ECU associate professor receives patent for treating Restless Legs Syndrome

An East Carolina University faculty member’s latest patent may change the way Restless Legs Syndrome (RLS) is treated, leading to more effective care over a longer period of time for patients.

Stefan Clemens, an associate professor in the Brody School of Medicine’s Department of Physiology, was awarded U.S. Patent 10,751,327 on August 25 for his novel treatment method for the treatment of RLS.

Clemens and Brewer, Brody Medical ECU
Clemens, along with associate professor Kori Brewer, examine a mouse’s
spinal column in their lab at the Brody School of Medicine. Clemens’ work
with mouse models was essential in helping him develop his Restless
Legs Syndrome treatment.

Clemens, along with associate professor Kori Brewer, examine a mouse’s spinal column in their lab at the Brody School of Medicine. Clemens’ work with mouse models was essential in helping him develop his Restless Legs Syndrome treatment.

Restless Legs Syndrome is a nervous system disorder that affects between 5% and 8% of the population in the United States. Those suffering from RLS experience an uncontrollable urge to move their legs caused by an unpleasant sensation. While the exact cause of RLS is still unknown, the syndrome is typically treated with dopaminergic drugs — medications that replace or prevent the loss of dopamine — that have a high initial effect but over time lose their effectiveness.

“The problem is that patients on these dopaminergics eventually develop a side effect called augmentation,” Clemens said. “Their symptoms get worse while taking the current medication used for treatment.”

Classic RLS treatments act on a dopamine receptor known as D3 that has a suppressive effect in the nervous system. However, Clemens’ lab has shown in animal models that over time this medication leads to an increase of a different, excitatory receptor subtype, D1. This increase of the D1 receptor might be the cause of augmentation.

Clemens’ patent proposes a new treatment method that targets the increased D1 receptor levels in RLS patients suffering from augmentation, leading to reduced activation of D1 receptors while providing traditional therapy relief from RLS.

“Our lab postulates that this new compound will maintain long-term efficacy for RLS,” Clemens said. “If augmentation begins, we predict that we can reduce D1 receptor activation in patients and balance things back out, keeping the treatment effective.”

Clemens was awarded a grant from the North Carolina Biotechnology Center to run a small pilot study with a collaborator from the University of Houston using this new treatment method.

This work has gained the attention of a company that has interest in establishing a partnership where ECU’s patent rights may be used in combination with its existing drug formulation to bring relief to RLS patients suffering from augmentation.

Clemens added that the idea to apply for a patent came from ECU’s Office of Licensing and Commercialization.

“They not only brought the idea of patenting our research to my attention, but they also helped me through the process and handled all of the legal and technical aspects of filing a patent,” he said. “The patent would not have been issued without their help. I now know that it can be very beneficial to have experts in other areas come from different angles that make us think of other ways to use our work.”

Marti Van Scott, director of licensing and commercialization, said that finding commercialization opportunities for faculty research is an important bridge that brings science into the communities the university serves.

“It is a pleasure to work alongside our faculty to identify translational research opportunities that have potential to make a meaningful impact,” Van Scott said. “Licensing and commercialization works hard to identify skilled development partners to offer essential guidance for these translational activities. Whether it’s a new therapeutic or medical device, teaching or training method, or research tool, we are available to support the campus research and innovation ecosystem.”

While Clemens’ lab continues to work on its RLS treatment, Clemens said he’s also continuing to work on other medical treatments, including care for opioid pain tolerance.

Matt Smith, ECU Writer
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