Topic: This Water Is Nasty - India | |
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World's highest drug levels entering India stream
By MARGIE MASON, AP Medical Writer Margie Mason, Ap Medical Writer – 41 mins ago PATANCHERU, India – When researchers analyzed vials of treated wastewater taken from a plant where about 90 Indian drug factories dump their residues, they were shocked. Enough of a single, powerful antibiotic was being spewed into one stream each day to treat every person in a city of 90,000. And it wasn't just ciprofloxacin being detected. The supposedly cleaned water was a floating medicine cabinet — a soup of 21 different active pharmaceutical ingredients, used in generics for treatment of hypertension, heart disease, chronic liver ailments, depression, gonorrhea, ulcers and other ailments. Half of the drugs measured at the highest levels of pharmaceuticals ever detected in the environment, researchers say. Those Indian factories produce drugs for much of the world, including many Americans. The result: Some of India's poor are unwittingly consuming an array of chemicals that may be harmful, and could lead to the proliferation of drug-resistant bacteria. "If you take a bath there, then you have all the antibiotics you need for treatment," said chemist Klaus Kuemmerer at the University of Freiburg Medical Center in Germany, an expert on drug resistance in the environment who did not participate in the research. "If you just swallow a few gasps of water, you're treated for everything. The question is for how long?" Last year, The Associated Press reported that trace concentrations of pharmaceuticals had been found in drinking water provided to at least 46 million Americans. But the wastewater downstream from the Indian plants contained 150 times the highest levels detected in the U.S. At first, Joakim Larsson, an environmental scientist at the University of Gothenburg in Sweden, questioned whether 100 pounds a day of ciprofloxacin could really be running into the stream. The researcher was so baffled by the unprecedented results he sent the samples to a second lab for independent analysis. When those reports came back with similarly record-high levels, Larsson knew he was looking at a potentially serious situation. After all, some villagers fish in the stream's tributaries, while others drink from wells nearby. Livestock also depend on these watering holes. Some locals long believed drugs were seeping into their drinking water, and new data from Larsson's study presented at a U.S. scientific conference in November confirmed their suspicions. Ciprofloxacin, the antibiotic, and the popular antihistamine cetirizine had the highest levels in the wells of six villages tested. Both drugs measured far below a human dose, but the results were still alarming. "We don't have any other source, so we're drinking it," said R. Durgamma, a mother of four, sitting on the steps of her crude mud home in a bright flowered sari a few miles downstream from the treatment plant. High drug concentrations were recently found in her well water. "When the local leaders come, we offer them water and they won't take it." Pharmaceutical contamination is an emerging concern worldwide. In its series of articles, AP documented the commonplace presence of minute concentrations of pharmaceuticals in U.S. drinking water supplies. The AP also found that trace concentrations of pharmaceuticals were almost ubiquitous in rivers, lakes and streams. The medicines are excreted without being fully metabolized by people who take them, while hospitals and long-term care facilities annually flush millions of pounds of unused pills down the drain. Until Larsson's research, there had been widespread consensus among researchers that drug makers were not a source. The consequences of the India studies are worrisome. As the AP reported last year, researchers are finding that human cells fail to grow normally in the laboratory when exposed to trace concentrations of certain pharmaceuticals. Some waterborne drugs also promote antibiotic-resistant germs, especially when — as in India — they are mixed with bacteria in human sewage. Even extremely diluted concentrations of drug residues harm the reproductive systems of fish, frogs and other aquatic species in the wild. In the India research, tadpoles exposed to water from the treatment plant that had been diluted 500 times were nonetheless 40 percent smaller than those growing in clean water. The discovery of this contamination raises two key issues for researchers and policy makers: the amount of pollution and its source. Experts say one of the biggest concerns for humans is whether the discharge from the wastewater treatment facility is spawning drug resistance. "Not only is there the danger of antibiotic-resistant bacteria evolving; the entire biological food web could be affected," said Stan Cox, senior scientist at the Land Institute, a nonprofit agriculture research center in Salina, Kan. Cox has studied and written about pharmaceutical pollution in Patancheru. "If Cipro is so widespread, it is likely that other drugs are out in the environment and getting into people's bodies." Before Larsson's team tested the water at Patancheru Enviro Tech Ltd. plant, researchers largely attributed the source of drugs in water to their use, rather than their manufacture. In the U.S., the EPA says there are "well defined and controlled" limits to the amount of pharmaceutical waste emitted by drug makers. India's environmental protections are being met at Patancheru, says Rajeshwar Tiwari, who heads the area's pollution control board. And while he says regulations have tightened since Larsson's initial research, screening for pharmaceutical residue at the end of the treatment process is not required. Factories in the U.S. report on releases of 22 active pharmaceutical ingredients, the AP found by analyzing