Page 1 2 3 4 5

^{Illustration by DZGNBIO}

Human beings have faced new diseases, and more deadly forms of old diseases, all through history. Today fears of an epidemic are on the rise, fueled by reports of exotic infections and antibiotic-resistant "super bugs." Despite sophisticated modern techniques for tracking killer pathogens, figuring out where the next deadly disease will come from-and how to stop it-is not a simple task.

In June 2006, 46 fifth-graders and a dozen younger students in Franklin, Massachusetts, came down with diarrhea, stomach cramps, and fever. Doctors soon confirmed the kids had been infected with Salmonella, a bacterial pathogen usually transmitted through food. Food wasn't the culprit this time, though. This outbreak stemmed from a class project in which the kids had handled owl pellets, the wads of hair, bone, and other indigestible stuff owls regurgitate after a meal. And when public health officials compared the DNA fingerprint of Salmonella isolated from the students and pellets with a nationwide database, they found a match.

"It was a strain which is really localized in Washington State," says Margaret Davis, a veterinary epidemiologist at Washington State University. She studies the type of Salmonella known as Typhimurium and had seen the fingerprint from the Massachusetts case before. "As it turned out, they got the owl pellets from Washington."

Salmonella is a hardy bug that gets around on food, owl pellets, and unwashed hands, among other things. It has been making people sick for centuries and still erupts distressingly often, despite our sophisticated techniques for tracking it. In 1985, Salmonella-tainted milk sickened up to 200,000 people in the Midwest and killed at least two; in 1994, ice cream carrying the bug sickened more than 3,000 people in 41 states.

Like other zoonotic diseases, which pass from animals to humans, Salmonella poses special challenges with respect to detection and control. With zoonotics we don't just have to monitor human cases. Since the pathogens are harbored in animal "reservoirs," we need to be aware of what's going on in animals as well. It's a huge issue; infectious disease is the number-one cause of death for humans worldwide, and many of the most frightening new diseases we face are zoonotics. HIV came from apes; SARS started in civet cats and perhaps bats; Ebola probably originated in bats.

While it often seems as if we see a new epidemic disease every few years, Tom Besser, who heads WSU's zoonotic disease research team, says the perception that outbreaks of scary diseases have become more frequent or more deadly in recent decades is largely due to better detection and reporting.

Still, outbreaks do happen. Besser, Davis, and other WSU researchers are working to figure out how and why. What makes some strains of a bug nastier than others? Why do they emerge when and where they do? Are we more susceptible now than in the past, and if so, why?

Page 1 2 3 4 5

Continued