%0 Figure %A Doucette, Wilder T. %A Dwiel, Lucas %A Boyce, Jared E. %A Simon, Amanda A. %A Khokhar, Jibran Y. %A Green, Alan I. %D 2018 %T Image_1_Machine Learning Based Classification of Deep Brain Stimulation Outcomes in a Rat Model of Binge Eating Using Ventral Striatal Oscillations.jpg %U https://frontiersin.figshare.com/articles/figure/Image_1_Machine_Learning_Based_Classification_of_Deep_Brain_Stimulation_Outcomes_in_a_Rat_Model_of_Binge_Eating_Using_Ventral_Striatal_Oscillations_jpg/6916862 %R 10.3389/fpsyt.2018.00336.s002 %2 https://frontiersin.figshare.com/ndownloader/files/12659909 %K binge eating %K nucleus accumbens %K deep brain stimulation (DBS) %K local field potential (LFP) %K machine learning applied to neuroscience %X

Neuromodulation-based interventions continue to be evaluated across an array of appetitive disorders but broader implementation of these approaches remains limited due to variable treatment outcomes. We hypothesize that individual variation in treatment outcomes may be linked to differences in the networks underlying these disorders. Here, Sprague-Dawley rats received deep brain stimulation separately within each nucleus accumbens (NAc) sub-region (core and shell) using a within-animal crossover design in a rat model of binge eating. Significant reductions in binge size were observed with stimulation of either target but with significant variation in effectiveness across individuals. When features of local field potentials (LFPs) recorded from the NAc were used to classify the pre-defined stimulation outcomes (response or non-response) from each rat using a machine-learning approach (lasso), stimulation outcomes could be classified with greater accuracy than expected by chance (effect sizes: core = 1.13, shell = 1.05). Further, these LFP features could be used to identify the best stimulation target for each animal (core vs. shell) with an effect size = 0.96. These data suggest that individual differences in underlying network activity may relate to the variable outcomes of circuit based interventions, and measures of network activity could have the potential to individually guide the selection of an optimal stimulation target to improve overall treatment response rates.

%I Frontiers