Alfonso Bueno-Orovio : Publications
Books
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[1]
SMOD − Data Augmentation Based on Statistical Models of Deformation to Enhance Segmentation in 2D Cine Cardiac MRI
Corral Acero J‚ Zacur E‚ Xu H‚ Ariga R‚ Bueno−Orovio A‚ Lamata P and Grau V
2019.
Details about SMOD − Data Augmentation Based on Statistical Models of Deformation to Enhance Segmentation in 2D Cine Cardiac MRI | BibTeX data for SMOD − Data Augmentation Based on Statistical Models of Deformation to Enhance Segmentation in 2D Cine Cardiac MRI | DOI (10.1007/978-3-030-21949-9\_39) | Link to SMOD − Data Augmentation Based on Statistical Models of Deformation to Enhance Segmentation in 2D Cine Cardiac MRI
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[2]
Cardiac Modeling
Bueno−Orovio A‚ Britton O‚ Muszkiewicz A and Rodriguez B
2016.
Details about Cardiac Modeling | BibTeX data for Cardiac Modeling | DOI (10.1016/b978-0-12-394447-4.40014-3) | Link to Cardiac Modeling
Journal papers
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[1]
General principles for the validation of proarrhythmia risk prediction models: An extension of the CiPA in silico strategy
Zhihua Li‚ Gary R Mirams‚ Takashi Yoshinaga‚ Bradley J Ridder‚ Xiaomei Han‚ Janell E Chen‚ Norman L Stockbridge‚ Todd A Wisialowski‚ Bruce Damiano‚ Stefano Severi‚ Pierre Morissette‚ Peter R Kowey‚ Mark Holbrook‚ Godfrey Smith‚ Randall L Rasmusson‚ Michael Liu‚ Zhen Song‚ Zhilin Qu‚ Derek J Leishman‚ Jill Steidl‐Nichols‚ Blanca Rodriguez‚ Alfonso Bueno‐Orovio‚ Xin Zhou‚ Elisa Passini‚ Andrew G Edwards‚ Stefano Morotti‚ Haibo Ni‚ Eleonora Grandi‚ Colleen E Clancy‚ Jamie Vandenberg‚ Adam Hill‚ Mikiko Nakamura‚ Thomas Singer‚ Liudmila Polonchuk‚ Andrea Greiter‐Wilke‚ Ken Wang‚ Stephane Nave‚ Aaron Fullerton‚ Eric A Sobie‚ Michelangelo Paci‚ Flora Musuamba Tshinanu and David G Strauss
In Clinical Pharmacology & Therapeutics. 2019.
Details about General principles for the validation of proarrhythmia risk prediction models: An extension of the CiPA in silico strategy | BibTeX data for General principles for the validation of proarrhythmia risk prediction models: An extension of the CiPA in silico strategy | DOI (10.1002/cpt.1647)
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[2]
High arrhythmic risk in antero−septal acute myocardial ischemia is explained by increased transmural reentry occurrence
H Martinez−Navarro‚ A Mincholé‚ A Bueno−Orovio and B Rodriguez
In Scientific Reports. 2019.
Details about High arrhythmic risk in antero−septal acute myocardial ischemia is explained by increased transmural reentry occurrence | BibTeX data for High arrhythmic risk in antero−septal acute myocardial ischemia is explained by increased transmural reentry occurrence | DOI (10.1038/s41598-019-53221-2)
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[3]
Electrophysiological and contractile effects of disopyramide in patients with obstructive hypertrophic cardiomyopathy: a translational study
Raffaele Coppini‚ Cecilia Ferrantini‚ Josè Manuel Pioner‚ Lorenzo Santini‚ Zhinuo J Wang‚ Chiara Palandri‚ Marina Scardigli‚ Giulia Vitale‚ Leonardo Sacconi‚ Pierluigi Stefàno‚ Laura Flink‚ Katherine Riedy‚ Francesco Saverio Pavone‚ Elisabetta Cerbai‚ Corrado Poggesi‚ Alessandro Mugelli‚ Alfonso Bueno−Orovio‚ Iacopo Olivotto and Mark V Sherrid
In JACC: Basic to Translational Science. 2019.
