A new study from researchers at The University of Texas at Austin has found that some antivirals are useful for more than helping sick people get better — they also can prevent thousands of deaths and hundreds of thousands of virus cases if used in the early stages of infection.
A new analysis of COVID-19 outbreaks in 58 cities has found that places that took longer to begin implementing social distancing measures spent more time with the virus rapidly spreading than others that acted more quickly
As confirmed cases of COVID-19 began to appear in the U.S., graduating seniors at the University of Texas at Austin looked for ways to apply their scientific expertise toward slowing the spread of the novel coronavirus. In the midst of their own academic careers and personal lives being turned upside down by a pandemic, their work yielded potential solutions to the shortage of coronavirus tests and medical-grade facemasks.
A computer model from the UT COVID-19 Modeling Consortium forecasts daily deaths from COVID-19 as of May 5, 2020. The likelihood that an area has passed its peak in daily deaths is indicated by colors ranging from burnt orange (very low) to dark purple (very high). Credit: University of Texas at Austin.
A University of Texas at Austin model that projects COVID-19 deaths for all 50 U.S. states and dozens of metro areas using geolocation data from cellphones to determine the impact of social distancing within each place finds, in many communities, deaths have likely not yet peaked. The model, originally launched with state data, was updated on April 24 to be the first publicly available model to show projections of deaths also by metro area.
Researchers have examined how COVID-19 would impact 22 metro areas in Texas under scenarios where levels of social distancing differ.
A new pandemic model of COVID-19 shows the positive role social distancing can play in preventing the spread of the illness in areas across the state. The report by researchers in The University of Texas at Austin's College of Natural Sciences projects significantly higher numbers of cases of infection, hospitalizations, intensive care unit admissions and deaths in 22 Texas communities under scenarios in which social distancing measures are moderate.
UPDATE: Revised model projections were released on April 6. Read the full report.
Since 2012 a pandemic-planning tool developed by researchers at The University of Texas at Austin has helped public health officials plan for the consequences of a deadly and virulent virus. Now the pandemic modeler who developed the toolkit is studying COVID-19 and has built a new model to project the spread of COVID-19 across the U.S. She has teamed up with Dell Medical School to assess the potential impact of the pandemic in the Austin-Round Rock area.
Infectious disease researchers at The University of Texas at Austin studying the novel coronavirus were able to identify how quickly the virus can spread, a factor that may help public health officials in their efforts at containment. They found that time between cases in a chain of transmission is less than a week and that more than 10% of patients are infected by somebody who has the virus but does not yet have symptoms.
Texans who are college-educated, live in suburban or urban areas, have higher median incomes and are ethnically white are less likely to vaccinate their children, according to analysis by researchers at The University of Texas at Austin. The findings could help public health officials identify pockets of low vaccination rates where communities within the state are at higher risk for an outbreak of vaccine-preventable diseases such as measles.
Access to vaccines around the world could get easier thanks to scientists at The University of Texas at Austin who have developed an inexpensive and innovative vaccine delivery method that preserves live viruses, bacteria, antibodies and enzymes without refrigeration.
Read our publication, The Texas Scientist, a digest covering the people and groundbreaking discoveries that make the College of Natural Sciences one of the most amazing and significant places on Earth.