APR 07, 2015 10:39 PM PDT

Brain's 'Lowly' Visual Processor Is More Sophisticated Than Once Thought

WRITTEN BY: Ilene Schneider
When managing, assigning each task to a specialist is often the most efficient strategy. Most researchers regard the brain as working similarly, with each region specialized to a given task. But Johns Hopkins neuroscientists have found, in rats, that the brain's primary visual cortex (VC) not only portrays the visual world but can also drive the timing of actions.
Primary visual cortex can inform decision-making.
"Here we show that the ‘lowly' visual cortex, rather than simply processing the visual world, is involved in ‘higher' cognitive tasks, like deciding when to time a response," said Marshall G. Hussain Shuler, Ph.D., an assistant professor of neuroscience at the Johns Hopkins University School of Medicine and the senior author on the report, which will appear in the April 8th issue of the journal Neuron.

Traditionally, the brain's lead-up to physical actions was thought to take place in three discrete regions. First, a sensory area, like the VC, would receive stimuli about the world outside; then, an associative area would process that information and choose a course of action; and finally, a motor area would command the appropriate muscles to move. But previous research from the Shuler lab showed that the VC can also "learn" time intervals to set expectations of future rewards. In this study, they examined whether the brain uses that information to decide when to time a response.

To answer that question, they created a situation in which rats had to properly time their actions to receive a reward. The rats were fitted with goggles that would give a flash of light soon after the rat approached a location containing a waterspout. After dozens of trials, the rats learned that they would receive more water from the spout the longer they waited to lick it after the flash of light, but only up to a point. If they waited too long, they wouldn't receive any water at all. Soon, the rats were accurately predicting the ideal wait time for receiving the most water.

During the trials, the researchers recorded the firing of nerve cells within the VC. What they saw was that the firing of a subset of cells coincided with the timing of the rats' licks. When the scientists tweaked the activity of VC cells, the timing of the rats' behavior changed as predicted.

"These observations, along with our formal model rationalizing how they come about, advance our understanding of how the brain learns to appropriately time actions in response to predictive cues and, surprisingly, implicates the visual cortex in that decision-making process," said Shuler.

This work was supported by the National Institute of Mental Health.

Source: Johns Hopkins University
About the Author
  • Ilene Schneider is the owner of Schneider the Writer, a firm that provides communications for health care, high technology and service enterprises. Her specialties include public relations, media relations, advertising, journalistic writing, editing, grant writing and corporate creativity consulting services. Prior to starting her own business in 1985, Ilene was editor of the Cleveland edition of TV Guide, associate editor of School Product News (Penton Publishing) and senior public relations representative at Beckman Instruments, Inc. She was profiled in a book, How to Open and Operate a Home-Based Writing Business and listed in Who's Who of American Women, Who's Who in Advertising and Who's Who in Media and Communications. She was the recipient of the Women in Communications, Inc. Clarion Award in advertising. A graduate of the University of Pennsylvania, Ilene and her family have lived in Irvine, California, since 1978.
You May Also Like
AUG 31, 2020
Genetics & Genomics
A Treatment Avenue Opens for a Rare Disorder
AUG 31, 2020
A Treatment Avenue Opens for a Rare Disorder
Krabbe disease or globoid cell leukodystrophy is a rare and deadly disorder that affects about one in every 100,000 infa ...
SEP 01, 2020
Genetics & Genomics
Women's Genes May Help Protect Against the Worst Alzheimer's Cases
SEP 01, 2020
Women's Genes May Help Protect Against the Worst Alzheimer's Cases
Women tend to get Alzheimer's more than men, but the female genome gives them some protection from the worst aspects of ...
SEP 14, 2020
Clinical & Molecular DX
Peek into the Inner Workings of the Spinal Cord
SEP 14, 2020
Peek into the Inner Workings of the Spinal Cord
Scientists have established a state-of-the-art method for observing and analyzing the complex flurry of neurological act ...
OCT 12, 2020
Neuroscience
Effects of Oxytocin Depend on Where it Comes From
OCT 12, 2020
Effects of Oxytocin Depend on Where it Comes From
Oxytocin has gained its reputation as the 'love hormone' for its role in regulating prosocial behaviors like emp ...
NOV 07, 2020
Cannabis Sciences
Does Cannabis Make Bipolar Disorder Better or Worse?
NOV 07, 2020
Does Cannabis Make Bipolar Disorder Better or Worse?
While anecdotal evidence and some case studies suggest cannabis may benefit those with bipolar disorder, studies have re ...
NOV 10, 2020
Neuroscience
Nanoparticles Pass the Blood-Brain Barrier in Zebrafish
NOV 10, 2020
Nanoparticles Pass the Blood-Brain Barrier in Zebrafish
Video:  Explains the challenges of delivering medicine to the brain, and possibly tools to pass the blood-brain bar ...
Loading Comments...