EPA data. But many more drugs have been discovered in domestic drinking water. Possibly complicating the situation, Larsson's team also found high drug concentration levels in lakes upstream from the treatment plant, indicating potential illegal dumping — an issue both Indian pollution officials and the drug industry acknowledge has been a past problem, but one they say is practiced much less now. In addition, before Larsson's study detected such large concentrations of ciprofloxacin and other drugs in the treated wastewater, levels of pharmaceuticals detected in the environment and drinking water worldwide were minute, well below a human dose. "I'll tell you, I've never seen concentrations this high before. And they definitely ... are having some biological impact, at least in the effluent," said Dan Schlenk, an ecotoxicologist from the University of California, Riverside, who was not involved in the India research. And even though the levels recently found in Indian village wells were much lower than the wastewater readings, someone drinking regularly from the worst-affected reservoirs would receive more than two full doses of an antihistamine in a year. "Who has a responsibility for a polluted environment when the Third World produces drugs for our well being?" Larsson asked scientists at a recent environmental research conference. M. Narayana Reddy, president of India's Bulk Drug Manufacturers Association, disputes Larsson's initial results: "I have challenged it," he said. "It is the wrong information provided by some research person." Reddy acknowledged the region is polluted, but said that the contamination came from untreated human excrement and past industry abuses. He and pollution control officials also say villagers are supposed to drink clean water piped in from the city or hauled in by tankers — water a court ordered industry to provide. But locals complain of insufficient supplies and some say they are forced to use wells. Larsson's research has created a stir among environmental experts, and his findings are widely accepted in the scientific community. "That's really quite an incredible and disturbing level," said Renee Sharp, senior analyst at the Washington-based Environmental Working Group. "It's absolutely the last thing you would ever want to see when you're talking about the rise of antibiotic bacterial resistance in the world." The more bacteria is exposed to a drug, the more likely that bacteria will mutate in a way that renders the drug ineffective. Such resistant bacteria can then possibly infect others who spread the bugs as they travel. Ciprofloxacin was once considered a powerful antibiotic of last resort, used to treat especially tenacious infections. But in recent years many bacteria have developed resistance to the drug, leaving it significantly less effective. "We are using these drugs, and the disease is not being cured — there is resistance going on there," said Dr. A. Kishan Rao, a medical doctor and environmental activist who has treated people for more than 30 years near the drug factories. He says he worries most about the long-term effects on his patients potentially being exposed to constant low levels of drugs. And then there's the variety, the mixture of drugs that aren't supposed to interact. No one knows what effects that could cause. "It's a global concern," he said. "European countries and the U.S. are protecting their environment and importing the drugs at the cost of the people in developing countries." While the human risks are disconcerting, Sharp said the environmental damage is potentially even worse. "People might say, 'Oh sure, that's just a dirty river in India,' but we live on a small planet, everything is connected. The water in a river in India could be the rain coming down in your town in a few weeks," she said. Patancheru became a hub for largely unregulated chemical and drug factories in the 1980s, creating what one local newspaper has termed an "ecological sacrifice zone" with its waste. Since then, India has become one of the world's leading exporters of pharmaceuticals, and the U.S. — which spent $1.4 billion on Indian-made drugs in 2007 — is its largest customer. A spokesman for the Pharmaceutical Research and Manufacturers of America, representing major U.S. drugmakers, said they could not comment about the Indian pollution because the Patancheru plants are making generic drugs and their members are branded. A spokesman for the Generic Pharmaceutical Association said the issues of Indian factory pollution are "not within the scope of the activities" of their group. Drug factories in the U.S. and Europe have strictly enforced waste treatment processes. At the Patancheru water treatment plant, the process is outdated, with wastewater from the 90 bulk drug makers trucked to the plant and poured into a cistern. Solids are filtered out, then raw sewage is added to biologically break down the chemicals. The wastewater, which has been clarified but is still contaminated, is dumped into the Isakavagu stream that runs into the Nakkavagu and Manjira, and eventually into the Godawari River. In India, villagers near this treatment plant have a long history of fighting pollution from various industries and allege their air, water and crops have been poisoned for decades by factories making everything from tires to paints and textiles. Some lakes brim with filmy, acrid water that burns the nostrils when inhaled and causes the eyes to tear. "I'm frustrated. We have told them so many times about this problem, but nobody does anything," said Syed Bashir Ahmed, 80, casting a makeshift fishing pole while crouched in tall grass along the river bank near the bulk drug factories. "The poor are helpless. What can we do?" |
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Makes me sick to my stomach that this kind of thing goes on there and in our own country.
