참고자료

[광우병] 당신이 캘리포니아 광우병에 대해 걱정해야만 하는 이유(Tom Philpott/Mother Jones)

마더존스에 실린 톰 필포트의 글

““’여기 별 볼것 없으니 그냥 지나가세요’ 이것이 미국의 광우병 케이스에 대한 미국정부 입장이다. 그러나 두가지 점이 문제다.
첫째는 미국소의 광우병 검사비율이 너무 적다는 것이다. 0.1%. 유럽에서라면 이번에 문제가 된 소처럼 주저앉는 소는 48개월
이상이라면 모두 검사대상이고 건강한 소라도 6년이상이면 전수검사대상이라는 점이다. 이번처럼 우연히 발견되는 일은 없다. 두번째는
미국에서는 여전히 동물성 사료가 허용되어 소가 소단백질을 통해 사육된다는
것이다. 이번에 L type으로 추정된다는 비정형성 광우병은 실험실연구상에서는 유럽에서 발생한 전형적 광우병 보다 전염성이 더
강하다. 비정형성 광우병이 일반적으로 자연발생적으로 발생한다 해도(사료원인을 배제할 수는 없지만), 미국에서 여전히 사료로 소의
시체가 쓰이는 이상 비정형성 광우병도 광우병의 원인이 된다는 것이다.”

http://www.motherjones.com/tom-philpott/2012/04/mad-cow-california

Why You Should Be Worried About the California Mad Cow Case

| Fri Apr. 27, 2012 10:50 AM PDT

Move along, nothing to see here.

That sums up the USDA’s public reaction to news that a downed
California dairy cow was discovered to have contracted bovine spongiform
encephalopathy, also known as mad cow disease. The cow had an
“atypical” case of BSE, one that likely doesn’t come from BSE-infected
feed, but rather from a genetic mutation, the agency insists.

Moreover, it never came close to entering the food supply, USDA
stressed—it had shown up dead at a rendering facility, where it was
randomly chosen for testing as part of the USDA’s BSE-testing program.
USDA chief Tom Vilsack, ever ready to jump to the meat industry’s aid at a time of need, declared on CNN, “I’m having beef tonight for dinner. And that’s no lie.”

Global food and health agencies echoed the USDA’s assessment, Bloomberg reports:
“The U.S. finding of a case of mad cow disease shows the country’s
surveillance system is working, according to the United Nations’ Food
& Agriculture Organization and the World Organisation for Animal
Health.”

Let me raise two uncomfortable points about this case.

• The idea that the discovery of this BSE-stricken cow
proves that the US “surveillance system is working” is, well,
ludicrous.
The cow showed up at Baker Commodities,
a California company plant that buys spent cows from California’s vast
dairy industry and renders them into various pet and livestock feed
products.

Here’s how a Baker executive described the discovery to Business Week:

“We randomly pick a number of samples throughout the year, and this
just happened to be one that we randomly sampled,” Baker Commodities
executive vice president Dennis Luckey said. “It showed no signs” of
disease.

So when the rendering plant picked up the infected cow, it was just another dead cow to be rendered. However, in an update
released Thursday afternoon, the USDA revealed that the animal was
“humanely euthanized” on the dairy farm where it lived, “after it
developed lameness and became recumbent.” Apparently, the dairy farm did
not communicate with the rendering plant that the cow had gone lame,
and thus was a good candidate for BSE infection.

Altogether, the USDA program tests about 40,000 cows a year for mad
cow—a tiny fraction of the millions that are slaughtered or otherwise
die each year. (Bloomberg puts the portion tested annually at “less than 0.1 percent of the U.S. cattle herd.”) By contrast, in the European Union,
all sick or downed cattle over the age of 4 years old, all healthy
cows over six years, are tested before being slaughtered or rendered.
The California cow, the USDA said in its Thursday statement, was 10
years and seven months old—so it would have been automatically tested
in Europe.

The USDA currently tests less than 0.1 percent of the US cattle herd for Mad Cow Disease.

So rather than representing a triumph of the system, the California
discovery represents a lucky break. Other BSE-infected cows could be
getting rendered into livestock and pet feed, and no one would know.

As Michael Hansen, senior staff scientist at Consumers Union, put it
in a statement, “We really don’t know if this is an isolated unusual
event or whether there are more cases in US beef. Our monitoring
program is just too small.”

• The California cow’s BSE might have come from feed—and cows are still being fed cow protein. Now,
as noted above, the USDA reports that the California case had
“atypical” BSE, which, it says, is thought to derive spontaneously, not
from feed. “USDA confirmed the animal was positive for atypical BSE, a
very rare form of the disease not generally associated with an animal
consuming infected feed,” the USDA wrote in a Wednesday statement.
In a Friday morning email, a USDA press officer confirmed to me that
the atypical BSE in question is of the L-type, which, as I showed in my last post,
has been shown under lab conditions to be far more virulent than what
scientists call “classical” BSE, the kind that wrought havoc in the UK
in the 1990s.

The feed question is vital. If the cow indeed developed BSE through
some genetic mutation and not through feed, then this particular mad
cow instance can be viewed as a random and extremely rare event. But if
feed was the pathway, then we have to ask hard—and for the dairy and
beef industries, extremely uncomfortable—questions about just what
we’re feeding our nation’s vast herd of cows. And if that cow contracted BSE from what it ate, wouldn’t other cows have been exposed, too?