Details about Electrophysiological and contractile effects of disopyramide in patients with obstructive hypertrophic cardiomyopathy: a translational study | BibTeX data for Electrophysiological and contractile effects of disopyramide in patients with obstructive hypertrophic cardiomyopathy: a translational study | DOI (10.1016/j.jacbts.2019.06.004)
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[4]
Improving the clinical understanding of hypertrophic cardiomyopathy by combining patient data‚ machine learning and computer simulations: a case study
A Lyon‚ A Mincholé‚ A Bueno−Orovio and B Rodriguez
In Morphologie. 2019.
Details about Improving the clinical understanding of hypertrophic cardiomyopathy by combining patient data‚ machine learning and computer simulations: a case study | BibTeX data for Improving the clinical understanding of hypertrophic cardiomyopathy by combining patient data‚ machine learning and computer simulations: a case study | DOI (10.1016/j.morpho.2019.09.001)
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[5]
Drug‐induced shortening of the electromechanical window is an effective biomarker for in silico prediction of clinical risk of arrhythmias
Elisa Passini‚ Cristian Trovato‚ Pierre Morissette‚ Frederick Sannajust‚ Alfonso Bueno‐Orovio and Blanca Rodriguez
In British journal of pharmacology. 2019.
Details about Drug‐induced shortening of the electromechanical window is an effective biomarker for in silico prediction of clinical risk of arrhythmias | BibTeX data for Drug‐induced shortening of the electromechanical window is an effective biomarker for in silico prediction of clinical risk of arrhythmias | DOI (10.1111/bph.14786)
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[6]
Investigating the Complex Arrhythmic Phenotype Caused by the Gain−of−Function Mutation KCNQ1−G229D
Zhou X‚ Bueno−Orovio A‚ Schilling RJ‚ Kirkby C‚ Denning C‚ Rajamohan D‚ Burrage K‚ Tinker A‚ Rodriguez B and Harmer SC
In Frontiers in Physiology. 2019.
Details about Investigating the Complex Arrhythmic Phenotype Caused by the Gain−of−Function Mutation KCNQ1−G229D | BibTeX data for Investigating the Complex Arrhythmic Phenotype Caused by the Gain−of−Function Mutation KCNQ1−G229D | DOI (10.3389/fphys.2019.00259) | Link to Investigating the Complex Arrhythmic Phenotype Caused by the Gain−of−Function Mutation KCNQ1−G229D
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[7]
Perlin Noise Generation of Physiologically Realistic Patterns of Fibrosis
David Jakes‚ Kevin Burrage‚ Christopher C. Drovandi‚ Pamela Burrage‚ Alfonso Bueno−Orovio‚ Rodrigo W. dos Santos‚ Blanca Rodriguez and Brodie A J Lawson
2019.
Details about Perlin Noise Generation of Physiologically Realistic Patterns of Fibrosis | BibTeX data for Perlin Noise Generation of Physiologically Realistic Patterns of Fibrosis | DOI (10.1101/668848) | Link to Perlin Noise Generation of Physiologically Realistic Patterns of Fibrosis
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[8]
In silico evaluation of arrhythmia
Xin Zhou‚ Alfonso Bueno−Orovio and Blanca Rodriguez
In Current Opinion in Physiology. 2018.
Details about In silico evaluation of arrhythmia | BibTeX data for In silico evaluation of arrhythmia | DOI (10.1016/j.cophys.2017.11.003) | Link to In silico evaluation of arrhythmia
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[9]
From ionic to cellular variability in human atrial myocytes: an integrative computational and experimental study
Muszkiewicz A‚ Liu X‚ Bueno−Orovio A‚ Lawson BAJ‚ Burrage K‚ Casadei B and Rodriguez B
In American Journal of Physiology−Heart and Circulatory Physiology. 2018.
Details about From ionic to cellular variability in human atrial myocytes: an integrative computational and experimental study | BibTeX data for From ionic to cellular variability in human atrial myocytes: an integrative computational and experimental study | DOI (10.1152/ajpheart.00477.2017) | Link to From ionic to cellular variability in human atrial myocytes: an integrative computational and experimental study
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[10]
Strategies of data layout and cache writing for input−output optimization in high performance scientific computing: Applications to the forward electrocardiographic problem
Louie Cardone−Noott‚ Blanca Rodriguez and Alfonso Bueno−Orovio
In PLOS ONE. 2018.
