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Predicting Brain Functional Connectivity Using Mobile Sensing.

Mikio ObuchiJeremy F HuckinsWeichen WangAlex DasilvaCourtney RogersEilis MurphyElin HedlundPaul HoltzheimerShayan MirjafariAndrew Campbell
Published in: Proceedings of the ACM on interactive, mobile, wearable and ubiquitous technologies (2020)
Brain circuit functioning and connectivity between specific regions allow us to learn, remember, recognize and think as humans. In this paper, we ask the question if mobile sensing from phones can predict brain functional connectivity. We study the brain resting-state functional connectivity (RSFC) between the ventromedial prefrontal cortex (vmPFC) and the amygdala, which has been shown by neuroscientists to be associated with mental illness such as anxiety and depression. We discuss initial results and insights from the NeuroSence study, an exploratory study of 105 first year college students using neuroimaging and mobile sensing across one semester. We observe correlations between several behavioral features from students' mobile phones and connectivity between vmPFC and amygdala, including conversation duration (r=0.365, p<0.001), sleep onset time (r=0.299, p<0.001) and the number of phone unlocks (r=0.253, p=0.029). We use a support vector classifier and 10-fold cross validation and show that we can classify whether students have higher (i.e., stronger) or lower (i.e., weaker) vmPFC-amygdala RSFC purely based on mobile sensing data with an F1 score of 0.793. To the best of our knowledge, this is the first paper to report that resting-state brain functional connectivity can be predicted using passive sensing data from mobile phones.
Keyphrases
  • resting state
  • functional connectivity
  • mental illness
  • prefrontal cortex
  • healthcare
  • electronic health record
  • mental health
  • multiple sclerosis
  • depressive symptoms
  • artificial intelligence
  • white matter
  • stress induced