Deadly pig virus remains a mystery and a threat

Dec. 14, 2015, 6:45 a.m. ·

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A microscope image of Porcine Epidemic Diarrhea, or PED, taken in the Iowa State University Veterinary Diagnostic Lab (Photo courtesy Greg Stevenson, ISU)

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Two years ago a new virus swept through the pork industry, killing millions of baby pigs. Researchers are still trying to track the source of the virus, which appears to be an world-traveler that may have been delivered right to farmers’ barn doors.


A fast-spreading virus never before seen in the United States hit the pork industry more than two years ago, racking up roughly $1 billion in losses and spiking prices for consumers.

While researchers are still trying to track the culprit, it appears to be an intrepid world traveler that may have been delivered directly to farmers’ barn doors, creating an intriguing international back story traced to China.

Harvest Public Media spent months examining the outbreak of Porcine Epidemic Diarrhea (PED) and its haphazard, rapid spread across the country. PED doesn’t threaten food safety or human health, but it does jeopardize the food supply.

What we have pieced together from interviews and public records shows that PED confounded researchers and industry insiders scrambling to contain it. Even so, the U.S. Department of Agriculture stalled for a year on making reporting of the disease mandatory, which could have helped in preventing the devastating spread.

Looking back raises questions: Where did the virus originate? How did it get here? And how did it spread? Looking back may also offer lessons to government and industry officials who have battled two highly-infectious and fast-moving viruses in the heart of farm country in just two years, PED and bird flu.

More from Harvest Public Media on the spread of PED here.


Lab technician Chad Reinke tests samples for the presence of PEDV in the veterinary diagnostic laboratory at Iowa State University. (Photo by Amy Mayer/Harvest Public Media)


Veterinary pathologist and his colleagues at Iowa State University’s Veterinary Diagnostic Lab pushed into high gear when the samples they were looking at didn’t test positive for familiar US swine diseases. (Photo by Amy Mayer/Harvest Public Media)

Spring 2013. Hundreds of baby pigs were dying off and nobody knew what was making them so sick with diarrhea that they succumbed to dehydration. At the Iowa State University Veterinary Diagnostic Lab, pathologist Greg Stevenson had seen plenty of infections. But genetic testing done that spring was telling him the tissue damage under his microscope was not from one of the usual suspects. He and his colleagues were stumped.

“Very quickly we were talking in the hallways and saying, ‘I've had this case, you had that case,’” he said.

It didn’t take long to recognize that they needed to act fast and work with other labs. It was a chaotic time. They wondered if their molecular test for a known virus was bad, so they asked colleagues at the South Dakota State University Animal Disease Research and Diagnostic Laboratory to run genetic tests to see if they could find any known virus. Scientists there, too, were mystified.

“Our pathologists and our scientists down there [in the lab], those guys worked 24 hours, seven days a week until they figured this thing out,”said retired ISU professor Rodney Baker, who was head of the Iowa Pork Industry Center at the time.

One of those guys was Phil Gauger, who oversees molecular testing at the ISU lab. He realized if the old tests weren’t working, something had to give.

“That’s when we sat down and said ‘We need to look in, make sure our test is doing the appropriate thing, and we need to put together a list of differentials,’” Gauger said, “because this could be something different.”

Whether it was foresight or just luck, another one of “those guys,” virologist Kyoung Jin Yoon, had paid attention when his friends in Korea told him about the deadly PED virus. He contacted them for more information about PED.

“At the same time, we [are] always concerned about the emerging of new diseases,” Yoon said.

Just for that reason, Yoon’s team had previously prepared themselves for the possibility of needing a PED test. They pulled that work off the shelf, expanded it to a functional test using internationally-shared genetic data, and discovered that sure enough, PED had arrived in the United States.

At the peak of the outbreak, Gauger said, the ISU lab ran up to 1,000 PED tests. Even now they still do a couple hundred PED tests daily.

So they knew what it was, but the researchers still didn’t know where PED came from, nor how it got here. China seemed the most likely source

“Genetically, [the] virus was very close to the PED virus reported by our Chinese colleagues,” Yoon said. “So in theory we could say maybe [the] virus came from there, but in reality we don't know for sure because we never know how the virus travels, from another country to [the] United States.”