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wow
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Very disturbing. Unfortunately not new. Back in the late 70's and early 80's there were problems with U.S. companies not taking proper safe guards. There was also an issue with U.S. companies distributing baby formula and instructing the recipients to mix it with water. They failed to take into count that most of available water was polluted. Unfortunately the names of the companies escape me at the time.
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One reason that companies out source our jobs.
To avoid the strict environmental and worker safety laws in the US. These laws require responsible manufacturing techniques that are vital to the safety of the communities where the factories exist. These laws also raise the cost of the manufacturing processes. India should have realized this. Now the question arises. Should the US allow these unsafe and environmentally unsound practices to take place on our soil and in our communities? Or should we be responsible for enacting legislation like trade tariffs to ensure these companies can compete here at home using American workers and following our stricter safety and environmental regulations! |
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This water isn't very good either.
AP: Drugs show up in Americans' water 3/10/2008 7:30 PM By Jeff Donn, Martha Mendoza and Justin Pritchard, Associated Press A vast array of pharmaceuticals — including antibiotics, anti-convulsants, mood stabilizers and sex hormones — have been found in the drinking water supplies of at least 41 million Americans, an Associated Press investigation shows. To be sure, the concentrations of these pharmaceuticals are tiny, measured in quantities of parts per billion or trillion, far below the levels of a medical dose. Also, utilities insist their water is safe. But the presence of so many prescription drugs — and over-the-counter medicines like acetaminophen and ibuprofen — in so much of our drinking water is heightening worries among scientists of long-term consequences to human health. In the course of a five-month inquiry, the AP discovered that drugs have been detected in the drinking water supplies of 24 major metropolitan areas — from Southern California to Northern New Jersey, from Detroit to Louisville Water providers rarely disclose results of pharmaceutical screenings, unless pressed, the AP found. For example, the head of a group representing major California suppliers said the public "doesn't know how to interpret the information" and might be unduly alarmed. How do the drugs get into the water? People take pills. Their bodies absorb some of the medication, but the rest of it passes through and is flushed down the toilet. The wastewater is treated before it is discharged into reservoirs, rivers or lakes. Then, some of the water is cleansed again at drinking water treatment plants and piped to consumers. But most treatments do not remove all drug residue. And while researchers do not yet understand the exact risks from decades of persistent exposure to random combinations of low levels of pharmaceuticals, recent studies — which have gone virtually unnoticed by the general public — have found alarming effects on human cells and wildlife. "We recognize it is a growing concern and we're taking it very seriously," said Benjamin H. Grumbles, assistant administrator for water at the U.S. Environmental Protection Agency. Members of the AP National Investigative Team reviewed hundreds of scientific reports, analyzed federal drinking water databases, visited environmental study sites and treatment plants and interviewed more than 230 officials, academics and scientists. They also surveyed the nation's 50 largest cities and a dozen other major water providers, as well as smaller community water providers in all 50 states. Here are some of the key test results obtained by the AP: • Officials in Philadelphia said testing there discovered 56 pharmaceuticals or byproducts in treated drinking water, including medicines for pain, infection, high cholesterol, asthma, epilepsy, mental illness and heart problems. Sixty-three pharmaceuticals or byproducts were found in the city's watersheds. • Anti-epileptic and anti-anxiety medications were detected in a portion of the treated drinking water for 18.5 million people in Southern California. • Researchers at the U.S. Geological Survey analyzed a Passaic Valley Water Commission drinking water treatment plant, which serves 850,000 people in Northern New Jersey, and found a metabolized angina medicine and the mood-stabilizing carbamazepine in drinking water. • A sex hormone was detected in San Francisco's drinking water. • The drinking water for Washington, D.C., and surrounding areas tested positive for six pharmaceuticals. • Three medications, including