Add to ORKGCalcium ions are an important second messenger in living cells. Indeed calcium signals in the form of waves have been the subject of much recent experimental interest. It is now well established that these waves are composed of elementary stochastic release events (calcium puffs) from spatially localized calcium stores. Here we develop a computationally inexpensive model of calcium release based upon a stochastic generalization of the Fire-Diffuse-Fire (FDF) threshold model. Our model retains the discrete nature of calcium stores, but also incorporates a notion of release probability via the introduction of threshold noise. Numerical simulations of the model illustrate that stochastic calcium release leads to the spontaneous production of c...
We present a bidomain fire-diffuse-fire model that facilitates mathematical analysis of propagating ...
The fire-diffuse-fire model provides an idealised model of Ca2+ release within living cells. The eff...
The De Young Keizer model for intracellular calcium oscillations is based around a detailed descript...
Calcium ions are an important second messenger in living cells. Indeed calcium signals in the form ...
In this paper we establish, from extensive numerical experiments, that the two dimensional stochasti...
In this paper we establish, from extensive numerical experiments, that the two dimensional stochasti...
Localized calcium elevations known as calcium puffs or sparks are cellular signals arising from coop...
Localized calcium elevations known as calcium puffs or sparks are cellular signals arising from coop...
Contraction of cardiac cells is initiated by an increase in the level of intracellular calcium conce...
The intracellular release of calcium from the endoplasmic reticulum is controlled by ion channels. T...
Intracellular calcium release is a prime example for the role of stochastic effects in cellular syst...
AbstractIntracellular calcium release is a prime example for the role of stochastic effects in cellu...
AbstractWe present a model that provides a unified framework for studying Ca2+ sparks and Ca2+ waves...
The fire-diffuse-fire model provides an idealised model of Ca2+ release within living cells. The eff...
The fire-diffuse-fire model provides an idealised model of Ca2+ release within living cells. The eff...
We present a bidomain fire-diffuse-fire model that facilitates mathematical analysis of propagating ...
The fire-diffuse-fire model provides an idealised model of Ca2+ release within living cells. The eff...
The De Young Keizer model for intracellular calcium oscillations is based around a detailed descript...
Calcium ions are an important second messenger in living cells. Indeed calcium signals in the form ...
In this paper we establish, from extensive numerical experiments, that the two dimensional stochasti...
In this paper we establish, from extensive numerical experiments, that the two dimensional stochasti...
Localized calcium elevations known as calcium puffs or sparks are cellular signals arising from coop...
Localized calcium elevations known as calcium puffs or sparks are cellular signals arising from coop...
Contraction of cardiac cells is initiated by an increase in the level of intracellular calcium conce...
The intracellular release of calcium from the endoplasmic reticulum is controlled by ion channels. T...
Intracellular calcium release is a prime example for the role of stochastic effects in cellular syst...
AbstractIntracellular calcium release is a prime example for the role of stochastic effects in cellu...
AbstractWe present a model that provides a unified framework for studying Ca2+ sparks and Ca2+ waves...
The fire-diffuse-fire model provides an idealised model of Ca2+ release within living cells. The eff...
The fire-diffuse-fire model provides an idealised model of Ca2+ release within living cells. The eff...
We present a bidomain fire-diffuse-fire model that facilitates mathematical analysis of propagating ...
The fire-diffuse-fire model provides an idealised model of Ca2+ release within living cells. The eff...
The De Young Keizer model for intracellular calcium oscillations is based around a detailed descript...
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