[9]
Cellular cardiac electrophysiology modelling with Chaste and CellML
Jonathan Cooper‚ Raymond Spiteri and Gary Mirams
In Frontiers in Physiology. Vol. 5. Pages 511. January, 2015.
Details about Cellular cardiac electrophysiology modelling with Chaste and CellML | BibTeX data for Cellular cardiac electrophysiology modelling with Chaste and CellML | DOI (10.3389/fphys.2014.00511) | Link to Cellular cardiac electrophysiology modelling with Chaste and CellML
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[10]
Ca2+ Channel Re−localization to Plasma−Membrane Microdomains Strengthens Activation of Ca2+−Dependent Nuclear Gene Expression
Krishna Samanta‚ Pulak Kar‚ Gary R. Mirams and Anant B. Parekh
In Cell Reports. Vol. 12. No. 2. Pages 203−216. 2015.
Details about Ca2+ Channel Re−localization to Plasma−Membrane Microdomains Strengthens Activation of Ca2+−Dependent Nuclear Gene Expression | BibTeX data for Ca2+ Channel Re−localization to Plasma−Membrane Microdomains Strengthens Activation of Ca2+−Dependent Nuclear Gene Expression | DOI (10.1016/j.celrep.2015.06.018) | Link to Ca2+ Channel Re−localization to Plasma−Membrane Microdomains Strengthens Activation of Ca2+−Dependent Nuclear Gene Expression
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[11]
Cardiac Tissue Slices: Preparation‚ Handling‚ and Successful Optical Mapping
K Wang‚ P Lee‚ GR Mirams‚ P Sarathchandra‚ T Borg‚ DJ Gavaghan‚ P Kohl and C Bollensdorff
In American Journal of Physiology: Heart and Circulatory Physiology. Vol. 308. Pages H1112−H1125. 2015.
Details about Cardiac Tissue Slices: Preparation‚ Handling‚ and Successful Optical Mapping | BibTeX data for Cardiac Tissue Slices: Preparation‚ Handling‚ and Successful Optical Mapping | DOI (10.1152/ajpheart.00556.2014) | Link to Cardiac Tissue Slices: Preparation‚ Handling‚ and Successful Optical Mapping
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[12]
A web portal for in−silico action potential predictions
Geoff Williams and Gary Mirams
In Journal of Pharmacological and Toxicological Methods. Vol. 75. Pages 10−16. 2015.
Details about A web portal for in−silico action potential predictions | BibTeX data for A web portal for in−silico action potential predictions | DOI (10.1016/j.vascn.2015.05.002) | Link to A web portal for in−silico action potential predictions
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[13]
Prediction of Thorough QT study results using action potential simulations based on ion channel screens
GR Mirams‚ MR Davies‚ SJ Brough‚ MH Bridgland−Taylor‚ Y Cui‚ DJ Gavaghan and N Abi−Gerges
In Journal of Pharmacological & Toxicological Methods. Vol. 70. No. 3. Pages 246−254. 2014.
Details about Prediction of Thorough QT study results using action potential simulations based on ion channel screens | BibTeX data for Prediction of Thorough QT study results using action potential simulations based on ion channel screens | DOI (10.1016/j.vascn.2014.07.002)
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[14]
Evaluation of an In Silico Cardiac Safety Assay: Using Ion Channel Screening Data to Predict QT Interval Changes in the Rabbit Ventricular Wedge
Kylie A. Beattie‚ Chris Luscombe‚ Geoff Williams‚ Jordi Munoz−Muriedas‚ David J. Gavaghan‚ Yi Cui and Gary R. Mirams
In Journal of Pharmacological and Toxicological Methods. Vol. 68. No. 1. Pages 88−96. 2013.
Details about Evaluation of an In Silico Cardiac Safety Assay: Using Ion Channel Screening Data to Predict QT Interval Changes in the Rabbit Ventricular Wedge | BibTeX data for Evaluation of an In Silico Cardiac Safety Assay: Using Ion Channel Screening Data to Predict QT Interval Changes in the Rabbit Ventricular Wedge | DOI (10.1016/j.vascn.2013.04.004) | Link to Evaluation of an In Silico Cardiac Safety Assay: Using Ion Channel Screening Data to Predict QT Interval Changes in the Rabbit Ventricular Wedge
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[15]
Variability in high−throughput ion channel screening data and consequences for cardiac safety assessment
Ryan C. Elkins‚ Mark R. Davies‚ Stephen J. Brough‚ David J. Gavaghan‚ Yi Cui‚ Najah Abi−Gerges and Gary R. Mirams
In Journal of Pharmacological and Toxicological Methods. Vol. 68. No. 1. Pages 112−122. 2013.
Details about Variability in high−throughput ion channel screening data and consequences for cardiac safety assessment | BibTeX data for Variability in high−throughput ion channel screening data and consequences for cardiac safety assessment | DOI (10.1016/j.vascn.2013.04.007)
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[16]
Chaste: an open source C++ library for computational physiology and biology
G.R. Mirams‚ C.J. Arthurs‚ M.O. Bernabeu‚ R. Bordas‚ J. Cooper‚ A. Corrias‚ Y. Davit‚ S−J. Dunn‚ A.G. Fletcher‚ D.G. Harvey‚ M.E. Marsh‚ J. M. Osborne‚ P. Pathmanathan‚ J. Pitt−Francis‚ J. Southern‚ N. Zemzemi and D.J. Gavaghan
In PLoS Computational Biology. Vol. 9. No. 3. Pages e1002970. 2013.
Details about Chaste: an open source C++ library for computational physiology and biology | BibTeX data for Chaste: an open source C++ library for computational physiology and biology | DOI (10.1371/journal.pcbi.1002970) | Link to Chaste: an open source C++ library for computational physiology and biology
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[17]
Computational assessment of drug−induced effects on the electrocardiogram: from ion channel block to body surface potentials
N Zemzemi‚ MO Bernabeu‚ J Saiz‚ J Cooper‚ P Pathmanathan‚ GR Mirams‚ J Pitt−Francis and B Rodriguez
In British Journal of Pharmacology. Vol. 168. No. 3. Pages 718−733. 2013.
Details about Computational assessment of drug−induced effects on the electrocardiogram: from ion channel block to body surface potentials | BibTeX data for Computational assessment of drug−induced effects on the electrocardiogram: from ion channel block to body surface potentials | DOI (10.1111/j.1476-5381.2012.02200.x)