an antibiotic, were found in drinking water supplied to Tucson The situation is undoubtedly worse than suggested by the positive test results in the major population centers documented by the AP. The federal government doesn't require any testing and hasn't set safety limits for drugs in water. Of the 62 major water providers contacted, the drinking water for only 28 was tested. Among the 34 that haven't: Houston, Chicago, Miami, Baltimore, Phoenix, Boston and New York City's Department of Environmental Protection, which delivers water to 9 million people. Some providers screen only for one or two pharmaceuticals, leaving open the possibility that others are present. The AP's investigation also indicates that watersheds, the natural sources of most of the nation's water supply, also are contaminated. Tests were conducted in the watersheds of 35 of the 62 major providers surveyed by the AP, and pharmaceuticals were detected in 28. Yet officials in six of those 28 metropolitan areas said they did not go on to test their drinking water — Fairfax, Va.; Montgomery County in Maryland; Omaha; Oklahoma City; Santa Clara, Calif., and New York City. The New York state health department and the USGS tested the source of the city's water, upstate. They found trace concentrations of heart medicine, infection fighters, estrogen, anti-convulsants, a mood stabilizer and a tranquilizer. City water officials declined repeated requests for an interview. In a statement, they insisted that "New York City's drinking water continues to meet all federal and state regulations regarding drinking water quality in the watershed and the distribution system" — regulations that do not address trace pharmaceuticals. In several cases, officials at municipal or regional water providers told the AP that pharmaceuticals had not been detected, but the AP obtained the results of tests conducted by independent researchers that showed otherwise. For example, water department officials in New Orleans said their water had not been tested for pharmaceuticals, but a Tulane University researcher and his students have published a study that found the pain reliever naproxen, the sex hormone estrone and the anti-cholesterol drug byproduct clofibric acid in treated drinking water. Of the 28 major metropolitan areas where tests were performed on drinking water supplies, only Albuquerque; Austin, Texas; and Virginia Beach; said tests were negative. The drinking water in Dallas has been tested, but officials are awaiting results. Arlington, Texas, acknowledged that traces of a pharmaceutical were detected in its drinking water but cited post-9/11 security concerns in refusing to identify the drug. The AP also contacted 52 small water providers — one in each state, and two each in Missouri and Texas — that serve communities with populations around 25,000. All but one said their drinking water had not been screened for pharmaceuticals; officials in Emporia, Kan., refused to answer AP's questions, also citing post-9/11 issues. Rural consumers who draw water from their own wells aren't in the clear either, experts say. The Stroud Water Research Center, in Avondale, Pa., has measured water samples from New York City's upstate watershed for caffeine, a common contaminant that scientists often look for as a possible signal for the presence of other pharmaceuticals. Though more caffeine was detected at suburban sites, researcher Anthony Aufdenkampe was struck by the relatively high levels even in less populated areas. He suspects it escapes from failed septic tanks, maybe with other drugs. "Septic systems are essentially small treatment plants that are essentially unmanaged and therefore tend to fail," Aufdenkampe said. Even users of bottled water and home filtration systems don't necessarily avoid exposure. Bottlers, some of which simply repackage tap water, do not typically treat or test for pharmaceuticals, according to the industry's main trade group. The same goes for the makers of home filtration systems. Contamination is not confined to the United States. More than 100 different pharmaceuticals have been detected in lakes, rivers, reservoirs and streams throughout the world. Studies have detected pharmaceuticals in waters throughout Asia, Australia, Canada and Europe — even in Swiss lakes and the North Sea. For example, in Canada, a study of 20 Ontario drinking water treatment plants by a national research institute found nine different drugs in water samples. Japanese health officials in December called for human health impact studies after detecting prescription drugs in drinking water at seven different sites. In the United States, the problem isn't confined to surface waters. Pharmaceuticals also permeate aquifers deep underground, source of 40% of the nation's water supply. Federal scientists who drew water in 24 states from aquifers near contaminant sources such as