CCN

CCN Seminar: Lu Mi, MIT presents "Connectome-constrained Latent Variable Model of Whole-Brain Neural Activity."

America/New_York
7th Floor Classroom/7-Flatiron Institute (162 5th Avenue)

7th Floor Classroom/7-Flatiron Institute

162 5th Avenue

40
Description

Dear Colleagues,

Please welcome Lu Mi, Ph.D candidate at MIT CSAIL. 

Title: "Connectome-constrained Latent Variable Model of Whole-Brain Neural Activity"

Abstract: Brain-wide measurements of neural activity combined with detailed measurements of anatomical connectivity of the C. elegans nervous system in principle allow for the development of detailed mechanistic computational models. However, there are several challenges. We often do not have direct experimental access to important modeling details such as single-neuron dynamics and the signs and strengths of the synaptic connectivity. Further, neural activity can only be measured in a subset of neurons, often indirectly via calcium imaging, and significant trial-to-trial variability has been observed. 

To overcome these challenges, we introduce a connectome-constrained latent variable model (CC-LVM) of the unobserved voltage dynamics of the entire C. elegans nervous system and the observed calcium signals. We used the framework of variational autoencoders to fit parameters of the mechanistic simulation constituting the generative model of the LVM to calcium imaging observations. A variational approximate posterior distribution over latent voltage traces for all neurons is efficiently inferred using an inference network, and constrained by a prior distribution given by the biophysical simulation of neural dynamics. When applied to a recent dataset, we find that connectomic constraints enable our LVM to predict the activity of neurons whose activity were withheld. We explored models with different degrees of biophysical detail, and found that models with the most realistic conductance-based synapses provide markedly better predictions than current-based synapses for this system.

Feel free to gather in the 7th Floor Classroom if onsite, and if remote, please use the credentials in the calendar invite.