Preserving The Usefulness Of Antibiotics

The historical scourge known as the bubonic plague killed up to one-third of Europe's population in the 1300s. But in modern times, it has been controlled handily with the help of antibiotic drugs such as streptomycin, gentamicin and chloramphenical.

That is, until 1995, when a plague infection in a 16-year-old boy from Madagascar failed to respond to the usual antibiotic treatments.

In the United States and globally, many other infectious germs, including those that cause pneumonia, ear infections, acne, gonorrhea, urinary tract infections, meningitis, and tuberculosis, can now outwit some of the most commonly used antibiotics and their synthetic counterparts, antimicrobials. According to the Mayo Clinic in Rochester, Minn., drug resistance may have contributed to the 58 percent rise in infectious disease deaths among Americans between 1980 and 1992.

Antibiotic resistance isn't a new problem; resistant disease strains began emerging not long after the discovery of antibiotics more than 50 years ago. Penicillin and other antibiotics, which were initially viewed as miracle drugs for their ability to cure such serious and often life-threatening diseases as bacterial meningitis, typhoid fever, and rheumatic fever, soon were challenged by some defiant strains.

"What's different now," explains David Bell, M.D., an expert on antimicrobial resistance with the national Centers for Disease Control and Prevention, "is that we've reached a situation where it's no longer an isolated problem of this bug or that bug; virtually all important human pathogens treatable with antibiotics have developed some resistance."

Despite the frightening trend, most people aren't likely to encounter a "superbug" that can outsmart all antibiotics, says Mark Goldberger, M.D., director of the Food and Drug Administration's division of special pathogen and immunologic drug products. "For the average person walking around on the street, the risk at the moment remains low."

Still, as one antibiotic's effectiveness wanes, doctors are forced in many cases to rely on more expensive and toxic drugs. Resistance is "a big problem and growing," says Linda Tollefson, director of surveillance and compliance in FDA's Center for Veterinary Medicine. "You're dealing with living microbes that have shown an incredible ability to accommodate antibiotics and come out winning. We have no idea what they are going to do next. Our fear is that we're seeing the tip of the iceberg."

To stop infectious germs from gaining ground, experts the world over, including doctors and scientists from FDA, CDC, and the World Health Organization, have been focusing since 1995 on finding ways to prolong the lives of antibiotics and to encourage drug companies to develop new "miracle drugs."