landfills and animal feed lots found minuscule levels of hormones, antibiotics and other drugs. Perhaps it's because Americans have been taking drugs — and flushing them unmetabolized or unused — in growing amounts. Over the past five years, the number of U.S. prescriptions rose 12% to a record 3.7 billion, while non-prescription drug purchases held steady around 3.3 billion, according to IMS Health and The Nielsen Co. "People think that if they take a medication, their body absorbs it and it disappears, but of course that's not the case," said EPA scientist Christian Daughton, one of the first to draw attention to the issue of pharmaceuticals in water in the United States. Some drugs, including widely used cholesterol fighters, tranquilizers and anti-epileptic medications, resist modern drinking water and wastewater treatment processes. Plus, the EPA says there are no sewage treatment systems specifically engineered to remove pharmaceuticals. One technology, reverse osmosis, removes virtually all pharmaceutical contaminants but is very expensive for large-scale use and leaves several gallons of polluted water for every one that is made drinkable. Another issue: There's evidence that adding chlorine, a common process in conventional drinking water treatment plants, makes some pharmaceuticals more toxic. Human waste isn't the only source of contamination. Cattle, for example, are given ear implants that provide a slow release of trenbolone, an anabolic steroid used by some bodybuilders, which causes cattle to bulk up. But not all the trenbolone circulating in a steer is metabolized. A German study showed 10% of the steroid passed right through the animals. Water sampled downstream of a Nebraska feedlot had steroid levels four times as high as the water taken upstream. Male fathead minnows living in that downstream area had low testosterone levels and small heads. Other veterinary drugs also play a role. Pets are now treated for arthritis, cancer, heart disease, diabetes, allergies, dementia, and even obesity — sometimes with the same drugs as humans. The inflation-adjusted value of veterinary drugs rose by 8%, to $5.2 billion, over the past five years, according to an analysis of data from the Animal Health Institute. Ask the pharmaceutical industry whether the contamination of water supplies is a problem, and officials will tell you no. "Based on what we now know, I would say we find there's little or no risk from pharmaceuticals in the environment to human health," said microbiologist Thomas White, a consultant for the Pharmaceutical Research and Manufacturers of America. But at a conference last summer, Mary Buzby — director of environmental technology for drug maker Merck & Co. Inc. — said: "There's no doubt about it, pharmaceuticals are being detected in the environment and there is genuine concern that these compounds, in the small concentrations that they're at, could be causing impacts to human health or to aquatic organisms." Recent laboratory research has found that small amounts of medication have affected human embryonic kidney cells, human blood cells and human breast cancer cells. The cancer cells proliferated too quickly; the kidney cells grew too slowly; and the blood cells showed biological activity associated with inflammation. Also, pharmaceuticals in waterways are damaging wildlife across the nation and around the globe, research shows. Notably, male fish are being feminized, creating egg yolk proteins, a process usually restricted to females. Pharmaceuticals also are affecting sentinel species at the foundation of the pyramid of life — such as earth worms in the wild and zooplankton in the laboratory, studies show. Some scientists stress that the research is extremely limited, and there are too many unknowns. They say, though, that the documented health problems in wildlife are disconcerting. "It brings a question to people's minds that if the fish were affected ... might there be a potential problem for humans?" EPA research biologist Vickie Wilson told the AP. "It could be that the fish are just exquisitely sensitive because of their physiology or something. We haven't gotten far enough along." With limited research funds, said Shane Snyder, research and development project manager at the Southern Nevada Water Authority, a greater emphasis should be put on studying the effects of drugs in water. "I think it's a shame that so much money is going into monitoring to figure out if these things are out there, and so little is being spent on human health," said Snyder. "They need to just accept that these things are everywhere — every chemical and pharmaceutical could be there. It's time for the EPA to step up to the plate and make a statement about the need to study effects, both human and environmental." To the degree that the EPA is focused on the issue, it appears to be looking at detection. Grumbles