Brain recruiting pattern incorrect in Schizophrenic patients
Mar 12, 2008 - 5:38:25 AM
, Reviewed by: Dr. Sanjukta Acharya
|
|
|
“When healthy people are correct, there is an increased activation of the right frontal cortex. When they forget, there is no such increase. Their brain activation pattern is tightly coupled with their memory performance. Not so with schizophrenic patients,” Park said.
|
|
Level of Evidence
|
|
1a - Systematic Review of Randomised Control Trails
|
|
|
|
By Vanderbilt University,
[RxPG] The enduring memory problems that people with schizophrenia experience may be related to differences in how their brains process information, new research has found.
The Public Library of Science published the report by Vanderbilt University researchers Junghee Lee, Bradley S. Folley, John Gore and Sohee Park in the online journal PLOS One March 12.
“We found that schizophrenic patients use different areas of their brain than healthy individuals do for working memory, which is an active form of short-term memory,” Park said.
“Both groups used their frontal cortex while remembering and forgetting. However, while healthy subjects groups used the right side of this brain area when asked to remember spatial locations, the schizophrenic patients used a wider network in both hemispheres.
“This suggests that while healthy people recruit a specialized and focused network of brain areas for specific memory functions, schizophrenic patients seem to rely on a more diffuse and wider network to achieve the same goal.”
The researchers also found a fundamental difference in the way healthy people and schizophrenic patients made errors. When healthy people forgot, they had no confidence in their response for that trial and the brain areas that were recruited during correct memory trials remained inactive. A more complex picture emerged for schizophrenic patients.
“When healthy people are correct, there is an increased activation of the right frontal cortex. When they forget, there is no such increase. Their brain activation pattern is tightly coupled with their memory performance. Not so with schizophrenic patients,” Park said.
“Schizophrenic patients may encode and remember incorrect information. The brain activation pattern during such error trials indicate that indeed they were remembering something, albeit incorrect,” she continued. “Such coupling of storing incorrect information and feeling confident of one’s response may be one way to think about how delusions get initiated,” Park said.
Researchers have known since the early 1990s that working memory problems are a consistent symptom of schizophrenia. The researchers sought to better understand what is occurring in the brain that may be causing these problems.
“The right hemisphere is usually recruited during spatial information processing but if it is malfunctioning, as it may be in schizophrenia, the left hemisphere may also be recruited,” Park said. “Another possible explanation is that schizophrenic patients may have more difficulty with these tasks, and as a result recruit more brain areas to assist them.”
In the experiment, the subjects were shown a point on a computer screen and told to concentrate upon it. Three identical black circles were then flashed on a gray background, each in a different location. After a short delay, the subjects were shown a probe and told to press one key if the probe matched one of the circles shown earlier and another if it did not. They then were told to press another key ranking on a scale from one to five their confidence in their answer about the probe.
The researchers captured images of brain activity during these tasks using functional magnetic resonance imaging, or fMRI. They repeated the experiment to capture data using another tool, near infrared spectroscopy, or NIRS. NIRS is a new and promising way to study schizophrenia, the researchers believe.
“Many patients exceed the fMRI safety weight limit due to the side effects of their medication. The paranoia and anxiety that are often part of this disorder also make fMRI, which involves entering a tube while laying down, impossible for many patients. Also, individuals with metal implants cannot be scanned,” Park said. “NIRS does not have these problems. As a participant, you sit in an office chair while the experimenter places a plastic ‘probe set’ on your head with a couple of straps. Even babies tolerate it pretty well. Our study demonstrates that NIRS can be used as a viable alternative to fMRI, which means many more people can participate in experiments.”
The researchers chose to publish their work in PLOS One, a relatively new, open access journal, because it is freely available to the public.
“We felt that the fact that anybody can access scientific papers in this journal was a big plus,” Park said. “One normally has to pay for access to journals. Most schizophrenic patients, including the individuals who participated in our study, simply do not have the money to do so. This article is available for free to anyone.”
| Funding information and declaration of competing interests:
The research was funded by the National Institute of Mental Health and a Vanderbilt University Discovery Grant.
|
Advertise in this space for $10 per month.
Contact us today.
|
 |
|
Subscribe to Schizophrenia Newsletter
|
|
|
|
About Dr. Sanjukta Acharya
|
This news story has been reviewed by Dr. Sanjukta Acharya before its publication on RxPG News website. Dr. Sanjukta Acharya, MBBS is the chief editor for RxPG News website. She oversees all the medical news submissions and manages the medicine section of the website. She has a special interest in diabetes and endocrinology.
RxPG News is committed to promotion and implementation of Evidence Based Medical Journalism in all channels of mass media including internet.
|
|
Additional information about the news article
|
Park is a professor of psychology and psychiatry and a member of the Center for Integrative and Cognitive Neuroscience. Lee and Folley were graduate students in the psychology department at Vanderbilt when this work was conducted. Lee is now a postdoctoral fellow at UCLA and Folley is a postdoctoral fellow in the Vanderbilt psychiatry department. Gore is Chancellor’s University Professor of Radiology and Radiological Sciences and Biomedical Engineering, director of the Institute of Imaging Science, and professor of molecular physiology, biophysics and physics. Park, Folley and Gore are Vanderbilt Kennedy Center for Research on Human Development investigators.
|
|
Feedback
|
For any corrections of factual information, to contact the editors or to send
any medical news or health news press releases, use
feedback form
|
Top of Page
|
