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WVU-led team to build a bridge to better health using A.I. and digital health

An illustration of a hand wearing a smart watch with another hand holding a cellphone

A multidisciplinary team at WVU will embark on a project that will leverage artificial intelligence and digital health – which includes data from mobile devices and wearables – to address rising healthcare costs, the expansion of the nation’s elderly population and health disparities. (WVU Illustration/Aira Burkhart)

Quality healthcare transcends the medical profession, as evidenced by a new project led by West Virginia University that includes not only health experts but engineers, a physicist, a lawyer and a business data analyst.

Benjamin M. Statler College of Engineering and Mineral Resources

“Bridges in Digital Health,” which recently received $3 million from the National Science Foundation, hopes to address the combination of rising healthcare costs, the expansion of the nation’s elderly population and health disparities, particularly in rural communities, through advances in digital health and artificial intelligence, and training the next generation of professionals to develop and deploy such advances. 

Digital health is a rapidly growing field that involves clinical and biomedical data including prescriptions, medical images, ultrasound videos, electronic health records and data from mobile devices and wearables, such as Fitbit, said Donald Adjeroh, lead investigator of the project and professor and associate chair in the Lane Department of Computer Science and Electrical Engineering.

“Two of our pathway themes in the project are focused on the use of data science and A.I. on two key areas in healthcare: namely, cardiovascular health (analysis of cardiac images, especially, echocardiograms), and genomics (analysis and functional annotation of long non-coding ribonucleic acids – a type of RNA - and their role in disease prediction and prognosis),” Adjeroh said.

“Apart from traditional electronic health records, our health data will come from different sources and devices, including wearable devices such as hand-held mobile cardiac ultrasound devices, or pocket EKG monitors, low-cost mobile activity monitors, Fitbits, smart watches, social media, etc. Such low-cost wearable devices and data sources are important in collecting health-related data from individuals in rural areas, and outside the hospital setting, important for preventive care.”

Adjeroh noted that various recent reports, including results from WVU labs, document the success stories of A.I. techniques on health problems including breast cancer detection, diagnosing eye diseases, reading cardiac ultrasound images, early prediction of acute kidney failure, predicting adverse drug events and visualization of neuronal structures in the brain.

“These methods have shown performance that are close to human performance, and at times outperform human professionals on some of these tasks,” he said.

The NSF funding will help establish a new graduate education and traineeship model to prepare students to work in collaborative teams to develop and apply data science and A.I. techniques in addressing digital health issues. The project anticipates training 24 funded and 40 unfunded master’s and doctoral students from different disciplines including engineering, computer science, medicine, health sciences, physical sciences and economics. 

A co-investigator on the project within the Statler College is Gianfranco Doretto, who will teach some of the classes related to data science and A.I.

“The problem is that healthcare professionals have limited digital skills when it comes to exploring engineering solutions to improve healthcare delivery, while engineers with strong digital backgrounds lack the healthcare knowledge to propose new tools exploiting medical data,” Doretto said. “With this program, we will contribute to the training of a new generation of engineers, scientists and healthcare professionals able to better bridge the knowledge and communication barriers that separate them, with a focus on creating synergies around the use of artificial intelligence to generate and leverage data for improving healthcare delivery and outcome.”

Gay Stewart, a physicist who directs the WVU Center for Excellence in STEM Education, is another co-investigator.

“My focus is on improving access to STEM careers for West Virginians,” Stewart said. “Much of my focus has been on building the pipeline earlier, but traditional graduate programs do not provide the ability to work across disciplinary silos deeply enough to make the advances we need. ‘Bridges’ will address these challenges, by preparing trainees to work effectively in transdisciplinary teams that develop leading technology-driven solutions to challenging problems in DH, especially in rural communities.”

Stewart said the team will recruit participants from underserved groups – such as rural and first-generation students - in STEM.

“First-generation students tend to graduate college in STEM at lower rates than their peers and are less likely to pursue graduate studies,” she said. “Yet, we need their voices in this important work. I envision a much stronger motivation to pursue advanced studies when students can see the potential for significant impact on their families and communities.”

Dr. Michael Ruppert, another co-investigator on the project, explained the role of the research from a biomedical standpoint.

“One of the stumbling blocks for biomedical researchers is that very diverse skill sets are required to develop new knowledge by analyzing large datasets such as clinical data,” said Ruppert, Jo and Ben Statler chair of Breast Cancer Research at the WVU Cancer Institute and professor of biochemistry in the School of Medicine. “For example, you have to be good at biomedicine, which often involves moving molecules around the lab, and you also have to be able to move very large digital datasets around as well. The goal is to cross train so as to generate students with all the necessary skill sets.”

Dr. Partho Sengupta, of Rutgers University, helped lay the foundation for the project while he was at WVU from 2017 to 2021 as he worked closely with Adjeroh. Sengupta will continue working with his former colleagues at WVU on “Bridges” while at Rutgers.

“During my stay at WVU, clinicians and engineers successively trained cardiovascular research fellows at WVU to become national finalists at the Young Investigator Award Competition at the Annual Scientific session of the American Society of Echocardiography,” Sengupta said. “Now that I have moved to New Jersey, this grant will continue to flourish in developing multi-institutional collaboration.”

Other members of the research team are Nasser Nasrabadi, Xin Li, Don McLaughlin and Brian Powell, all of computer science and electrical engineering; Michael Hu, microbiology, immunology and cell biology; Valarie Blake, law; Brad Price, management information systems; Michael Schaller, biochemistry; and Cathy Morton, Health Sciences and Technology Academy.



Contact: Paige Nesbit
Statler College of Engineering and Mineral Resources
304.293.4135, Paige Nesbit

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