acknowledged that just late last year the agency developed three new methods to "detect and quantify pharmaceuticals" in wastewater. "We realize that we have a limited amount of data on the concentrations," he said. "We're going to be able to learn a lot more." While Grumbles said the EPA had analyzed 287 pharmaceuticals for possible inclusion on a draft list of candidates for regulation under the Safe Drinking Water Act, he said only one, nitroglycerin, was on the list. Nitroglycerin can be used as a drug for heart problems, but the key reason it's being considered is its widespread use in making explosives. So much is unknown. Many independent scientists are skeptical that trace concentrations will ultimately prove to be harmful to humans. Confidence about human safety is based largely on studies that poison lab animals with much higher amounts. There's growing concern in the scientific community, meanwhile, that certain drugs — or combinations of drugs — may harm humans over decades because water, unlike most specific foods, is consumed in sizable amounts every day. Our bodies may shrug off a relatively big one-time dose, yet suffer from a smaller amount delivered continuously over a half century, perhaps subtly stirring allergies or nerve damage. Pregnant women, the elderly and the very ill might be more sensitive. Many concerns about chronic low-level exposure focus on certain drug classes: chemotherapy that can act as a powerful poison; hormones that can hamper reproduction or development; medicines for depression and epilepsy that can damage the brain or change behavior; antibiotics that can allow human germs to mutate into more dangerous forms; pain relievers and blood-pressure diuretics. For several decades, federal environmental officials and non-profit watchdog environmental groups have focused on regulated contaminants — pesticides, lead, PCBs — which are present in higher concentrations and clearly pose a health risk. However, some experts say medications may pose a unique danger because, unlike most pollutants, they were crafted to act on the human body. "These are chemicals that are designed to have very specific effects at very low concentrations. That's what pharmaceuticals do. So when they get out to the environment, it should not be a shock to people that they have effects," says zoologist John Sumpter at Brunel University in London, who has studied trace hormones, heart medicine and other drugs. And while drugs are tested to be safe for humans, the timeframe is usually over a matter of months, not a lifetime. Pharmaceuticals also can produce side effects and interact with other drugs at normal medical doses. That's why — aside from therapeutic doses of fluoride injected into potable water supplies — pharmaceuticals are prescribed to people who need them, not delivered to everyone in their drinking water. "We know we are being exposed to other people's drugs through our drinking water, and that can't be good," says Dr. David Carpenter, who directs the Institute for Health and the Environment of the State University of New York at Albany. |
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WHAT'S IN THE WATER?
At least one pharmaceutical was detected in tests of treated drinking water supplies for 24 major metropolitan areas, according to an Associated Press survey of 62 major water providers and data obtained from independent researchers. Only 28 tested drinking water. Three of those said results were negative; Dallas says tests were conducted but results are not yet available. Thirty-four locations said no testing was conducted. Test protocols varied widely. Some researchers looked only for one pharmaceutical or two; others looked for many. Some water systems said tests had been negative, but the AP found independent research showing otherwise. Both prescription and non-prescription drugs were detected. Because coffee and tobacco are so widely used, researchers say their byproducts are good indicators of the presence of pharmaceuticals. Thus, they routinely test for, and often find, both caffeine and nicotine's metabolite cotinine more frequently than other drugs. TESTED POSITIVE Arlington, Texas: 1 (unspecified pharmaceutical) Atlanta: 3 (acetaminophen, caffeine and cotinine) Cincinnati: 1 (caffeine) Columbus, Ohio: 5 (azithromycin, roxithromycin, tylosin, virginiamycin and caffeine) Concord, Calif.: 2 (meprobamate and sulfamethoxazole) Denver: (unspecified antibiotics) Detroit: (unspecified drugs) Indianapolis: 1 (caffeine) Las Vegas: 3 (carbamazepine, meprobamate and phenytoin) Long Beach, Calif.: 2 (meprobamate and phenytoin) Los Angeles: 2 (meprobamate and phenytoin) Louisville: 3 (caffeine, carbamazepine and phenytoin) Milwaukee: 1 (cotinine) Minneapolis: 1 (caffeine) New Orleans: 3 (clofibric acid, estrone and naproxen) Northern New Jersey: 7 (caffeine, carbamazepine, codeine, cotinine, dehydronifedipine, diphenhydramine