SignalsAZ.com Prescott News Podcast - NAU Research Targets Viruses Before Outbreaks Surge
Episode Date: April 24, 2026Send us a text and chime in!For most of us, catching a virus isn’t so bad: We rest, we drink fluids and we’re back on our feet in a few days. But some viruses carry heavier consequences than other...s, and when those viruses spread, public health professionals need to be prepared. That’s where Crystal Hepp comes in. The associate professor in the School of Informatics, Computing, and Cyber Systems was recently awarded two grants from the Arizona Department of Health Services, in collaboration with Arizona State University, to carry out genomic surveillance in wastewater and mosquito pools throughout Arizona and other parts of the desert Southwest.... For the written story, read here >> https://www.signalsaz.com/articles/nau-research-targets-viruses-before-outbreaks-surge/ Check out the CAST11.com Website at: https://CAST11.com Follow the CAST11 Podcast Network on Facebook at: https://Facebook.com/CAST11AZFollow Cast11 Instagram at: https://www.instagram.com/cast11_podcast_network
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For most of us, catching a virus isn't so bad, we rest, we drink fluids and we're back on our feet in a few
days. But some viruses carry heavier consequences than others, and when those viruses spread,
public health professionals need to be prepared. That's where Crystal Hep comes in.
The Associate Professor in the School of Informatics, Computing, and Cyber Systems was recently awarded
two grants from the Arizona Department of Health Services, in collaboration with Arizona State
University, to carry out genomic surveillance in wastewater and mosquito pools throughout Arizona
and other parts of the desert southwest. HEP said her research aims to protect Arizonans
from illnesses that can wreak more havoc than a mild cold. Wastewater surveillance can give us a
head start on understanding which viruses are in our community before there's a big surge,
HEP said. It's a very effective, non-invasive way of keeping people safe, because it helps
our public health partners prepare for surges with messaging, medications and other supplies.
Similarly, genomic epidemiology focused on mosquito-borne viruses can help narrow down viral
hotspots in the environment, allowing for the consideration of more targeted prevention
activities. Scientists have used wastewater to detect the first signs of dangerous viruses
since the 1940s, when both mild and severe strains of polio were circulating throughout the globe.
Wastewater surveillance most recently made headlines in 2020, when public health agencies
shared local wastewater data to warn people and partners about possible surges in COVID-19.
HEPS research, done in collaboration with now PhD students Brooke Schmidt and Paige Hawkinson,
will focus on identifying surges in infectious diseases that sometimes land Arizonans in the hospital,
including respiratory, and taric and mosquito-borne viruses. Protecting Arizona's kids.
In summer 2022, an outbreak of acute hepatitis swept the globe, sickening more than 300 children in
the United States. When the centers for
disease control and prevention tested the sick children, the agency found that nearly half were
infected with HADVF-41, a variant of adenovirus that usually causes gastroenteritis.
Public health agencies were really nervous that this adenovirus was causing all of these
pediatric hepatitis cases, which was something they hadn't really seen before, HEP said.
Some think those cases were driven by a co-infection with HADVF-41 and adeno-associated virus
two, coupled with decreased immunity to several viruses due to reduced exposure during the height
of the COVID pandemic. We're still keeping an eye on HADVF-41, given the rapid onset of cases in 2022.
That's why HEP is working with public health agencies to better understand HADVF-41. She and her colleagues
will extract the virus from wastewater samples in rural and urban areas across northern and central
Arizona, use those samples to sequence the viral genome and map its circulation across
the region over time. Her team will also use those samples to carry out additional genomic
tests to detect viruses that are not anticipated to be circulating. Those tests could help public
health organizations find ways to proactively detect infectious disease threats that may have
high potential for causing disease but that we aren't expecting because we haven't seen them before.
With new technology allowing genomesists to detect whole groups of viruses, rather than just a
single virus per test, HEP's team will also be able to detect surges in all adenoviruses,
interoviruses, coronaviruses and others. There are more than 300 types of interoviruses,
And while some cause little more than sniffles and coughing, others can lead to rash as common in people who have hand, foot and mouth disease, and more rarely, to serious conditions such as acute flaccid myelitis.
Hand, foot and mouth disease is a real problem in daycares, HEP said.
We can assist with messaging to let daycares know that we're seeing an uptick, and then they can implement heightened cleaning strategies to try and decrease transmission.
Fighting the bite.
Viruses like yellow fever, dangee and zika have always been a concern in the valley, where small pools of
stagnant water can attract hordes of mosquitoes. For the last 10 years, Hep said, summer
seasons have alternated between a surge in West Nile virus, WNV, and a surge in St. Louis
encephalitis, SLE. Every summer, one went dormant while the other surged. With summers growing
even hotter and monsoon seasons getting drier, something strange is happening to that predictable cycle.
Usually, they'll oscillate back and forth, one is higher one year, the other is higher the next year,
HEP said. We started to see new seasonality across different years, with the hot summers disrupting
the usual cycle. In 2025, we saw that the two viruses were at near identical proportions.
That was really striking. If co-circulating WNV and SLE is the new normal,
HEP said, it's crucial that the scientific and public health community understands where
these viruses are coming from. Are they familiar variants that have circulated in the valley before?
Or are they new variants that were imported from somewhere else? Knowing the
answer could help public health officials respond to viral surges more effectively. People come into
contact with mosquitoes near-standing water, so they can tell people to fight the bite by taking
care of their standing water, their pools, their birdbaths, their fountains, Hep said. When these
mosquito numbers or viral presence starts to occur, vector control can also carry out insecticide
applications near impacted areas to drive down the spread. By sequencing the genomes of WNV and
SLE variants found in Maricopa County, Hep can work with public health.
health partners to figure out how and when these viruses circulate. That can, in turn, help them
prepare and prevent widespread illness. It's about trying to focus on specific parts of Maricopa
County that the data are telling us to prioritize for mitigation, Hep said. We can create a family
tree of these viruses that shows how they are moving across the landscape, put that information
on a map and give that to public health professionals to help them make decisions that can drive
down the amount of virus in the environment to reduce human infections. Catch up with more local news stories
on Signalsaz.com.
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