MORGAN, Ross, COLMAN, Michael A., CHUBB, Henry, SEEMANN, Gunnar und ASLANIDI, Oleg V., 2019. Slow conduction in the border zones of patchy fibrosis stabilizes the drivers for atrial fibrillation: insights from multi-scale human atrial modeling. Freiburg: Universität.

Morgan, R., Colman, M.A., Chubb, H., Seemann, G., Aslanidi, O.V., 2019. Slow conduction in the border zones of patchy fibrosis stabilizes the drivers for atrial fibrillation: insights from multi-scale human atrial modeling. Universität, Freiburg. https://doi.org/10.3389/fphys.2016.00474

Morgan, R., Colman, M. A., Chubb, H., Seemann, G., & Aslanidi, O. V. (ca. 2019). Slow conduction in the border zones of patchy fibrosis stabilizes the drivers for atrial fibrillation: insights from multi-scale human atrial modeling [Cd]. Universität. https://doi.org/10.3389/fphys.2016.00474

Morgan R, Colman MA, Chubb H, Seemann G, Aslanidi OV (2019) Slow conduction in the border zones of patchy fibrosis stabilizes the drivers for atrial fibrillation: insights from multi-scale human atrial modeling. Universität, Freiburg

Morgan, Ross/ Colman, Michael A./ Chubb, Henry/ Seemann, Gunnar/ Aslanidi, Oleg V., Slow conduction in the border zones of patchy fibrosis stabilizes the drivers for atrial fibrillation: insights from multi-scale human atrial modeling, Freiburg 2019.