Details about Strategies of data layout and cache writing for input−output optimization in high performance scientific computing: Applications to the forward electrocardiographic problem | BibTeX data for Strategies of data layout and cache writing for input−output optimization in high performance scientific computing: Applications to the forward electrocardiographic problem | DOI (10.1371/journal.pone.0202410) | Link to Strategies of data layout and cache writing for input−output optimization in high performance scientific computing: Applications to the forward electrocardiographic problem
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[11]
Slow Recovery of Excitability Increases Ventricular Fibrillation Risk as Identified by Emulation
Lawson BA‚ Burrage K‚ Burrage P‚ Drovandi CC and Bueno−Orovio A
In Frontiers in Physiology. 2018.
Details about Slow Recovery of Excitability Increases Ventricular Fibrillation Risk as Identified by Emulation | BibTeX data for Slow Recovery of Excitability Increases Ventricular Fibrillation Risk as Identified by Emulation | DOI (10.3389/fphys.2018.01114) | Link to Slow Recovery of Excitability Increases Ventricular Fibrillation Risk as Identified by Emulation
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[12]
Commentary: Atrial Rotor Dynamics Under Complex Fractional Order Diffusion
Alfonso Bueno−Orovio
In Frontiers in Physiology. 2018.
Details about Commentary: Atrial Rotor Dynamics Under Complex Fractional Order Diffusion | BibTeX data for Commentary: Atrial Rotor Dynamics Under Complex Fractional Order Diffusion | DOI (10.3389/fphys.2018.01386) | Link to Commentary: Atrial Rotor Dynamics Under Complex Fractional Order Diffusion
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[13]
Electrocardiogram phenotypes in hypertrophic cardiomyopathy caused by distinct mechanisms: apico−basal repolarization gradients vs. Purkinje−myocardial coupling abnormalities
Lyon A‚ Bueno−Orovio A‚ Zacur E‚ Ariga R‚ Grau V‚ Neubauer S‚ Watkins H‚ Rodriguez B and Minchole A.
In EP Europace. 2018.
Details about Electrocardiogram phenotypes in hypertrophic cardiomyopathy caused by distinct mechanisms: apico−basal repolarization gradients vs. Purkinje−myocardial coupling abnormalities | BibTeX data for Electrocardiogram phenotypes in hypertrophic cardiomyopathy caused by distinct mechanisms: apico−basal repolarization gradients vs. Purkinje−myocardial coupling abnormalities | DOI (10.1093/europace/euy226) | Link to Electrocardiogram phenotypes in hypertrophic cardiomyopathy caused by distinct mechanisms: apico−basal repolarization gradients vs. Purkinje−myocardial coupling abnormalities
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[14]
The Electrogenic Na+/K+ Pump Is a Key Determinant of Repolarization Abnormality Susceptibility in Human Ventricular Cardiomyocytes: A Population−Based Simulation Study
Britton OJ‚ Bueno−Orovio A‚ Virág L‚ Varró A and Rodriguez B
In Frontiers in Physiology. 2017.
Details about The Electrogenic Na+/K+ Pump Is a Key Determinant of Repolarization Abnormality Susceptibility in Human Ventricular Cardiomyocytes: A Population−Based Simulation Study | BibTeX data for The Electrogenic Na+/K+ Pump Is a Key Determinant of Repolarization Abnormality Susceptibility in Human Ventricular Cardiomyocytes: A Population−Based Simulation Study | DOI (10.3389/fphys.2017.00278) | Link to The Electrogenic Na+/K+ Pump Is a Key Determinant of Repolarization Abnormality Susceptibility in Human Ventricular Cardiomyocytes: A Population−Based Simulation Study
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[15]
Atrial Fibrillation Dynamics and Ionic Block Effects in Six Heterogeneous Human 3D Virtual Atria with Distinct Repolarization Dynamics
Carlos Sánchez‚ Alfonso Bueno−Orovio‚ Esther Pueyo and Blanca Rodriguez
In Frontiers in Bioengineering and Biotechnology. 2017.
