A new study from researchers at the University of Texas at Austin has found that some antivirals are useful in preventing deaths if used early.
Antiviral medications could help sick people get better and prevent thousands of deaths and hundreds of thousands of virus cases if used in the early stages of infection. The study, published in the journal Nature Communications, focused on influenza and has implications for the coronavirus that causes COVID-19. By modeling the impact of a pair of leading flu drugs, the team found significant differences in effects between oseltamivir, an older antiviral treatment for flu that patients know by the name Tamiflu, and a newer one, baloxavir, which is sold under the brand name Xofluza.
‘Treating even few infected patients with baloxavir immediately after the onset of symptoms can indirectly prevent millions of infections and save thousands of lives during a typical influenza season.’
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The researchers found that the newer treatment -- by effectively and rapidly stopping virus replication -- dramatically reduced the length of time that an infected person is contagious and, therefore, better limited the spread of flu.Read More..
"We found that treating even 10% of infected patients with baloxavir shortly after the onset of their symptoms can indirectly prevent millions of infections and save thousands of lives during a typical influenza season," said Robert Krug, a professor emeritus of molecular biosciences, writing for a blog that accompanied the paper.
Early basic research discoveries by Krug informed the development of baloxavir.
Krug and a team of epidemiological modelers headed by Lauren Ancel Meyers, a professor of integrative biology, concluded from the study that having a similarly effective antiviral treatment for the coronavirus would help to prevent thousands of infections and deaths. Creating such an antiviral would take time and new strategies in public health planning, but the benefits for patients, communities and health care settings could be profound.
"Imagine a drug that quashes viral load within a day and thus radically shortens the contagious period," said Meyers, who models the spread of viruses including the virus that causes COVID-19. "Basically, we could isolate COVID-19 cases pharmaceutically rather than physically and disrupt chains of transmission."
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"It may seem counterintuitive to focus on treatments, not for the critically ill patient in need of a life-saving intervention, but rather for the seemingly healthy patient shortly after a COVID-19 positive test," Krug said. "Nonetheless, our analysis shows that the right early-stage antiviral treatment can block transmission to others and, in the long run, may well save more lives."
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Source-Eurekalert