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Body Scanners for Lab Animals

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photo scan of two rat skeletons
This MicroPET scan of a live rat shows the skeleton.

A PET (positron emission tomography) scanner sensitive enough to use on laboratory mice has been developed by biomedical engineers at ²»Á¼Ñо¿Ëù. The device is already being used for studies on prostate cancer.

"We think it's the highest resolution scanner in existence. We can see things we couldn't see before," said Simon Cherry, professor of biomedical engineering at ²»Á¼Ñо¿Ëù, who leads the research group.

PET scanners have become widely used in medical imaging, alongside X-rays, CAT scans and magnetic resonance imaging, because they can give information about metabolic activity in body tissues. The machines used for scanning people cannot see sufficiently fine detail for use on small animals such as mice and rats.

The current machine, called MicroPET II, can resolve a volume of about one cubic millimeter, or one microliter, Cherry said. That represents an approximately eight-fold improvement over an earlier device built by Cherry's laboratory at UCLA, before moving to ²»Á¼Ñо¿Ëù in 2001.

PET works by detecting short-lived radioactive tracers that emit positrons, or anti-electrons. Those tracers can be attached to other molecules that are targeted to particular cells. For example, highly active cells, such as cancer cells, can be tagged with radioactive glucose.

Non-invasive imaging technology such as PET allows researchers to gain more information and to use fewer animals in experimental studies. For example, researchers could use an experimental drug to treat cancer in mice and see if the tumors were shrinking. Without methods such as PET, small deposits of cancer cells are hard to detect in experimental animals.

Cherry presented the work at the annual meeting of the Society for Molecular Imaging in San Francisco, Aug. 15-18. The work has also been published in the journal Physics in Medicine and Biology.

Media Resources

Andy Fell, Research news (emphasis: biological and physical sciences, and engineering), 530-752-4533, ahfell@ucdavis.edu

Simon Cherry, Biomedical Engineering, (530) 754-9419, srcherry@ucdavis.edu

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