A Penn Medicine-led consortium of radiology and chemistry researchers across the United States will advance imaging of diseases like Parkinson’s by testing radiotracers they identified that illuminate α-synuclein (αSyn) or 4R tau proteins on positron emission tomography (PET) scans. Armed with a five-year, $30 million grant from the National Institutes of Neurological Disease and Stroke, researchers hope that improved imaging will expand the number of neurological disorders that can be diagnosed with PET scans, track their progression over time, and more accurately measure a patient’s response to treatments.
PET imaging uses a radioactive drug (tracer) that binds to certain proteins or sugars, to show areas of the body that have higher levels of chemical activity, indicating disease. It was just over a decade ago that researchers first identified a radiotracer that could be used to detect the presence of amyloid protein plaques in the brain, which are among the markers for Alzheimer’s disease. As new amyloid-clearing Alzheimer’s drugs have come to market, such as lecanemab, this radiotracer has become integral for diagnosing Alzheimer’s disease and tracking the progress of the drug.
Now, Robert Mach, PhD, the Britton Chance Professor of Radiology, will lead a collaboration with experts around the country to pursue similar tracers for Parkinson’s and several other diseases that are characterized as “proteinopathies,” which occur when certain proteins “misfold,” and aggregate on the brain. Called the Center Without Walls, the project connects radiology, chemistry, and neurology experts from The University of California-San Francisco, the University of Pittsburgh, Washington