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BIASI, NICCOLO'

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Clinical validation of a novel digital twin framework for ventricular functional substrate simulation in post-infarction patients

2024-01-01 Parollo, M; Biasi, N; Seghetti, P; De Lucia, R; Di Cori, A; Segreti, L; Grifoni, G; Fiorentini, F; Torre, M; Barletta, V; Canu, A; Sbragi, S; Viani, S; Tognetti, A; Zucchelli, G

Identification of the Arrhythmogenic Substrate in Brugada Syndrome: A Computational Study

2024-01-01 Seghetti, P.; Biasi, N.; Mercati, M.; Hartwig, V.; Rossi, A.; Laurino, M.; Tognetti, A.

In Silico Closed-Loop System for the Assessment of Cardiac Pacing Algorithms

2024-01-01 Mercati, M.; Biasi, N.; Seghetti, P.; Tognetti, A.

A Computational Model of Brugada Syndrome in 3D Heterogeneous Cardiac Tissue

2022-01-01 Seghetti, P.; Biasi, N.; Laurino, M.; Tognetti, A.

A reaction-diffusion heart model for the closed-loop evaluation of heart-pacemaker interaction

2022-01-01 Biasi, Niccolo; Seghetti, Paolo; Mercati, Matteo; Tognetti, Alessandro

A transmurally heterogeneous model of the ventricular tissue and its application for simulation of Brugada Syndrome

2022-01-01 Biasi, Niccolo; Seghetti, Paolo; Tognetti, Alessandro

Diffuse fibrosis and repolarization disorders explain ventricular arrhythmias in Brugada syndrome: a computational study

2022-01-01 Biasi, Niccoló; Seghetti, Paolo; Tognetti, Alessandro

Electrophysiological Closed Loop Model of the Heart as Supporting Tool for Cardiac Pacing

2022-01-01 Biasi, N.; Mercati, M.; Seghetti, P.; Tognetti, A.

Low cardiac frequency associated with higher number of extrasistoles in a computational model of Brugada Syndrome

2022-01-01 Seghetti, Paolo; Biasi, Niccolo; Laurino, Marco; Tognetti, Alessandro

Physics-based Simulation and Machine Learning for the Practical Implementation of EIT-based Tactile Sensors

2022-01-01 Biasi, Niccolo; Gargano, Andrea; Arcarisi, Lucia; Carbonaro, Nicola; Tognetti, Alessandro

A computationally efficient dynamic model of human epicardial tissue

2021-01-01 Biasi, Niccoló; Tognetti, Alessandro

Computational Efficient Model for Human Ventricular Epicardial Cells

2021-01-01 Biasi, Niccolo; Tognetti, Alessandro

3D Model of the Heart Electrical Activity with Heterogeneous Ventricular Action Potentials

2020-01-01 Biasi, Niccolo'; Tognetti, Alessandro

Combining physics-based simulation and machine learning for EIT-based tactile sensing

2020-01-01 Biasi, Niccolo; Carbonaro, Nicola; Arcarisi, Lucia; Tognetti, Alessandro

Modelling whole heart electrical activity for ischemia and cardiac pacing simulation

2020-01-01 Biasi, Niccoló; Tognetti, Alessandro

Heart Closed-Loop Model for the Assessment of Cardiac Pacing

2019-01-01 Biasi, Niccoló; Tognetti, Alessandro

Titolo	Data di pubblicazione	Autore(i)
Clinical validation of a novel digital twin framework for ventricular functional substrate simulation in post-infarction patients	1-gen-2024	Parollo, M; Biasi, N; Seghetti, P; De Lucia, R; Di Cori, A; Segreti, L; Grifoni, G; Fiorentini, F; Torre, M; Barletta, V; Canu, A; Sbragi, S; Viani, S; Tognetti, A; Zucchelli, G
Identification of the Arrhythmogenic Substrate in Brugada Syndrome: A Computational Study	1-gen-2024	Seghetti, P.; Biasi, N.; Mercati, M.; Hartwig, V.; Rossi, A.; Laurino, M.; Tognetti, A.
In Silico Closed-Loop System for the Assessment of Cardiac Pacing Algorithms	1-gen-2024	Mercati, M.; Biasi, N.; Seghetti, P.; Tognetti, A.
A Computational Model of Brugada Syndrome in 3D Heterogeneous Cardiac Tissue	1-gen-2022	Seghetti, P.; Biasi, N.; Laurino, M.; Tognetti, A.
A reaction-diffusion heart model for the closed-loop evaluation of heart-pacemaker interaction	1-gen-2022	Biasi, Niccolo; Seghetti, Paolo; Mercati, Matteo; Tognetti, Alessandro
A transmurally heterogeneous model of the ventricular tissue and its application for simulation of Brugada Syndrome	1-gen-2022	Biasi, Niccolo; Seghetti, Paolo; Tognetti, Alessandro
Diffuse fibrosis and repolarization disorders explain ventricular arrhythmias in Brugada syndrome: a computational study	1-gen-2022	Biasi, Niccoló; Seghetti, Paolo; Tognetti, Alessandro
Electrophysiological Closed Loop Model of the Heart as Supporting Tool for Cardiac Pacing	1-gen-2022	Biasi, N.; Mercati, M.; Seghetti, P.; Tognetti, A.
Low cardiac frequency associated with higher number of extrasistoles in a computational model of Brugada Syndrome	1-gen-2022	Seghetti, Paolo; Biasi, Niccolo; Laurino, Marco; Tognetti, Alessandro
Physics-based Simulation and Machine Learning for the Practical Implementation of EIT-based Tactile Sensors	1-gen-2022	Biasi, Niccolo; Gargano, Andrea; Arcarisi, Lucia; Carbonaro, Nicola; Tognetti, Alessandro
A computationally efficient dynamic model of human epicardial tissue	1-gen-2021	Biasi, Niccoló; Tognetti, Alessandro
Computational Efficient Model for Human Ventricular Epicardial Cells	1-gen-2021	Biasi, Niccolo; Tognetti, Alessandro
3D Model of the Heart Electrical Activity with Heterogeneous Ventricular Action Potentials	1-gen-2020	Biasi, Niccolo'; Tognetti, Alessandro
Combining physics-based simulation and machine learning for EIT-based tactile sensing	1-gen-2020	Biasi, Niccolo; Carbonaro, Nicola; Arcarisi, Lucia; Tognetti, Alessandro
Modelling whole heart electrical activity for ischemia and cardiac pacing simulation	1-gen-2020	Biasi, Niccoló; Tognetti, Alessandro
Heart Closed-Loop Model for the Assessment of Cardiac Pacing	1-gen-2019	Biasi, Niccoló; Tognetti, Alessandro

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