Paul Brown, a scientist retired from the National Institute of
Neurological Diseases and Stroke, questions the USDA’s assertion that
atypical BSE isn’t associated with feed. “The most likely explanation is
that it arises from the same source as typical BSE,” he said, which is
infected feed. He added that it’s a “theoretical possibility” that the
California BSE case arose spontaneously, but “there’s no evidence for
it.”

Linda Detwiler, a clinical professor in the Department of
Pathobiology and Population Medicine at Mississippi State University,
told me via phone that the current scientific thinking is that
“atypical” BSE types do probably arise spontaneously, but “feed
certainly can’t be ruled out.” Ermias Belay, associate director for
epidemiological science at the CDC’s  Division of High-Consequence
Pathogens and Pathology, echoed that assessment in a phone interview.

Now, back in 1997, in response to the UK mad cow crisis, the FDA banned the longstanding practice of feeding rendered cow protein to cows,
and in 2008 banned “the tissues that have the highest risk for
carrying the agent thought to cause BSE”—brains and spinal tissue from
cows older than 30 months—from animal feed altogether.

But there is still at least one pathway through which cow proteins
move into cow feed: the practice of feeding “poultry litter”—poultry
feces mixed with bedding, spilled feed, and chicken carcasses—to cows.
How does that bring cow protein into cow diets?

Meat and bone meal from cows is explicitly
banned from cow diets. But it ends up in chicken feed; a significant
amount of it spills into bedding and ends up in poultry litter; and
poultry litter gets fed back to cows.

Let’s go back to that rendering plant in California, Baker Commodities,
where the current case of BSE was discovered. Rendering plants like
Baker buy downed cows and other animals and transform them into a
variety of products, including feed for chickens. Here’s how it describes one of its products, “protein meal”:

Meat and bone meal produced from the rendering process is used as a
protein and energy supplement in poultry and swine feed and may also be
utilized as an ingredient in the manufacture of pet food.

Now, meat and bone meal from cows is explicitly banned from cow
diets. But it ends up in chicken feed; a significant amount of it
spills into bedding and ends up in poultry litter; and poultry litter
gets fed back to cows.

Official numbers on just how much poultry litter ends up in bovine
diets is hard to come by. But with corn and soy prices at heightened
levels in recent years, feedlot operators are always looking for
cheaper alternatives, and poultry litter is very much in the mix.
Consumer Union’s Michael Hansen claims that 2 billion pounds of chicken
litter are consumed by cows each year—as much as a third of which
consists of spilled feed, including bovine meat and bone meal. The
University of Missouri’s agricultural-extension service explains
chicken litter’s appeal like this:

Beef cattle have the ability to digest low-cost feedstuffs that are
not usable by other livestock species. One such feedstuff is poultry
litter, which provides opportunities for both the poultry producer and
the beef cattle producer. The large quantities of litter produced
during modern poultry production are expensive to dispose of safely;
moreover, protein is typically the most expensive ingredient in
ruminant diets. Feeding poultry litter is a means of disposing of a
waste product while concurrently supplying a low-cost protein feed to
beef cattle.

It’s important to note that the dairy industry, too, utilizes chicken litter.

Now, it’s also important to note, as I wrote above, that the FDA
banned the use of “the tissues that have the highest risk for carrying
the agent thought to cause BSE”—brains and spinal tissue from cows
older than 30 months—from being rendered into any animal feed,
including chicken feed, in 2008.

But other cow parts can also carry the infections. For classical
BSE, Detwiler told me that “current research shows that the infection
moves from the intestines up to the spinal column through the nerves.”
Tonsils, too, can carry the infection. Intestines, nerve tissue, and
tonsils, of course, are fair game to be rendered into chicken feed. “In
essence, you’re allowing ruminant protein to be fed back to
ruminants,” she said.  

As for atypical L-type BSE, like the one found in California, “we’re
just really starting to get results on that—we just don’t know” what
parts are infectious. She said some evidence has arisen suggesting that
lymphoid tissue in cows infected with atypical BSE have “abnormal
prion protein.”

Detwiler pointed to the European Commission’s feed ban as a better way to keep all
bovine protein out of bovine diets. It lays out a simple principle for
keeping cow protein out of cow diets: it prohibits the “use of
processed animal protein (PAP) in feed for farmed animals.”

“If I had my druthers, poultry litter would not be allowed in cow feed,” she said.

Detwiler raises another important point regarding feed. Even if the
case of BSE in California arose spontaneously—and even if atypical BSE
in general has so far been arising spontaneously when it has been found
in Europe—it also seems to be quite infectious. As the CDC’s Belay
told me, “all of these prion-related diseases are transmissible through
infected material.”  If that infected cow in California hadn’t been
randomly selected for testing, it could have ended up being rendered
for poultry feed—and ultimately fed back to cattle.

But even more than the chicken-litter issue, what concerns Detwiler
is the issue of compliance. “There hadn’t been a case in six years,”
she pointed out. “Hopefully, [rendering plants] are removing brains and
spinal columns with care,” she said. “There’s a tendency with anything
to let the guard down—my message would be that we really can’t get
complacent on this issue.”

While the USDA is downplaying the public health ramifications of the
California BSE case, US public health officials should see it as a
kick in the pants. It’s time to ramp up the testing of cows—and Europe
has proven it can be done economically. And it’s time to ban all cow
protein from animal feed—or, at the very least, get chicken litter out
of cow diets.

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