Brain Scans and Genetic Profiles Track Risk of Dementia

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Balayages de cerveau et risque génétique de voie de profils de démence

par Lynn Shapiro, Writer | January 07, 2009
PET brain scans reveal
plaque and tangle accumulation
in patients with the APOE-4
gene, which increases risk
of Alzheimer's
Image courtesy of UCLA
UCLA scientists have used innovative brain-scan technology developed at UCLA, along with patient-specific information on Alzheimer's disease risk, to help diagnose brain aging, often before symptoms appear. Published in the January issue of Archives of General Psychiatry, their study may offer a more accurate method for tracking brain aging.

Researchers used positron emission tomography (PET), which allows "a window into the brain" of living people and specifically reveals plaques and tangles, the hallmarks of neurodegeneration. The PET scans were complemented by information on patients' age and cognitive status and a genetic profile.

"Combining key patient information with a brain scan may give us better predictive power in targeting those who may benefit from early interventions, as well as help test how well treatments are working," said study author Dr. Gary Small, who holds UCLA's Parlow-Solomon Chair on Aging and is a professor at the Semel Institute for Neuroscience and Human Behavior at UCLA.

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Scientists took PET brain scans of 76 non-demented volunteers after they had been intravenously injected with a new chemical marker called FDDNP, which binds to plaque and tangle deposits in the brain. Researchers were then able to pinpoint where these abnormal protein deposits were accumulating.

They reported that older age correlated with higher concentrations of FDDNP in the medial and lateral temporal regions of the brain, areas involved with memory, where plaques and tangles usually collect. The average age of study volunteers was 67. Thirty-four of the 76 volunteers carried the APOE-4 gene allele, which heightens the risk for developing Alzheimer's disease. This group demonstrated higher FDDNP levels in the frontal region of the brain, also involved in memory, than study participants without allele.

"We found that for many volunteers, the imaging scans reflected subtle brain changes, which take place before symptoms manifest," said Small, who is also director of the UCLA Center on Aging. Small noted that the brain will try to compensate for any problems, which is why cognitive symptoms may not become apparent until much later.

"This type of scan offers an opportunity to see what is really going on in the brain," he said.

Another subset of the volunteers had mild cognitive impairment (MCI), a condition that increases the risk of developing Alzheimer's disease. These 36 volunteers had higher measures of FDDNP in the medial temporal brain regions than normal volunteers. Those who had both MCI and the APOE-4 gene had higher concentrations of FDDNP in the medial temporal brain regions than volunteers who had MCI but not APOE-4.

"We could see more advancing disease in those with mild cognitive impairment, who are already demonstrating some minimal symptoms," Small said. "Eventually, this imaging method, together with patient information like age, cognitive status and genetics, may help us better manage brain aging," Small said.