Details about Atrial Fibrillation Dynamics and Ionic Block Effects in Six Heterogeneous Human 3D Virtual Atria with Distinct Repolarization Dynamics | BibTeX data for Atrial Fibrillation Dynamics and Ionic Block Effects in Six Heterogeneous Human 3D Virtual Atria with Distinct Repolarization Dynamics | DOI (10.3389/fbioe.2017.00029) | Link to Atrial Fibrillation Dynamics and Ionic Block Effects in Six Heterogeneous Human 3D Virtual Atria with Distinct Repolarization Dynamics
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[16]
Human In Silico Drug Trials Demonstrate Higher Accuracy than Animal Models in Predicting Clinical Pro−Arrhythmic Cardiotoxicity
Passini E‚ Britton OJ‚ Lu HR‚ Rohrbacher J‚ Hermans AH‚ Gallacher DJ‚ Greig RJH‚ Bueno−Orovio A and Rodriguez B
In Frontiers in Physiology. 2017.
Details about Human In Silico Drug Trials Demonstrate Higher Accuracy than Animal Models in Predicting Clinical Pro−Arrhythmic Cardiotoxicity | BibTeX data for Human In Silico Drug Trials Demonstrate Higher Accuracy than Animal Models in Predicting Clinical Pro−Arrhythmic Cardiotoxicity | DOI (10.3389/fphys.2017.00668) | Link to Human In Silico Drug Trials Demonstrate Higher Accuracy than Animal Models in Predicting Clinical Pro−Arrhythmic Cardiotoxicity
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[17]
Exact solutions to the fractional time−space Bloch−Torrey equation for magnetic resonance imaging
Alfonso Bueno−Orovio and Kevin Burrage
In Communications in Nonlinear Science and Numerical Simulation. 2017.
Details about Exact solutions to the fractional time−space Bloch−Torrey equation for magnetic resonance imaging | BibTeX data for Exact solutions to the fractional time−space Bloch−Torrey equation for magnetic resonance imaging | DOI (10.1016/j.cnsns.2017.04.013) | Link to Exact solutions to the fractional time−space Bloch−Torrey equation for magnetic resonance imaging
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[18]
Anomalous diffusion in cardiac tissue as an index of myocardial microstructure
Alfonso Bueno−Orovio‚ Alfonso Bueno−Orovio‚ Irvin Teh‚ Jurgen E. Schneider‚ Kevin Burrage and Vicente Grau
In IEEE Transactions on Medical Imaging. 2016.
Details about Anomalous diffusion in cardiac tissue as an index of myocardial microstructure | BibTeX data for Anomalous diffusion in cardiac tissue as an index of myocardial microstructure | DOI (10.1109/TMI.2016.2548503) | Link to Anomalous diffusion in cardiac tissue as an index of myocardial microstructure
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[19]
Variability in cardiac electrophysiology: Using experimentally−calibrated populations of models to move beyond the single virtual physiological human paradigm
Anna Muszkiewicz‚ Oliver J. Britton‚ Philip Gemmell‚ Elisa Passini‚ Carlos Sánchez‚ Xin Zhou‚ Annamaria Carusi‚ T. Alexander Quinn‚ Kevin Burrage‚ Alfonso Bueno−Orovio and Blanca Rodriguez
In Progress in Biophysics and Molecular Biology. Vol. 120. No. 1−3. Pages 115–127. January, 2016.
Details about Variability in cardiac electrophysiology: Using experimentally−calibrated populations of models to move beyond the single virtual physiological human paradigm | BibTeX data for Variability in cardiac electrophysiology: Using experimentally−calibrated populations of models to move beyond the single virtual physiological human paradigm | DOI (10.1016/j.pbiomolbio.2015.12.002) | Link to Variability in cardiac electrophysiology: Using experimentally−calibrated populations of models to move beyond the single virtual physiological human paradigm
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[20]
In Vivo and In Silico Investigation Into Mechanisms of Frequency Dependence of Repolarization Alternans in Human Ventricular Cardiomyocytes
Xin Zhou‚ Alfonso Bueno−Orovio‚ Michele Orini‚ Ben Hanson‚ Martin Hayward‚ Peter Taggart‚ Pier D. Lambiase‚ Kevin Burrage and Blanca Rodriguez
In Circulation Research. 2016.
