Group members: Jeff Bailey, Bert Baumgaertner, Jim Bull, Traci Craig, Florian Justwan, Craig Miller, Dilshani Sarathchandra
Originated: January 2021
Description:
Working Group on Belief Formation explores how beliefs and opinions are formed. This is approached from a multidisciplinary perspective. One goal is to foster logical thinking in our students.
Group members: Naveen Joseph, Erik Coats, Russell Baker, Chantal Vella, Helen Brown, Erich Seamon, Karen Hume, Dan Strawn
Originated: January 2021
Description:
This group is focused upon evaluating the relationship between water quality in surface and groundwater and its links to adverse human health impacts, particularly cancer.
Please mark your calendars and plan to attend the first Seminar Series of the year.
“Mapping Multiscale Human Mobility Changes and Geospatial Modeling of COVID-19 Spread“ presented by
Dr. Song Gao, Director of Geospatial Data Science Lab, University of Wisconsin-Madison
Thursday, January 14, 2021, 12:30 pm PST via Zoom. (Email IMCI or IBEST for the Passcode.)
Abstract: To contain the COVID-19 spread, one of the non-pharmaceutical interventions is social distancing. An interactive web-based mapping platform that provides up-to-date mobility information on how people in different counties and states reacted to the social distancing and stay-at-home orders was developed by the GeoDS Lab at UW-Madison. The web portal integrates geographic information systems (GIS) and daily updated human mobility statistical patterns derived from large-scale anonymized and aggregated smartphone location big data in the United States. A mobility-augmented compartmental epidemic model is developed to help monitor COVID-19 spreading dynamics, inform public health policy, and deepen our understanding of human behavior impacts under the unprecedented public health crisis.
Thank you to reporter Kyle Pfannenstiel for highlighting some of U of I’s COVID-19 modeling efforts, as originally published in the Post Register.
If you’ll be at the dinner table with people you don’t live with this week, research from the University of Idaho can help you gauge how likely you are to bump into someone who has COVID-19.
In Bonneville County, for instance, 1 in 16 people are likely actively transmitting coronavirus, according to estimates Monday morning. In Madison County, that’s about 1 in 10.
Exposure risk is incredibly high, according to health officials, hospital administrators and experts who are pleading with people to practice safety precautions such as masking and distancing if they choose to gather with extended family and friends during Thanksgiving. Last week, the Idaho Falls Fire Chief said the region’s largest EMS system was on “razor’s edge.”
“We’re trying to express things in ways that might relate to people a bit more,” project director Benjamin Ridenhour, a U of I mathematics professor, said of his team’s map.
Determining risk is hard. One way is through rates of spread in an area — calculated by averaging the number of new cases, each week, and dividing that by a region’s population. That’s how most national virus trackers do it.
Or, as Eastern and Southeastern Idaho Public Health districts do, you could determine how many cases are suspected to be active.
Both those measurements don’t include people who have COVID-19 but don’t get tested.
Ridenhour said that “silent” COVID-19 population — asymptomatic people, and people with such minor symptoms they don’t get tested — account for much of the virus’ spread.
“There’s a range of symptoms from being asymptomatic to being life threateningly sick,” Ridenhour said. The Centers for Disease Control says about 40% of all people with the virus don’t ever show symptoms. Ridenhour said “only a small portion of those cases are you going to pick up in surveillance.” That’s because although testing has expanded significantly, “it doesn’t change the fact that you have this huge group of people … who are not going to get tested.”
The U of I exposure risk map is based off a national modeling effortfrom Georgia Tech University researchers. That map lets users plug in the size and location of a gathering to show the odds that someone will have COVID-19 there.
At a gathering of 15 people in Bonneville County, there’s a 52% chance that someone will have COVID-19, according to Georgia Tech estimates on Monday.
These risk displays only say the odds of someone having the virus. They don’t predict the likelihood of spread, nor do they account for whether masks or distancing will be practiced at an event — all things that can significantly reduce the risk of spreading the virus.
Research from the U of I pandemic modeling team comes through a supplemental grant from the National Institutes of Health. Originally, the new modeling team had a five-year grant from NIH for around $11 million. But as the pandemic began, NIH gave the team around $500,000 more to model COVID-19 in rural communities.
“The first focus was on urban communities because that’s where the first outbreaks were,” said principal investigator Holly Wichman, a U of I biology professor who directs the university’s recently started modeling center. New York and Seattle were some of the nation’s first hotspots. “I think people in rural communities felt pretty safe. They felt like … they were naturally isolated; they were naturally distancing. But over time, as the virus spreads into these communities, they’re in some ways less prepared to deal with it.”
“It’s harder to get access to testing; it’s harder to get access to hospitals. Now what we’re seeing is a huge explosion in cases in rural communities,” Wichman said. “If you look at the maps, it’s changed over time. And we knew it was coming. That’s why we proposed this modeling effort.”
The exposure risk map isn’t the only tool the U of I team is working on. Others include a forecast of Idaho’s COVID-19 virus progression, along with a survey on behaviors in rural communities that can help test what resources can help curb virus spread.
This article was written by Alexiss Turner, Marketing and Communications Manager from the College of Engineering, for the recently published “Here We Have Idaho” magazine. IMCI and many of our faculty participants have been very involved in the COVID-19 pandemic response. We are proud to be part of the many research efforts campus-wide that continue to help ensure the health and safety of Idaho residents.Read the article in its entirety here.
U of I Works with Communities to Bring Innovation and Research Expertise in Response to COVID-19 Pandemic
As the global coronavirus (COVID-19) pandemic continues to impact Idaho, experts across the University of Idaho have united to bring innovative solutions to Gem State communities in need and help ensure the health and safety of Idaho residents…
A Cure Through Defense
A research team in the Department of Biological Sciences is working to develop a one-size fits-all drug that could protect human cells from many coronaviruses, including the one responsible for COVID-19.
“Humans have similar genetics,” Department of Biological Sciences Virologist and Assistant Professor Paul Rowley said. “From the point of view of a human protein, a targeted drug therapy could be a universal solution.”
The COVID-19 virus attaches to a human cell using spike proteins that have evolved to dock with the specific ACE2 receptor. Once attached, the spike protein begins transferring genetic material to the cell, tricking the cell to generate more virus.
Rowley is working with Jagdish Patel, a College of Science molecular modeling specialist and research assistant professor, and others to use computational modeling to virtually sift through millions of molecules and optimize existing drugs to identify potential inhibitors that could shield the ACE2 receptor, preventing the virus that causes COVID-19 from docking in the first place.
“By using a computational 3-D map of this human cell receptor, we can determine which virtual molecules, out of thousands, would bind strongly,” said Patel. “Using chemistry and physics-based algorithms, we can rank the binding and visualize the molecule on the computer to see how they bind. The strong binders — which bind as intended — will be purchased and sent to Dr. Rowley’s lab for empirical testing in the fall.”
Working collaboratively with researchers in the Institute for Modeling Collaboration and Innovation has helped the team earn funding needed to keep research developing through the summer and fall semesters.