In the first functional magnetic resonance imaging (fMRI) study of its kind, neurologists and psychiatrists at Columbia University have identified an area of the brain involved in the earliest stages of schizophrenia and related psychotic disorders.
Activity in this specific region of the hippocampus may help predict the onset of the disease, offering opportunities for earlier diagnosis and for the development of drugs for schizophrenia prevention.
Details of the findings were published in the September 7, 2009, issue of Archives of General Psychiatry.
In the study, the researchers scanned the brains of 18 high-risk individuals with "prodromal" symptoms, and followed them for two years. Of those individuals who went on to develop first-episode psychotic disorders such as schizophrenia, 70 percent had unusually high activity in this region of the hippocampus, known as the CA1 subfield.
SCIENCE DAILY
Showing posts with label hippocampus. Show all posts
Showing posts with label hippocampus. Show all posts
Tuesday, September 8, 2009
Monday, February 11, 2008
Growing Up to Prozac: Drug makes new neurons mature faster
Peter Pan won't be pleased to hear the latest theory about how Prozac works. A new study shows that the antidepressant stimulates growth of neurons in the hippocampus and speeds the young brain cells toward maturity. The maturation process could be the mechanism by which the drug relieves depression.
Fluoxetine, the drug commonly known as Prozac, has been used to treat depression since the 1980s. Prozac and other SSRIs (selective serotonin reuptake inhibitors) block the ability of the neurons to take up serotonin, thereby raising levels of the active neurotransmitter in the brain. When people with depression begin taking such drugs, serotonin levels in the brain increase rapidly, but it often takes 2 to 4 weeks before they begin to feel better.
The new study, published Feb. 6 in the Journal of Neuroscience, suggests that the lag is due to the time it takes for serotonin to stimulate new neurons to grow, mature, and integrate into brain circuits.
René Hen, a neuroscientist at Columbia University, and his colleagues tested the long-term effects of Prozac treatment on a specially bred strain of nervous mice.
READ MORE @ SCIENCE NEWS
Fluoxetine, the drug commonly known as Prozac, has been used to treat depression since the 1980s. Prozac and other SSRIs (selective serotonin reuptake inhibitors) block the ability of the neurons to take up serotonin, thereby raising levels of the active neurotransmitter in the brain. When people with depression begin taking such drugs, serotonin levels in the brain increase rapidly, but it often takes 2 to 4 weeks before they begin to feel better.
The new study, published Feb. 6 in the Journal of Neuroscience, suggests that the lag is due to the time it takes for serotonin to stimulate new neurons to grow, mature, and integrate into brain circuits.
René Hen, a neuroscientist at Columbia University, and his colleagues tested the long-term effects of Prozac treatment on a specially bred strain of nervous mice.
READ MORE @ SCIENCE NEWS
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