Tuesday, September 26, 2017

The Post-Antibiotic Era Is Here. Now What? | WIRED

When Alexander Fleming came back from a Scottish vacation in the summer of 1928 to find his London lab bench contaminated with a mold called Penicillium notatum, he kicked off a new age of scientific sovereignty over nature. Since then, the antibiotics he discovered and the many more he inspired have saved millions of lives and spared immeasurable suffering around the globe. But from the moment it started, scientists knew the age of antibiotics came stamped with an expiration date. They just didn't know when it was.

Bacterial resistance to antibiotics is both natural and inevitable. By the luck of the draw, a few bacteria will have genes that protect them from drugs, and they'll pass those genes around—not just to their progeny, but sometimes to their neighbors too. Now, computational epidemiologists are finally getting the data and processing to model that phenomenon. But no one's using these tools to predict the end of the antibiotic era—because it's already here. Instead, they're focusing their efforts on understanding how soon resistant bacteria could be in the majority, and what, if anything, doctors can do to stop them.

In 2013, then-director of the Centers for Disease Control and Prevention Tom Frieden told reporters, "If we're not careful, we will soon be in a post-antibiotic era." Today, just four years later, the agency says we've arrived. "We say that because pan-resistant bacteria are now here" says Jean Patel, who leads the CDC's Antibiotic Strategy & Coordination Unit. "Folks are dying simply because there is no antibiotic available to treat their infection, infections that not too long ago were easily treatable."

Last August, a woman in her 70s checked into a hospital in Reno, Nevada with a bacterial infection in her hip. The bug belonged to a class of particularly tenacious microbes known as carpabenem-resistant Enterobacteriaceae, or CREs. Except in addition to carpabenem, this bug was also resistant to tetracycline, and colistin, and every single other antimicrobial on the market, all 26 of them. A few weeks later she developed septic shock and died.

For public health officials like Patel, that case marks the end of an era, and the beginning of a new one. Now, the question is: How fast is that kind of pan-resistance going to spread? "When does it get to the point where it's more common to have an infection that can't be treated with antibiotics than one that can?" says Patel. "That's going to be a very hard thing to predict."

More ...

https://www.wired.com/story/the-post-antibiotic-era-is-here-now-what/