1. Modeling the calcium spike as a threshold triggered fixed waveform for synchronous inputs in the fluctuation regime
- Author
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Chua, Yansong, Morrison, Abigail, and Helias, Moritz
- Subjects
Quantitative Biology::Subcellular Processes ,calcium spike as threshold triggered fixed waveform ,Quantitative Biology::Neurons and Cognition ,Quantitative Biology::Tissues and Organs ,pyramidal neuron ,ddc:610 ,calcium spike induced somatic voltage excursion ,calcium spike approximation ,Quantitative Biology::Cell Behavior ,Neuroscience ,Original Research ,calcium spikes - Abstract
Modeling the layer 5 pyramidal neuron as a system of three connected isopotential compartments, the soma, proximal, and distal compartment, with calcium spike dynamics in the distal compartment following first order kinetics, we are able to reproduce in-vitro experimental results which demonstrate the involvement of calcium spikes in action potentials generation. To explore how calcium spikes affect the neuronal output in-vivo, we emulate in-vivo like conditions by embedding the neuron model in a regime of low background fluctuations with occasional large synchronous inputs. In such a regime, a full calcium spike is only triggered by the synchronous events in a threshold like manner and has a stereotypical waveform. Hence, in such a regime, we are able to replace the calcium dynamics with a simpler threshold triggered current of fixed waveform, which is amenable to analytical treatment. We obtain analytically the mean somatic membrane potential excursion due to a calcium spike being triggered while in the fluctuating regime. Our analytical form that accounts for the covariance between conductances and the membrane potential shows a better agreement with simulation results than a naive first order approximation.
- Published
- 2015