Details about In Vivo and In Silico Investigation Into Mechanisms of Frequency Dependence of Repolarization Alternans in Human Ventricular Cardiomyocytes | BibTeX data for In Vivo and In Silico Investigation Into Mechanisms of Frequency Dependence of Repolarization Alternans in Human Ventricular Cardiomyocytes | DOI (10.1161/circresaha.115.307836) | Link to In Vivo and In Silico Investigation Into Mechanisms of Frequency Dependence of Repolarization Alternans in Human Ventricular Cardiomyocytes
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[21]
Up−regulation of miR−31 in human atrial fibrillation begets the arrhythmia by depleting dystrophin and neuronal nitric oxide synthase
Reilly SN‚ Liu X‚ Carnicer R‚ Recalde A‚ Muszkiewicz A‚ Jayaram R‚ Carena MC‚ Stefanini M‚ Surdo NC‚ Wijesurenda R‚ Lomas O‚ Ratnatunga C‚ Sayeed R‚ Krasopoulos G‚ Rajakumar T‚ Bueno−Orovio A‚ Verheule S‚ Fulga TA‚ Rodriguez B‚ Schotten U and Casadei B
In Science Translational Medicine. 2016.
Details about Up−regulation of miR−31 in human atrial fibrillation begets the arrhythmia by depleting dystrophin and neuronal nitric oxide synthase | BibTeX data for Up−regulation of miR−31 in human atrial fibrillation begets the arrhythmia by depleting dystrophin and neuronal nitric oxide synthase | DOI (10.1126/scitranslmed.aac4296) | Link to Up−regulation of miR−31 in human atrial fibrillation begets the arrhythmia by depleting dystrophin and neuronal nitric oxide synthase
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[22]
Balance between sodium and calcium currents underlying chronic atrial fibrillation termination: An in silico inter–subject variability study
Alejandro Liberos‚ Alfonso Bueno−Orovio‚ Miguel Rodrigo‚ Ursula Ravens‚ Ismael Hernandez−Romero‚ Francisco Fernandez−Aviles‚ Maria S. Guillem‚ Blanca Rodriguez and Andreu M. Climent
In Heart Rhythm. August, 2016.
Details about Balance between sodium and calcium currents underlying chronic atrial fibrillation termination: An in silico inter–subject variability study | BibTeX data for Balance between sodium and calcium currents underlying chronic atrial fibrillation termination: An in silico inter–subject variability study | DOI (10.1016/j.hrthm.2016.08.028) | Link to Balance between sodium and calcium currents underlying chronic atrial fibrillation termination: An in silico inter–subject variability study
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[23]
Human−based approaches to pharmacology and cardiology: an interdisciplinary and intersectorial workshop
Rodriguez B‚ Carusi A‚ Abi−Gerges N‚ Ariga R‚ Britton O‚ Bub G‚ Bueno−Orovio A‚ Burton RAB‚ Carapella V‚ Cardone−Noott L‚ Daniels MJ‚ Davies MR‚ Dutta S‚ Ghetti A‚ Grau V‚ Harmer S‚ Kopljar I‚ Lambiase P‚ Lu HR‚ Mincholé A‚ Muszkiewicz A‚ Oster J‚ Paci M‚ Passini E‚ Severi S‚ Taggart P‚ Tinker A‚ Valentin J−P‚ Varró A‚ Wallman M and Zhou X
In Europace. 2016.
Details about Human−based approaches to pharmacology and cardiology: an interdisciplinary and intersectorial workshop | BibTeX data for Human−based approaches to pharmacology and cardiology: an interdisciplinary and intersectorial workshop | DOI (10.1093/europace/euv320) | Link to Human−based approaches to pharmacology and cardiology: an interdisciplinary and intersectorial workshop
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[24]
Human ventricular activation sequence and the simulation of the electrocardiographic QRS complex and its variability in healthy and intraventricular block conditions
Louie Cardone−Noott‚ Alfonso Bueno−Orovio‚ Ana Mincholé‚ Nejib Zemzemi and Blanca Rodriguez
In EP Europace. 2016.
Details about Human ventricular activation sequence and the simulation of the electrocardiographic QRS complex and its variability in healthy and intraventricular block conditions | BibTeX data for Human ventricular activation sequence and the simulation of the electrocardiographic QRS complex and its variability in healthy and intraventricular block conditions | DOI (10.1093/europace/euw346) | Link to Human ventricular activation sequence and the simulation of the electrocardiographic QRS complex and its variability in healthy and intraventricular block conditions
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[25]
Basis for the Induction of Tissue−Level Phase−2 Reentry as a Repolarization Disorder in the Brugada Syndrome
Alfonso Bueno−Orovio‚ Elizabeth M. Cherry EM‚ Steve J. Evans and Flavio H. Fenton
In BioMed Research International. 2015.
