Simulation of morphologically structured photo-thermal neural stimulation.

OBJECTIVE

Rational design of next-generation techniques for photo-thermal excitation requires the development of tools capable of modeling the effects of spatially- and temporally-dependent temperature distribution on cellular neuronal structures.

APPROACH

We present a new computer simulation tool for predicting the effects of arbitrary spatiotemporally-structured photo-thermal stimulation on 3D, morphologically realistic neurons. The new simulation tool is based on interfacing two generic platforms, NEURON and MATLAB and is therefore suited for capturing different kinds of stimuli and neural models.

MAIN RESULTS

Simulation results are validated using photo-absorber induced neuro-thermal stimulation (PAINTS) empirical results, and advanced features are explored.

SIGNIFICANCE

The new simulation tool could have an important role in understanding and investigating complex optical stimulation at the single-cell and network levels.