Radiotracer that detects important contributor to neurological diseases is tested for the first time in humans

Radiotracer that detects important contributor to neurological diseases is tested for the first time in humans
[18F]3F4AP in human subjects. A Representative whole-body maximum intensity projections of a male and a female participant at different time points. B Representative brain images of a male and a female participant. C Averaged time-activity curves of selected organs. Credit: Pedro Brugarolas et al, European Journal of Nuclear Medicine and Molecular Imaging (2022). DOI: 10.1007/s00259-022-05980-w

Loss of myelin—a protective insulating layer around neurons—is a key contributor to many neurological diseases including multiple sclerosis, traumatic brain and spinal cord injuries, stroke, and dementia; however, there are currently no imaging tests to accurately identify such demyelination and distinguish it from other pathological processes that occur in these conditions.

Investigators at Massachusetts General Hospital (MGH) have now developed such a test: a radioactive that can be detected by positron emission tomography (PET) scans. They evaluated its use in humans in a study published in the European Journal of Nuclear Medicine and Molecular Imaging.

"Having an imaging tool that it is specific to demyelination can help to better understand the contribution of demyelination to different diseases and better monitor a disease or the response to therapy—for example, a remyelinating therapy," says co-lead author Pedro Brugarolas, Ph.D., an investigator at the Gordon Center for Imaging at MGH and an assistant professor of radiology at Harvard Medical School.

In healthy volunteers, Brugarolas and his colleagues investigated the safety of their new PET tracer—called [18F]3F4AP—and looked to see what happens to it after it was injected intravenously into the body. This was the first time the tracer was given to humans, following studies that were conducted in monkeys.

The tracer distributed widely throughout the body, including into the brain, the organ of interest. In addition, the team calculated the volunteers' radiation exposure from the tracer and they performed basic safety assessments. "As expected for PET tracers, the was within normal limits and we didn't see signs that could indicate that the tracer wasn't safe," says co-lead author Moses Wilks, Ph.D., an assistant in physics at MGH and an instructor at Harvard Medical School. One unexpected finding was that the tracer cleared from circulation faster than expected, which the researchers plan to investigate further.

The scientists hope that their findings will help advance research related to diseases involving demyelination.

"Giving a new tracer to humans is a big deal as it requires being able to make the tracer in a sterile environment, demonstrating to the U.S. Food and Drug Administration that the trace meets a very strict quality control and getting permission from the agency to administer it to humans," says senior author Georges El Fakhri, Ph.D., director of the Gordon Center for Medical Imaging at MGH and a professor of radiology at Harvard Medical School. "Once a tracer has been in humans for the first time and it has been shown to be safe—which is what this study shows—it is easier for other researchers to use it."

Additional co-authors include Jacqueline Noel, Julia-Ann Kaiser, Danielle R. Vesper, Karla M. Ramos-Torres, Nicolas J. Guehl, Marina T. Macdonald-Soccorso, Yang Sun, Peter A. Rice, Daniel L. Yokell, Ruth Lim, and Marc D. Normandin.

More information: Pedro Brugarolas et al, Human biodistribution and radiation dosimetry of the demyelination tracer [18F]3F4AP, European Journal of Nuclear Medicine and Molecular Imaging (2022). DOI: 10.1007/s00259-022-05980-w

Citation: Radiotracer that detects important contributor to neurological diseases is tested for the first time in humans (2022, October 5) retrieved 28 February 2024 from https://medicalxpress.com/news/2022-10-radiotracer-important-contributor-neurological-diseases.html
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