Details about Basis for the Induction of Tissue−Level Phase−2 Reentry as a Repolarization Disorder in the Brugada Syndrome | BibTeX data for Basis for the Induction of Tissue−Level Phase−2 Reentry as a Repolarization Disorder in the Brugada Syndrome | DOI (10.1155/2015/197586) | Link to Basis for the Induction of Tissue−Level Phase−2 Reentry as a Repolarization Disorder in the Brugada Syndrome
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[26]
Mechanisms of pro−arrhythmic abnormalities in ventricular repolarisation and anti−arrhythmic therapies in human hypertrophic cardiomyopathy
Elisa Passini‚ Ana Mincholé‚ Raffaele Coppini‚ Elisabetta Cerbai‚ Blanca Rodriguez‚ Stefano Severi and Alfonso Bueno−Orovio
In Journal of Molecular and Cellular Cardiology. 2015.
Details about Mechanisms of pro−arrhythmic abnormalities in ventricular repolarisation and anti−arrhythmic therapies in human hypertrophic cardiomyopathy | BibTeX data for Mechanisms of pro−arrhythmic abnormalities in ventricular repolarisation and anti−arrhythmic therapies in human hypertrophic cardiomyopathy | DOI (10.1016/j.yjmcc.2015.09.003) | Link to Mechanisms of pro−arrhythmic abnormalities in ventricular repolarisation and anti−arrhythmic therapies in human hypertrophic cardiomyopathy
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[27]
ECG−based estimation of dispersion of APD restitution as a tool to stratify sotalol−induced arrhythmic risk
A. Mincholé‚ A. Bueno−Orovio‚ P. Laguna‚ E. Pueyo and B. Rodriguez
In Journal of Electrocardiology. Vol. 48. No. 5. Pages 867–873. September, 2015.
Details about ECG−based estimation of dispersion of APD restitution as a tool to stratify sotalol−induced arrhythmic risk | BibTeX data for ECG−based estimation of dispersion of APD restitution as a tool to stratify sotalol−induced arrhythmic risk | DOI (10.1016/j.jelectrocard.2015.06.006) | Link to ECG−based estimation of dispersion of APD restitution as a tool to stratify sotalol−induced arrhythmic risk
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[28]
On the Order of the Fractional Laplacian in Determining the Spatio−Temporal Evolution of a Space−Fractional Model of Cardiac Electrophysiology
Nicole Cusimano‚ Alfonso Bueno−Orovio‚ Ian Turner and Kevin Burrage
In PLOS ONE. 2015.
Details about On the Order of the Fractional Laplacian in Determining the Spatio−Temporal Evolution of a Space−Fractional Model of Cardiac Electrophysiology | BibTeX data for On the Order of the Fractional Laplacian in Determining the Spatio−Temporal Evolution of a Space−Fractional Model of Cardiac Electrophysiology | DOI (10.1371/journal.pone.0143938) | Link to On the Order of the Fractional Laplacian in Determining the Spatio−Temporal Evolution of a Space−Fractional Model of Cardiac Electrophysiology
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[29]
Na/K pump regulation of cardiac repolarization: Insights from a systems biology approach
A. Bueno−Orovio‚ C. Sánchez‚ E. Pueyo and B. Rodriguez
In Pflugers Archiv European Journal of Physiology. Vol. 466. No. 2. Pages 183−193. 2014.
Details about Na/K pump regulation of cardiac repolarization: Insights from a systems biology approach | BibTeX data for Na/K pump regulation of cardiac repolarization: Insights from a systems biology approach
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[30]
Fourier spectral methods for fractional−in−space reaction−diffusion equations
A. Bueno−Orovio‚ D. Kay and K. Burrage
In BIT Numerical Mathematics. 2014.
Details about Fourier spectral methods for fractional−in−space reaction−diffusion equations | BibTeX data for Fourier spectral methods for fractional−in−space reaction−diffusion equations
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[31]
Fractional diffusion models of cardiac electrical propagation: role of structural heterogeneity in dispersion of repolarization
Bueno−Orovio A‚ Kay D‚ Grau V‚ Rodriguez B and Burrage K
In Journal of the Royal Society Interface. 2014.
