The “Mirror” Estimate: An Intuitive Predictor of Membrane Polarization during Extracellular Stimulation

AbstractAchieving controlled extracellular microstimulation of the central nervous system requires understanding the membrane response of a neuron to an applied electric field. The “activating function” has been proposed as an intuitive predictor of membrane polarization during stimulation, but subsequent literature raised several limitations of this estimate. In this study, we show that, depending on the space constant λ, the steady-state solution to the passive cable equation is theoretically well approximated by either the activating function when λ is small, or the “mirror” image of the extracellular potential when λ is large. Using simulations, we then explore the respective domain of both estimates as a function of λ, stimulus duration, fiber length, and electrode-fiber distance. For realistic λ (>50–100 μm), the mirror estimate is the best predictor for either long electrode-fiber distances or short distances (