Calcium buffers and L-type calcium channels as modulators of cardiac subcellular alternans

Abstract: In cardiac myocytes, calcium cycling links the dynamics of the membrane potential to the activation of the contractile filaments. Perturbations of the calcium signalling toolkit have been demonstrated to disrupt this connection and lead to numerous pathologies including cardiac alternans. This rhythm disturbance is characterised by alternations in the membrane potential and the intracellular calcium concentration, which in turn can lead to sudden cardiac death. In the present computational study, we make furth… Show more

“…Since the computation of the MSF rests on the PWL nature of the CRU model, it is worth asking how well this approximation describes the dynamics of the full nonlinear model. As shown in Lai et al (2019), the PWL model captures the core dynamics of the nonlinear model very well. Of course, there are parameter regimes of the nonlinear model that cannot be captured with the current parametrisation of the PWL model used here.…”

A master stability function approach to cardiac alternans

“…Since the computation of the MSF rests on the PWL nature of the CRU model, it is worth asking how well this approximation describes the dynamics of the full nonlinear model. As shown in Lai et al (2019), the PWL model captures the core dynamics of the nonlinear model very well. Of course, there are parameter regimes of the nonlinear model that cannot be captured with the current parametrisation of the PWL model used here.…”

A master stability function approach to cardiac alternans