Details about Fractional diffusion models of cardiac electrical propagation: role of structural heterogeneity in dispersion of repolarization | BibTeX data for Fractional diffusion models of cardiac electrical propagation: role of structural heterogeneity in dispersion of repolarization | DOI (10.1098/rsif.2014.0352) | Link to Fractional diffusion models of cardiac electrical propagation: role of structural heterogeneity in dispersion of repolarization
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[32]
Inter−subject variability in human atrial action potential in sinus rhythm versus atrial fibrillation patients
C. Sánchez‚ A. Bueno−Orovio‚ E. Wettwer‚ S. Loose‚ J. Simon‚ U. Ravens‚ E. Pueyo and B.Rodriguez
In PLoS ONE. Vol. 9. No. 8. Pages e105897. 2014.
Details about Inter−subject variability in human atrial action potential in sinus rhythm versus atrial fibrillation patients | BibTeX data for Inter−subject variability in human atrial action potential in sinus rhythm versus atrial fibrillation patients | DOI (10.1371/journal.pone.0105897)
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[33]
Slow Adaptation of Ventricular Repolarization as a Cause of Arrhythmia?
A. Bueno−Orovio‚ B.M. Hanson‚ J.S. Gill‚ P. Taggart and B. Rodriguez
In Methods of Information in Medicine. Vol. 53. No. 4. Pages 320−323. 2014.
Details about Slow Adaptation of Ventricular Repolarization as a Cause of Arrhythmia? | BibTeX data for Slow Adaptation of Ventricular Repolarization as a Cause of Arrhythmia? | DOI (10.3414/ME13-02-0039)
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[34]
Population of human ventricular cell models calibrated with in vivo measurements unravels ionic mechanisms of cardiac alternans
X. Zhou‚ A. Bueno−Orovio‚ M. Orini‚ B. Hanson‚ M. Hayward‚ P. Taggart‚ P.D. Lambiase‚ K. Burrage and B. Rodriguez
In Computing in Cardiology. Vol. 40. Pages 855−858. 2013.
Details about Population of human ventricular cell models calibrated with in vivo measurements unravels ionic mechanisms of cardiac alternans | BibTeX data for Population of human ventricular cell models calibrated with in vivo measurements unravels ionic mechanisms of cardiac alternans
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[35]
Experimentally calibrated population of models predicts and explains intersubject variability in cardiac cellular electrophysiology
O.J. Britton‚ A. Bueno−Orovio‚ K. Van Ammel‚ H.R. Lu‚ R. Towart‚ D.J. Gallacher and B. Rodriguez
In Proceedings of the National Academy of Sciences of the United States of America. Vol. 110. No. 23. 2013.
Details about Experimentally calibrated population of models predicts and explains intersubject variability in cardiac cellular electrophysiology | BibTeX data for Experimentally calibrated population of models predicts and explains intersubject variability in cardiac cellular electrophysiology
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[36]
Computational probabilistic quantification of pro−arrhythmic risk from scar and left−to−right heterogeneity in the human ventricles
M. Wallman‚ A. Bueno−Orovio and B. Rodriguez
In Computing in Cardiology. Vol. 40. Pages 711−714. 2013.
Details about Computational probabilistic quantification of pro−arrhythmic risk from scar and left−to−right heterogeneity in the human ventricles | BibTeX data for Computational probabilistic quantification of pro−arrhythmic risk from scar and left−to−right heterogeneity in the human ventricles
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[37]
Cell repolarization variability modulates atrial fibrillation dynamics in 3D virtual human atria
C. Sanchez‚ A. Bueno−Orovio‚ E. Pueyo and B. Rodriguez
In Computing in Cardiology. Vol. 40. Pages 911−914. 2013.
Details about Cell repolarization variability modulates atrial fibrillation dynamics in 3D virtual human atria | BibTeX data for Cell repolarization variability modulates atrial fibrillation dynamics in 3D virtual human atria
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[38]
Continuous adjoint approach for the spalart−allmaras model in aerodynamic optimization
A. Bueno−Orovio‚ C. Castro‚ F. Palacios and E. Zuazua
In AIAA Journal. Vol. 50. No. 3. Pages 631−646. 2012.
Details about Continuous adjoint approach for the spalart−allmaras model in aerodynamic optimization | BibTeX data for Continuous adjoint approach for the spalart−allmaras model in aerodynamic optimization
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[39]
The Na+/K+ pump is an important modulator of refractoriness and rotor dynamics in human atrial tissue
C. Sánchez‚ A. Corrias‚ A. Bueno−Orovio‚ M. Davies‚ J. Swinton‚ I. Jacobson‚ P. Laguna‚ E. Pueyo and B. Rodŕıguez
In American Journal of Physiology−Heart and Circulatory Physiology. Vol. 302. No. 5. Pages H1146–H1159. 2012.
