Now showing items 1-3 of 3

    • Gap junction dynamics induces localized conductance bistability in cardiac tissue 

      Hawks, Claudia; Elorza Barbajero, Jorge; Witt, Annette; Laroze, David; Rodríguez Cantalapiedra, Inma; Peñaranda Ayllón, Angelina; Echebarría Domínguez, Blas; Bragard, Jean (2019-07-01)
      Article
      Open Access
      Connexins are specialized ionic channels that control the action potential propagation between cardiac myocytes. In this paper, we study the connexin dynamics in a one-dimensional model of cardiac tissue. We show that the ...
    • Influence of gap junction dynamics on the stability of reentrant waves in cadiac tissue 

      Hawks, Claudia; Elorza Barbajero, Jorge; Echebarría Domínguez, Blas; Rodríguez Cantalapiedra, Inma; Peñaranda Ayllón, Angelina; Bragard, Jean (2015)
      Conference report
      Open Access
      Constant conductances are often assumed when model- ing cardiac tissue. However experimental evidences have shown that gap junctions (GJ) actually connect adjacent cardiac myocytes. These GJ are complex proteins of ...
    • Influence of gap junction dynamics on the stability of reentrant waves in cardiac tissue 

      Hawks, Claudia; Elorza Barbajero, Jorge; Echebarría Domínguez, Blas; Rodríguez Cantalapiedra, Inma; Peñaranda Ayllón, Angelina; Bragard, Jean (2016-01-01)
      Conference lecture
      Open Access
      Constant conductances are often assumed when model- ing cardiac tissue. However experimental evidences have shown that gap junctions (GJ) actually connect adjacent cardiac myocytes. These GJ are complex proteins of ...