and sulfathiazole) Philadelphia: 56 (including amoxicillin, azithromycin, carbamazepine, diclofenac, prednisone and tetracycline) Portland, Ore.: 4 (acetaminophen, caffeine, ibuprofen and sulfamethoxazole) Riverside County, Calif.: 2 (meprobamate and phenytoin) San Diego: 3 (ibuprofen, meprobamate and phenytoin) San Francisco: 1 (estradiol) Southern California: 2 (meprobamate and phenytoin) Tucson: 3 (carbamazepine, dehydronifedipine and sulfamethoxazole) Washington, D.C.: 6 (carbamazepine, caffeine, ibuprofen, monensin, naproxen and sulfamethoxazole) TESTED NEGATIVE Albuquerque: tests negative Austin, Texas: tests negative Virginia Beach: tests negative DID NOT TEST Baltimore Birmingham, Ala. Boston Charlotte Chicago Cleveland Colorado Springs El Paso Fairfax, Va. Fort Worth Fresno, Calif. Honolulu Houston Jacksonville, Fla. Kansas City, Mo. Memphis Mesa, Ariz. Miami Nashville New York City Oakland Oklahoma City Omaha Orlando Phoenix Sacramento San Antonio Prince George's and Montgomery counties, Md. San Jose, Calif. Santa Clara, Calif. Seattle Suffolk County, N.Y. Tulsa Wichita TESTED, RESULTS PENDING Dallas |
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ILL EFFECTS?
Troubled by drugs discovered in European waters, poisons expert and biologist Francesco Pomati set up an experiment: He exposed developing human kidney cells to a mixture of 13 drugs at levels mimicking those found in Italian rivers. There were drugs to fight high cholesterol and blood pressure, seizures and depression, pain and infection, and cancer, all in tiny amounts. The result: The pharmaceutical blend slowed cell growth by up to a third suggesting that scant amounts may exert powerful effects, said Pomati, who works at the University of New South Wales in Sydney, Australia. Taken alone, this was a modest study. But in fact Pomati's work is part of a body of emerging scientific studies that indicate that over time, humans could be harmed by ingesting drinking water contaminated with tiny amounts of pharmaceuticals. In another recently published study, Pomati discovered that some of those pharmaceuticals could amplify or reverse the effects of some others. And Pomati's work indicates some drugs cause cellular effects at scant concentrations that strangely cannot be seen at higher levels. Such findings are preliminary; they alone cannot demonstrate the same effects within the human body. But they provide scientific hints, just like cellular experiments that routinely guide discovery of new drugs. They also heighten worry about the possible effects on especially vulnerable groups, like the very young, old or sick. "My wife is pregnant, and I don't let my wife drink the water ...," said Pomati. Elsewhere in the world, other researchers are finding results similar to Pomati's. In research awaiting publication, human breast cancer cells grew twice as fast when exposed to estrogens taken from catfish caught near untreated sewage overflows in Pennsylvania, compared with other fish. The University of Pittsburgh researchers didn't calculate how much effect came from pharmaceuticals instead of natural hormones, but their earlier work points to birth-control pills and hormone treatments as important contributors, said lead researcher Conrad Volz. "There is the potential for an increased risk for those people who are prone to estrogenic cancer," said Volz, who studies environmental hazards at the university's Cancer Institute. He said people who regularly drink water containing low levels of hormones may be at higher risk, since they would presumably consume more of these drugs than those who only occasionally eat such fish. Scientists at the Helmholtz research center in Leipzig, Germany, linked low levels of the pain reliever diclofenac to an inflammatory-like response in human blood cells, according to biologist Kristin Schirmer. Inflammation at the wrong time and place plays a role in conditions ranging from infections and arthritis to heart disease. Sandra Steingraber, a biologist at New York's Ithaca College, adds that many efforts to determine how trace drugs affect humans don't fully consider the whole range of pharmaceuticals in the environment and whether someone has been exposed at more susceptible times, like during childhood or old age. "The timing makes the poison as much as the dose," she said. "And the dose itself is not the dose from just any one thing it's from this whole kaleidoscope of chemicals." Taking notice of accumulating evidence, the drug industry has backed studies of its own in recent years that have found very slight, if any, risk to humans. But these studies haven't used water samples analyzed for drugs. Instead, the studies estimate danger from what's known about how much of a drug is sold and how toxic it is to animals. Then, safety margins are added for unknowns, such as possible effects of decades