Details about The Na+/K+ pump is an important modulator of refractoriness and rotor dynamics in human atrial tissue | BibTeX data for The Na+/K+ pump is an important modulator of refractoriness and rotor dynamics in human atrial tissue | DOI (10.1152/ajpheart.00668.2011)
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[40]
In Vivo Human Left−to−Right Ventricular Differences in Rate Adaptation Transiently Increase Pro−Arrhythmic Risk Following Rate Acceleration.
Bueno−Orovio A‚ Hanson B‚ Gill J‚ Taggart P and Rodriguez B
In PLoS ONE. 2012.
Details about In Vivo Human Left−to−Right Ventricular Differences in Rate Adaptation Transiently Increase Pro−Arrhythmic Risk Following Rate Acceleration. | BibTeX data for In Vivo Human Left−to−Right Ventricular Differences in Rate Adaptation Transiently Increase Pro−Arrhythmic Risk Following Rate Acceleration.
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[41]
Mapped Chebyshev pseudospectral method for the study of multiple scale phenomena
A. Alexandrescu‚ A. Bueno−Orovio‚ J.R. Salgueiro and V.M. Pérez−García
In Computer Physics Communications. Vol. 180. No. 6. Pages 912−919. 2009.
Details about Mapped Chebyshev pseudospectral method for the study of multiple scale phenomena | BibTeX data for Mapped Chebyshev pseudospectral method for the study of multiple scale phenomena
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[42]
Minimal model for human ventricular action potentials in tissue
A. Bueno−Orovio‚ E.M. Cherry and F.H. Fenton
In Journal of Theoretical Biology. Vol. 253. No. 3. Pages 544−560. 2008.
Details about Minimal model for human ventricular action potentials in tissue | BibTeX data for Minimal model for human ventricular action potentials in tissue
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[43]
Mapped Chebyshev pseudospectral method to study multiple scale phenomena
Alexandrescu A‚ Bueno−Orovio A‚ Salgueiro JR and Pérez−García VM
In Comput Phys Commun 180(6):912−9. 2008.
Details about Mapped Chebyshev pseudospectral method to study multiple scale phenomena | BibTeX data for Mapped Chebyshev pseudospectral method to study multiple scale phenomena
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[44]
Enhanced box and prism assisted algorithms for computing the correlation dimension
A. Bueno−Orovio and V.M. Pérez−García
In Chaos‚ Solitons and Fractals. Vol. 34. No. 2. Pages 509−518. 2007.
Details about Enhanced box and prism assisted algorithms for computing the correlation dimension | BibTeX data for Enhanced box and prism assisted algorithms for computing the correlation dimension
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[45]
Spectral smoothed boundary methods: The role of external boundary conditions
A. Bueno−Orovio and V.M. Pérez−García
In Numerical Methods for Partial Differential Equations. Vol. 22. No. 2. Pages 435−448. 2006.
Details about Spectral smoothed boundary methods: The role of external boundary conditions | BibTeX data for Spectral smoothed boundary methods: The role of external boundary conditions
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[46]
Spectral methods for partial differential equations in irregular domains: The spectral smoothed boundary method
A. Bueno−Orovio‚ V.M. Pérez−García and F.H. Fenton
In SIAM Journal on Scientific Computing. Vol. 28. No. 3. Pages 886−900. 2006.
Details about Spectral methods for partial differential equations in irregular domains: The spectral smoothed boundary method | BibTeX data for Spectral methods for partial differential equations in irregular domains: The spectral smoothed boundary method
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[47]
Fourier embedded domain methods: Periodic and C∞ extension of a function defined on an irregular region to a rectangle via convolution with Gaussian kernels
A. Bueno−Orovio
In Applied Mathematics and Computation. Vol. 183. No. 2. Pages 813−818. 2006.
Details about Fourier embedded domain methods: Periodic and C∞ extension of a function defined on an irregular region to a rectangle via convolution with Gaussian kernels | BibTeX data for Fourier embedded domain methods: Periodic and C∞ extension of a function defined on an irregular region to a rectangle via convolution with Gaussian kernels