%0 Journal Article %T A positive feedback cell signaling nucleation model of astrocyte dynamics %A Christopher L. MacDonald %A Gabriel A. Silva %J Frontiers in Neuroengineering %D 2013 %I Frontiers Media %R 10.3389/fneng.2013.00004 %X We constructed a model of calcium signaling in astrocyte neural glial cells that incorporates a positive feedback nucleation mechanism, whereby small microdomain increases in local calcium can stochastically produce global cellular and intercellular network scale dynamics. The model is able to simultaneously capture dynamic spatial and temporal heterogeneities associated with intracellular calcium transients in individual cells and intercellular calcium waves (ICW) in spatially realistic networks of astrocytes, i.e., networks where the positions of cells were taken from real in vitro experimental data of spontaneously forming sparse networks, as opposed to artificially constructed grid networks or other non-realistic geometries. This is the first work we are aware of where an intracellular model of calcium signaling that reproduces intracellular dynamics inherently accounts for intercellular network dynamics. These results suggest that a nucleation type mechanism should be further investigated experimentally in order to test its contribution to calcium signaling in astrocytes and in other cells more broadly. It may also be of interest in engineered neuromimetic network systems that attempt to emulate biological signaling and information processing properties in synthetic hardwired neuromorphometric circuits or coded algorithms. %K calcium %K diffusion %K astrocytes %K modeling %K feedback %K signaling %U http://www.frontiersin.org/Journal/10.3389/fneng.2013.00004/abstract