A team of researchers from the Case Western Reserve University School of Medicine, Case School of Engineering and Louis Stokes Cleveland VA Medical Center is developing a blood-test device as an early warning system to help prevent pressure injuries.
The Pressure Injury Propensity testing device, or PIPChip, would allow patients to analyze a drop of their blood to identify biomarkers that could indicate their risk for developing pressure injuries that lead to serious infection.
Those found to be at greater risk could then take steps to avoid the sores, such as adjusting their wheelchair, using a better gel cushion or seeking professional medical help.
The three-year $1.1 million PIPChip project is funded through an award by the U.S. Department of Defense’s Congressionally-Directed Medical Research Program and Spinal Cord Injury Research Program (SCIRP) to the Cleveland VA Medical Research & Education Foundation and Case Western Reserve University.
The research and development team is led by Kath Bogie, D.Phil, a biomedical engineer and associate professor of orthopedics and biomedical engineering at Case Western Reserve School of Medicine and a research career scientist at the VA’s Advanced Platform Technology Center.
This work will build on Bogie’s previously SCIRP-funded research identifying two biomarkers that indicate pressure-injury risk. Bogie and her team had found that blood samples showing a certain fatty acid binding protein revealed the levels of fat tissue, and another marker in the blood accurately showed the level of remaining muscle tissue.
Neither of those indicators, however, could be determined by simply looking at a person, but were only revealed by a blood test and confirmed in scanned images of their gluteus muscles.
“So, if you could tell—just like you do with cholesterol, which you also can’t tell just by looking at a person—that you have a problem before it happens, then you could take action,” Bogie said. “We can test for that now, but the Veteran would need to come here and the diagnosis would take some time.
“The idea here is that to get that diagnostic ability in their hands, so they can monitor and respond to their own level of risk,” she said. “These are terrible chronic wounds which kill more people than you would know.”
Bogie said the team hopes to have the device in clinical trials within the next three to five years, based on U.S. Food and Drug Administration approval.
Ultimately, she said, the goal is for the PIPChip to become an over-the-counter product.
Other researchers on the project are: Pedram Mohseni, PhD, the Goodrich Professor of Engineering Innovation and chair of Electrical, Computer and Systems Engineering, and Michael Suster, PhD, research assistant professor, both at the Case School of Engineering; Umut Gurkan, the Warren E. Rupp Associate Professor in the Department of Mechanical and Aerospace Engineering in the Case School of Engineering; and Sean Ferry, a Veteran with a spinal cord injury who is active in Paralyzed Veterans of America (PVA).
Bogie said she reached out to Mohseni, Suster and Gurkan for their expertise in developing low-cost microfluidic point-of-care technology, meaning that it allows clinicians—or patients—to conduct real-time, diagnostic blood tests with portable analyzers.
Mohseni and Suster are the engineers behind ClotChip, a point-of-care device that can assess the clotting ability of a blood sample 95 times faster than current methods, using only a single drop of blood; Gurkan leads a university team that has developed micro-engineered tools to assess blood samples from patients before and after gene therapy treatment for Sickle Cell Disease, enabling global access to life-saving point-of-care diagnostic technologies.
Ferry will provide insight into what aspects of the device would be most useful to Veterans and other users.
Also on the team: MaryAnn Richmond, MD, chief of Spinal Cord Injuries and Disorders at the Louis Stokes Cleveland VA Medical Center; and Kristi Henzel, MD, assistant chief.
The team’s work was also featured recently by the VA’s Office of Research and Development in its Research Currents online magazine.
Source: Case Western Reserve University
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