4/19/2021 Health Care Engineering Systems
Illinois ECE Assistant Professors Subhonmesh Bose and Suma Bhat are two of the recipients for the 2021 Jump ARCHES research and development program grant.
Written by Health Care Engineering Systems
Seven research projects are sharing slightly more than $400,000 in funding through the Jump ARCHES research and development program to address challenges and expand on lessons learned about COVID-19 vaccinations and testing. The Jump ARCHES program is a partnership between OSF HealthCare and the Grainger College of Engineering at the University of Illinois Urbana-Champaign (U of I) and its College of Medicine in Peoria. Illinois ECE Assistant Professors Subhonmesh Bose and Suma Pallathadka Bhat are two of the recipients of the Jump ARCHES grant.
The funding supports research involving clinicians, engineers and social scientists to rapidly develop technologies and devices that could revolutionize medical training and health care delivery. A requirement of the grant applications was for solutions that could be deployed quickly, within four to six weeks. Investigators were also encouraged to consider how to best mitigate the impact of age, location, and social barriers in delivering quality health care to vulnerable populations.
“As we develop new vaccines and treatments for COVID-19, it’s also important to take into account societal factors such as age, race, location, infrastructure, and how to best provide for underserved populations. We expect significant changes in how health care is delivered so that it is more accessible for all and are proud to fund projects that spearhead these developments,” said T. Kesh Kesavadas, Ph.D., director of the Health Care Engineering Systems Center at the University of Illinois Urbana-Champaign.
“The outcomes of these projects will help with issues arising from the current pandemic and help physicians apply lessons learned in the post-COVID health care landscape,” said Seth Stutzman, coordinator for the Jump ARCHES grant program.
“With the UK variant now the predominant virus in the U.S., it is critical that we leverage the talent at Jump Trading Simulation and Education Center in Peoria and the brilliant minds within engineering, technology and social science at the U of I. This will help us quickly find much-needed solutions to address the challenges health care faces in developing policies and procedures for mass vaccination, health care delivery, quality and patient safety improvements,” said John Vozenilek, MD, vice president for Innovation and Digital Health at Jump and OSF HealthCare, and professor at the University of Illinois in Peoria and Urbana-Champaign.
Bose's and Bhat's research projects are summarized below:
How to design and operate end-to-end vaccine deployment using social media, addressing supply chain allocations constraints and utilizing telemedicine
Investigators: Anton Ivanov, PhD, U of I; Subhonmesh Bose, PhD, U of I; Albert England III, MD, FIDSA, U of I, UICOMP, OSF HealthCare; Ashen Eren Mehmet, PhD, U of I; Ujjal Mukherjee, PhD, U of I; Sridhar Seshadri, U of I; Sebastian Souyris, Postdoctoral Fellow, U of I; and Yuqian Xu, PhD, U of I
This idea aims to provide a comprehensive vaccine deployment strategy using data analytic frameworks. These frameworks will (1) shape population attitudes towards vaccination by reducing their uncertainty via social media channels, (2) provide a dynamic inventory management tool for perishable or sensitive goods, and (3) develop telemedicine-based solutions for convenient and sufficient post-vaccination patient support.
Building a motivational, interviewing conversational agent (MintBot) for promoting COVID-19 vaccination among people with multiple sclerosis
Investigators: Jessie Chin, PhD, U of I; Suma Bhat, PhD, U of I; Chung-Yi Chiu, PhD, U of I; Jared Rogers, MD, OSF HealthCare; and Brian Laird, PharmD, OSF HealthCare
Individuals with multiple sclerosis are likely to be hesitant to getting the COVID-19 vaccine due to their compromised health condition. This concept aims to develop an accessible, generalizable and efficient digital health solution for promoting COVID-19 vaccination among vulnerable populations, such as people with disabilities.
Bhat is affiliated with the CSL.
Read more about the recipients on the Health Care Engineering Systems Center.