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An inexpensive technique shows how decisions light up the brain

This optical technique can simultaneously record the activity of neurons spread across the entire top surface of a mouse's cerebral cortex

Date:
June 2, 2020
Source:
Stanford School of Engineering
Summary:
A technique called COSMOS will help researchers understand how our brains work and aid in the development of new drugs. The inventors have created an instructional website to help other researchers build their own relatively-inexpensive COSMOS systems.
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When we make even simple decisions about how to interact with the world, we rely on computations performed by networks of neurons that span our brains. But what exactly are these neural networks computing?

Answering this question requires measuring the activity of lots of neurons throughout the brain as an animal makes a decision.

Now a team of Stanford researchers led by bioengineer Karl Deisseroth and electrical engineer Gordon Wetzstein -- along with graduate student Isaac Kauvar and postdoctoral fellow Timothy Machado -- has developed an optical technique that can simultaneously record the activity of neurons spread across the entire top surface of a mouse's cerebral cortex, a key part of the brain involved in making decisions. They published their findings in May in the journal Neuron.

Optical studies of the brain are not entirely new. Researchers already know how to track brain activity by using fluorescent dyes and proteins that emit light when a neuron fires. Until now, however, such optical techniques have not been able to record these faint flashes of light from many neurons, distributed across the curved surface of the cerebral cortex and working together to make a decision such as whether or not to take a drink of water.

To overcome this barrier, the Stanford researchers designed a bifocal microscope -- analogous to bifocal eyeglasses -- that allows them to keep the entire curved surface of the brain in focus.

The bifocal microscope uses a single camera to capture two movies of neural activity at the same time: one focused on the sides of the brain, and the other focused on the middle, to provide a side-by-side view. The researchers then computationally extract signals -- reflecting the timing, intensity and duration of when neurons fire -- from both of these movies to obtain a comprehensive measurement of neural activity across the whole surface.

The researchers call this system Cortical Observation by Synchronous Multifocal Optical Sampling, or COSMOS. In addition to studying motor control and decision making, the team is also using COSMOS to study sensory perception in animals and as a screening technique to develop better psychiatric drugs.

The prototype COSMOS system is relatively simple to build and costs less than $50,000, which is hundreds of thousands of dollars cheaper than other optical systems for recording neural population dynamics. To encourage further adoption and development of the technique, the authors have built a website with instructions to help other researchers build their own COSMOS systems.

Video: https://www.youtube.com/watch?v=WtfM94VxlhY&feature=emb_logo


Story Source:

Materials provided by Stanford School of Engineering. Original written by Tom Abate. Note: Content may be edited for style and length.


Journal Reference:

  1. Isaac V. Kauvar, Timothy A. Machado, Elle Yuen, John Kochalka, Minseung Choi, William E. Allen, Gordon Wetzstein, Karl Deisseroth. Cortical Observation by Synchronous Multifocal Optical Sampling Reveals Widespread Population Encoding of Actions. Neuron, 2020; DOI: 10.1016/j.neuron.2020.04.023

Cite This Page:

Stanford School of Engineering. "An inexpensive technique shows how decisions light up the brain." ScienceDaily. ScienceDaily, 2 June 2020. <www.sciencedaily.com/releases/2020/06/200602183358.htm>.
Stanford School of Engineering. (2020, June 2). An inexpensive technique shows how decisions light up the brain. ScienceDaily. Retrieved February 27, 2024 from www.sciencedaily.com/releases/2020/06/200602183358.htm
Stanford School of Engineering. "An inexpensive technique shows how decisions light up the brain." ScienceDaily. www.sciencedaily.com/releases/2020/06/200602183358.htm (accessed February 27, 2024).

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