Media Contact:
Julie Kiefer
Director, Research Communications, 麻豆学生精品版
Email: Julie.Kiefer@hsc.utah.edu
The COVID-19 pandemic spotlighted how a rapid and effective response to infectious disease outbreaks is critical for saving lives and protecting communities. With a $17.5 million, five-year grant from the U.S. Centers for Disease Control and Prevention (CDC), University of Utah researchers, in collaboration with Washington State University, are leading efforts to provide data and tools that guide decisions to improve responses to emerging public health threats in the Mountain West. The center is to work alongside the CDC鈥檚 Center for Forecasting and Outbreak Analytics (CFA) to establish an outbreak response network.
鈥淭he key is to have an effective early response to infectious disease threats,鈥 says Matthew Samore, M.D., the project鈥檚 corresponding principal investigator and professor of internal medicine at the Spencer Fox Eccles School of Medicine at the University of Utah. 鈥淐OVID-19 demonstrated the disruptive power of pandemic infections, but other potential pathogens could be even more damaging.鈥
"The key is to have an effective early response to infectious disease threats."
During the pandemic, disease forecasting and near real-time 鈥渘owcasting鈥 proved to be important tools that guided the public health response. They advised hospitals on how to prepare for patient surges, assisted health departments in planning vaccine distribution, and guided when the public should wear masks. Utah鈥檚 new center, called ForeSITE (Forecasting and Surveillance of Infectious Threats and Epidemics), will act in a similar way to protect communities from novel infectious diseases and existing threats, ranging from antibiotic resistant bacteria to seasonal influenza.
Partnerships with the national Veterans Affairs health system and hospitals and health departments in Utah, Washington, Idaho, and Montana will allow organizations to coordinate responses more quickly across the Mountain West region.
ForeSITE is designed to support decision-makers at every stage of a health threat with data-driven analyses, including:
- Automated alerting that warns of a potential need to investigate and respond
- Parameter estimation to assess the magnitude of risk and to characterize transmission
- Scenario modeling that provides evidence-based support in planning for specific contingencies
- Nowcasting and forecasting to monitor a threat鈥檚 current status and guide when and how to deploy interventions
- Economic impact assessment that provides insights into a disease鈥檚 effects on business and the economy.
鈥淲e see this as a public-academic partnership where we can improve modeling systems and integrate them into day-to-day use in individual health care systems and health departments,鈥 says , the project鈥檚 co-lead and a research assistant professor in the U鈥檚 Department of Internal Medicine. 鈥淭hen, they can run the models when they need them.鈥
Other project co-leads include ., professor of internal medicine; associate professor of internal medicine; and Eric Lofgren, Ph.D., associate professor in the Paul G. Allen School of Global Health at Washington State University.
Using these tools, local health officials will be able customize responses to meet the needs of their communities. People who live in crowded cities, for instance, may benefit from different health measures to control disease transmission than individuals who live in less populated rural areas. ForeSITE models also factor in equity considerations by incorporating data on socioeconomic status, disability, and race. The pandemic had disproportionate effects on Americans of different socioeconomic, racial, and ethnic backgrounds, demonstrating an imperative to mount specialized responses for populations that are predicted to be the hardest hit.
鈥淓ach of the grantees will help us move the nation forward in our efforts to better prepare and respond to infectious disease outbreaks that threaten our families and our communities,鈥 says Dylan George, director of the Center for Forecasting and Outbreak Analytics. 鈥淲e are committed to working alongside these outstanding partners to achieve our goal of using data and advanced analytics to support decision-makers at every level of government.鈥
The national CFA network represents the first step toward creating a nationwide resource to support more effective response during public health emergencies.
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ForeSITE collaborating partners include:
- Utah Department of Health and Human Services
- Intermountain Healthcare
- Salt Lake County Health Department
- TriCounty Health
- Weber-Morgan County Health Department
- Davis County Health Department
- Tooele County Health Department
- University of Montana, Montana Department of Public Health
- Idaho Division of Public Health
- Spokane Health Department
- Whitman County Public Health
- Washington State Department of Health
- Pullman Regional Hospital
- Department of Veterans Affairs
- ARUP Laboratories