of exposure. Those margins are just educated guesses. Also, the studies usually ignore what might happen to people exposed to the complex combinations of medicines that are often found in drinking water. Then, there are the byproducts of the drugs. When medications are digested and processed through water treatment plants, they may take a new metabolic form. "They miss some of the big issues. Our research shows mixtures are so prevalent," said Dana Kolpin, a U.S. Geological Survey water expert who launched a plethora of research in 2002 after finding pharmaceuticals in most samples taken from 139 streams in 30 states. "If there are any cumulative or additive issues, you can't just dismiss things so quickly." Even if Kolpin is right, the industry may be focusing on the wrong pharmaceuticals, said chemist James Shine at the Harvard School of Public Health, who oversaw what's probably the broadest risk review yet, a yet-to-be-published study covering scores of the most common drugs sold in the United States. As suspected, some chemotherapy drugs turn up high on that list. But blood-pressure diuretics, though rarely considered, appear to pose more risk than many drugs more often evaluated. Even when researchers downplay risk, that may not be the final word. People "are going to be concerned about being medicated by mandate when you turn on the tap," said Dr. Stevan Gressitt, a psychiatrist who's led a push for a program in Maine that allows consumers to turn in unused pharmaceuticals for secure disposal or destruction. "And that's going to be seen if the level is (only) one molecule in 100 taps." -- The Associated Press http://www.usatoday.com/news/health/2008-03-09-water_N.htm |
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Yikes!
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Edited by
Winx
on
Sun 01/25/09 06:11 PM
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St. Louis water:
City Water Division wins title of “Best Tasting City Water in America” A series of blind taste tests have confirmed what many St. Louisans have believed for years—City of St. Louis drinking water is the best tasting in the country. The US Conference of Mayors City Water Taste Test Competition started with an initial field of 93 which was reduced to 15 contenders in 1st round taste testing held in Washington, D.C. June 6, 2007. A second round of judging was conducted by a selected panel of judges including: the proprietor of the Palm Restaurant in Washington, D.C., the Assistant Administrator for the Office of Water of the U.S. Environmental Protection Agency, and an environmental reporter for the Washington Post Newspaper. Using the criteria of taste, aroma, and clarity, the judges conducted a blind taste test and chose the five finalists: Anaheim, CA; Colorado Springs, CO: Long Beach, CA: St. Louis, MO: and Toledo, OH. Two weeks later, at the 75th annual meeting in Los Angeles, CA hundreds of mayors attending the conference from across our nation participated in the blind taste test using the same criteria to pick the winner. The results were decisive, the City of St. Louis has the best tasting City Water in America. St. Louis Mayor Francis G. Slay, who accepted the award on behalf of the City and The St. Louis Water Division stated that, “We in St. Louis always knew we had great tasting water. I am proud of the men and women of our water department for their work and dedication in making St. Louis water clean, safe and delicious.” Water Commissioner David A. Visintainer echoed Mayor Slay’s sentiments. While noting that St. Louis City Water is purified by a complex and multistage treatment process, Commissioner Visintainener credit to the “dedicated people that work around the clock to provide our valued customers and neighbors with the best possible drinking water we can produce”. The photograph above pictures City of St. Louis Mayor Francis G. Slay accepting the “Best Tasting City Water in America” award and a check for $15,000 at the U.S. Conference of Mayors Award Ceremony. |
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I watch what I drink, I couldn't tell you the last time I sucked down a glass of poison from the tap.
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Even after 8 years of Bush with the worst environmental record of any US President Our citizens are a lot safer from pollutants which will cause harm than India where American companies get away with unsafe manufacturing and safety practices every day!
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I watch what I drink, I couldn't tell you the last time I sucked down a glass of poison from the tap. I still drink tap water. |
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Makes me sick to my stomach that this kind of thing goes on there and in our own country. It's scary to me, Boo. |
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