What they did soon know for certain, though, was that tracking the movement of the virus was as challenging as identifying its origin. It was spreading quickly, hopscotching among farms.

August 2013. Farmers in 17 states had battled infections. There was no vaccine to quell the virus and soon researchers and farmers alike would learn that PED thrives in cold weather.

December 2013. Farm-to-farm transmission was so poorly understood, rumors circulated that people could walk into a convenience store following someone from an infected farm and leave with PED on their boots, thereby spreading it back to their own farms. That proved to be unsubstantiated, but the fact that some swine experts, including one at South Dakota State University Extension, considered the rumor plausible underscored how much veterinarians and scientists were working in the dark.

Still, the initial understanding remained that the virus could survive, and be readily moved from one place to another, by hitchhiking on humans, their clothes, trucks, tires, etc. Biosecurity measures such as truck washes and disinfectants for boots sprung up where they hadn’t been and were strengthened where they’d previously existed. But vexingly, many farms that deployed the most advanced biosecurity, notably large hog confinements where showers often were already required upon entering and leaving a barn, became infected.

April 2014. Thirty states were infected, with millions of piglets dead—nearly 10 percent of the total U.S. swine herd. The U.S. Department of Agriculture announced it would make reporting of PED cases mandatory. But the ruling didn’t take effect until June, more than a year after PED was first identified in this country.

We asked Brian McCluskey, USDA’s executive director for science, technology and analysis services, whether an earlier reporting requirement might have changed the outbreak.

“It’s pretty hard to have that kind of hindsight,” McCluskey said. “I think if we'd have had a very clear picture of how rapidly it was spreading by having mandatory reporting, I think we would have been able to institute a little bit more in the way of control procedures earlier. It might have prevented some of the spread.”

Researchers remained stumped about how the virus was moving among farms. But from their work in the field, some swine veterinarians had identified a suspect: farmers could have been directly, albeit unknowingly and unwittingly, giving their animals the virus through feed.

January 2015. At the Iowa Pork Congress in Des Moines, Matt Anderson, a northwest Iowa veterinarian, told a session on PED that he accepted the hypothesis that the virus was moving in feed.

“There were all kinds of anecdotal examples floating around the industry,” Anderson said. “(Farmers saying,) `Hey, I just got this feed delivered and that feed feeds five different barns or five different rooms and it wasn’t until those pigs ate that feed out of that bin that we had PED virus.’”

Since then, other veterinarians have spoken with similar certainty. In 2015, two more states and Puerto Rico have had their first PED cases, bringing the total number of infected states to 35 plus one territory.

A flexible intermediate bulk container, a type of woven fabric shipping tote used on cargo ships and trucks. (Photo courtesy USDA)

September 2015. USDA released a report looking at how PED got here. Working after the fact, going back almost a year after PED arrived, USDA relied on lab-testing hypotheses to evaluate how realistic studies were but couldn’t nail down a definitive answer.

But McCluskey said their best guess was that the virus may have hitched a ride in a flexible intermediate bulk container, a type of woven fabric shipping tote used to send all sorts of things around the world on cargo ships and trucks.

“The USDA definitely did not say that the totes were how these viruses arrived,” McCluskey said. “We're merely stating that this is a potential pathway that has plausibility and has some evidence to support it.”

December 2015. It seems the virus is here to stay. Fortunately, tools have emerged to combat it.

Vaccines are now on the market and are proving potentially profitable. Although terms were not disclosed, Merck Animal Health recently snatched up Harrisvaccines, an Iowa start-up that created the first PED vaccine and received the first conditional license from the USDA to sell it to veterinarians and farmers.

Yet more than two and a half years after the virus arrived, PED researchers are still trying to pin down how it got here, because if one sneaky swine disease can cross oceans and borders undetected, that ratchets up the need for better ways to protect animals.

“We're fairly certain it came from outside the United States and from a certain part of the world and there's lots of other pretty serious pathogens in that part of the world that we want to keep out,” said McCluskey. “So whatever it takes, within economic reason, to do that, I think everybody should work toward that end.”


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Harvest Public Media is a reporting collaboration focused on issues of food, fuel and field. Harvest covers these agriculture-related topics through an expanding network of reporters and partner stations throughout the Midwest.