1- Multi-scale computational modeling of spatial calcium handling from nanodomain to whole-heart: overview and perspectives
Colman, M.; Alvarez-Lacalle, E.; Echebarria, B.; Sato, D.; Sutanto, H.; Heijman, J.
Frontiers in Physiology 13 836622 (2022)

2- Conductance heterogeneities induced by multistability in the dynamics of coupled cardiac gap junctions
Bragard, J.; Witt, A.; Laroze, D.; Hawks, C.; Elorza, J.; Rodriguez Cantalapiedra, I.; Peñaranda, A.Echebarria, B.
Chaos 31 073144-1-17 (2021)

3- Ca2+-CaM dependent inactivation of RyR2 underlies Ca2+ alternans in intact heart
Guo, W.; Benitez, R.; Hove-Madsen, L.; Alvarez-Lacalle, E.Echebarria, B.
Circulation research 128 e63-e83 (2021)

4- Buffering and total calcium levels determine the presence of oscillatory regimes in cardiac cells
Marchena, M.; Echebarria, B.; Shiferaw, Y.Alvarez-Lacalle, E.
PLoS computational biology 16 1-27 (2020)

5- Modelización computacional cardiaca
Bragard, J.; Camara Rey, Oscar; Echebarria, B.; Pueyo, E.; Soudah, E.Vazquez, M.
Revista española de cardiología 74 65-71 (2020)

6- Two-variable nullcline analysis of ionic general equilibrium predicts calcium homeostasis in ventricular myocytes
Conesa, D.; Echebarria, B.; Peñaranda, A.; Rodriguez Cantalapiedra, I.; Shiferaw, Y.Alvarez-Lacalle, E.
PLoS computational biology 16 1-21 (2020)

7- Influence of the tubular network on the characteristics of calcium transients in cardiac myocytes
Marchena, M.Echebarria, B.
PloS one 15 0231056-1-0231056-20 (2020)

8- Gap junction dynamics induces localized conductance bistability in cardiac tissue
Hawks, C.; Elorza, J.; Witt, A.; Laroze, D.; Rodriguez Cantalapiedra, I.; Peñaranda, A.; Echebarria, B.Bragard, J.
International journal of bifurcation and chaos 29 1930021:1-1930021:14 (2019)

9- Computational Model of Calcium Signaling in Cardiac Atrial Cells at the Submicron Scale
Marchena, M.Echebarria, B.
Frontiers in Physiology 9 1-14 (2018)