Ricci, Eugenio; Mazhar, Fazeelat; Fabbri, Alan; Bartolucci, Chiara; Severi, Stefano, Populations of Models Show Increased Arrhythmogenicity of the Hypertrophic Cardiomyopathy MYBPC3-c.772G>A Mutation, in: Computing in Cardiology, Computing in Cardiology, «COMPUTING IN CARDIOLOGY», 2025, 52, pp. 1 - 4 (atti di: 52nd International Computing in Cardiology, CinC 2025, Reboucas Convention Center, bra, 2025) [Contribution to conference proceedings]
Mazhar, Fazeelat; Fabbri, Alan; Ricci, Eugenio; Bartolucci, Chiara; Severi, Stefano, The HCM Related MYBPC3 c.772G>A Mutation: A Model Dependency Study, in: Computing in Cardiology, Computing in Cardiology, «COMPUTING IN CARDIOLOGY», 2025, 52, pp. 1 - 4 (atti di: 52nd International Computing in Cardiology, CinC 2025, Reboucas Convention Center, bra, 2025) [Contribution to conference proceedings]
Ricci, Eugenio; Bartolucci, Chiara; Torre, Eleonora; Mesirca, Pietro; Elia Mangoni, Matteo; Severi, Stefano, The Role of Cav1.3 Channels in Cardiac Pacemaking: Developing a Single-cell Rabbit 3D Model, in: Computing in Cardiology, Computing in Cardiology, «COMPUTING IN CARDIOLOGY», 2025, 52, pp. 1 - 4 (atti di: 52nd International Computing in Cardiology, CinC 2025, Reboucas Convention Center, bra, 2025) [Contribution to conference proceedings]
Bartolucci, Chiara; Mesirca, Pietro; Ricci, Eugenio; Sales‐Bellés, Clara; Torre, Eleonora; Louradour, Julien; Mangoni, Matteo Elia; Severi, Stefano, Computational modelling of mouse atrio ventricular node action potential and automaticity, «THE JOURNAL OF PHYSIOLOGY», 2024, 602, pp. 4821 - 4847 [Scientific article]Open Access
Gazzoni, Diego; Ricci, Eugenio; Bartolucci, Chiara; Severi, Stefano, In Silico Simulation of Mouse Atrioventricular Conduction Including Sinus Node and Atrial Myocardium, in: Computing in Cardiology, Computing in Cardiology, «COMPUTING IN CARDIOLOGY», 2024, 51, pp. 1 - 4 (atti di: 51st International Computing in Cardiology, CinC 2024, deu, 2024) [Contribution to conference proceedings]
Ricci, Eugenio; Mazhar, Fazeelat; Marzolla, Moreno; Severi, Stefano; Bartolucci, Chiara, Sinoatrial node heterogeneity and fibroblasts increase atrial driving capability in a two-dimensional human computational model, «FRONTIERS IN PHYSIOLOGY», 2024, 15, pp. 1 - 16 [Scientific article]Open Access
Ricci, E.; Mazhar, F.; Marzolla, M.; Severi, S.; Bartolucci, C., Sinoatrial Node Heterogeneity and Fibrosis Increase Robustness of Atrial Driving in a Computational Human Tissue Model, in: Computing in Cardiology, «COMPUTING IN CARDIOLOGY», 2024, 51, pp. 1 - 4 (atti di: Computing in Cardiology, Karlsruhe, DE, september 8--11, 2024) [Contribution to conference proceedings]
Ricci, E.; Bartolucci, C.; Marzolla, M.; Severi, S., The role of sinoatrial node heterogeneity in atrial driving and arrhythmia, «VASCULAR PHARMACOLOGY», 2024, 155, pp. 24 - 24 [Abstract]
Ricci, Eugenio; Bartolucci, Chiara; Marzolla, Moreno; Severi, Stefano, Computational Investigation of Atrial Driving: How Sinoatrial Node Heterogeneity Affects the Heart Rate, in: Computing in Cardiology (CinC), «COMPUTING IN CARDIOLOGY», 2023, 50, pp. 1 - 4 (atti di: Computing in Cardiology, Atlanta, Georgia, USA, 1-4 ottobre 2023) [Contribution to conference proceedings]Open Access
Ricci, Eugenio; Bartolucci, Chiara; Severi, Stefano, Quantification of Local Calcium Releases Contribution to Diastolic Depolarization in a 3D Model of Single Rabbit Sinoatrial Node Cell, in: Computing in Cardiology, «COMPUTING IN CARDIOLOGY», 2023, 50, pp. 1 - 4 (atti di: Computing in Cardiology, Atlanta, 1-4 Ottobre 2023) [Contribution to conference proceedings]
Campana, Chiara; Ricci, Eugenio; Bartolucci, Chiara; Severi, Stefano; Sobie, Eric A, Coupling and heterogeneity modulate pacemaking capability in healthy and diseased two-dimensional sinoatrial node tissue models, «PLOS COMPUTATIONAL BIOLOGY», 2022, 18, Article number: e1010098 , pp. 1 - 21 [Scientific article]Open Access
Ricci, Eugenio; Bartolucci, Chiara; Severi, Stefano, The virtual sinoatrial node: What did computational models tell us about cardiac pacemaking?, «PROGRESS IN BIOPHYSICS & MOLECULAR BIOLOGY», 2022, 0079-6107, pp. 1 - 25 [Scientific article]
