Scientists skeptical as athletes get all taped up

Reuters – 2 hrs 17 mins ago LONDON (Reuters) - German beach volleyball player Ilka Semmler wears it on her buttocks - in pink. Swedish handball player Johanna Wiberg prefers it in blue from her knee to her groin. British sprinter Dwain Chambers has even worn it with a Union Jack design.

Athletic tape made in every color under the sun seems to be the latest must-have sports injury treatment at London 2012, where athletes may have been influenced by other big name tape fans such as Serena Williams and David Beckham.

Called Kinesio tape and developed by a Japanese doctor more than 30 years ago, the adhesive strapping is designed to provide muscle and joint support without restricting movement.

According to Kinesio's product website, it is also designed to be used with a particular taping technique - a skill practitioners need to learn on a special training course.

More than 4,000 people in Britain are now trained in the art of Kinesio taping, it says, and many of them look after some of the country's top sportsmen and women.

But does it really work?

Compared with the abundance of its use, rigorous scientific research on Kinesio tape is scant. But a handful of research papers suggest its ability to relieve pain or improve muscle strength is limited.

"Kinesio tape may be of some assistance to clinicians in improving pain-free active range of movement immediately after tape application for patients with shoulder pain," wrote scientists in one study published in the Journal of Orthopaedic and Sports Physiotherapy.

But the researchers added their findings did not support the use of Kinesio tape for decreasing pain intensity or disability in patients with shoulder problems.

SCIENTIFICALLY SUPPORTED?

In a review of all the scientific research so far, published in the Sports Medicine journal in February, researchers found "little quality evidence to support the use of Kinesio tape over other types of elastic taping in the management or prevention of sports injuries".

Kevin Anderson, managing director of Kinesio UK, which supplies the tape in Britain and trains people in how to apply it, says the scientific research has yet to catch up with what athletes and physiotherapists say about the tape's benefits.

"There's a lot more needed on the research side to confirm the positive results we're seeing so far," he told Reuters.

"There's nothing magical in the tape, it certainly can't improve your performance or make you into Superman, but the way people use the tape is to lift the skin, reduce the pressure and that helps relieve pain and swelling."

Whatever the science, German beach volleyball player Sara Goller sported two long pink strips of the tape on her left leg during matches on Tuesday, while her partner Laura Ludwig had two vertical blue strips on her stomach.

"I don't really mind the color, it's more about what it does. It can release or put tension on a muscle, it depends on what you want. Our physio is really good at doing it," Goller told Reuters.

FADS, FASHIONS AND PLACEBOS

John Brewer, a professor of sports science at Britain's University of Bedfordshire, remains doubtful.

"As a scientist, I'm still not convinced about the underlying mechanisms," he told Reuters, voicing skepticism about the supposed 'lifting' effect and the ability of tape applied to the skin to enhance the performance of muscles deep inside the body.

Steve Harridge, a professor of human and applied physiology at King's College London, said many athletes appeared to be wearing tape even when they had no injury, possible hoping for some preventative or enhancing effect.

"It may be a fashion accessory, and it may be just one of those fads that come along from time to time, but to my knowledge there's no firm scientific evidence to suggest it will enhance muscle performance," he told Reuters.

Both scientists agreed, however, that there may be a benefit, in the form of the placebo effect.

"The fact that athletes think it's going to do them some good can help in a psychological way," said Harridge.

An effective placebo, Brewer said, "could make all the difference between success and failure".

(Additional reporting by Ross Chainey, Thomas Pilcher and Nigel Hunt, editing by Mark Trevelyan)

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Scientists ID New Gene Linked to Vision Loss in Infants

HealthDay – 1 hr 7 mins ago MONDAY, July 30 (HealthDay News) -- A new gene associated with a rare form of blindness from birth has been identified by researchers.

According to the report published online July 29 in the journal Nature Genetics, mutations in the NMNAT1 gene are linked to Leber congenital amaurosis (LCA), an inherited retinal degenerative disease that causes reduced vision in infants. Signs of vision loss are apparent in the first few months of life.

LCA is a common reason for enrolling children in schools for the blind.

This finding is a step forward in developing sight-saving gene therapy for patients with LCA, according to the researchers at the Massachusetts Eye and Ear Infirmary, the Children's Hospital of Philadelphia, Loyola University Chicago Health Sciences Division, and their colleagues.

"The immediate benefit of this discovery is that affected patients with mutations in this new LCA gene now know the cause of their condition," study co-senior author Dr. Eric Pierce, director of the Ocular Genomics Institute at Massachusetts Eye and Ear, said in an infirmary news release.

"Scientists now have another piece to the puzzle as to why some children are born with LCA and decreased vision. The long-term goal of our research is to develop therapies to limit or prevent vision loss from these disorders," Pierce said.

NMNAT1 is the 18th identified LCA gene and is located in a region known to harbor another LCA gene.

Leber congenital amaurosis occurs in about three of 100,000 newborns, and is one of the most common causes of blindness in children, according to the U.S. National Library of Medicine.

More information

The U.S. National Institutes of Health has more about Leber congenital amaurosis.

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Scientists Uncover Gene Variation Linked to Melanoma

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Toward a cure for AIDS: Scientists set research agenda

Reuters – 22 hrs ago CHICAGO (Reuters) - A team of global scientists has devised a strategy to find a cure for AIDS, an effort inspired by the remarkable story of a single U.S. patient named Timothy Ray Brown who was cured from the disease.

Brown's treatment in Berlin involved the destruction of his immune system and a stem cell transplant from a donor with a rare genetic mutation that resists HIV infection. The procedure is too costly and too difficult to replicate on a large scale.

But in the years since his successful treatment in 2007, Brown's story has become a rallying point for scientists who believe the time is now right to seek a cure for AIDS.

Since the AIDS epidemic started 31 years ago, scientists have made great strides in treating the disease. AIDS-related deaths worldwide fell to 1.7 million last year from some 1.8 million in 2010, according to the latest report from United Nations AIDS program (UNAIDS).

Cocktails of powerful HIV drugs can keep the infection at bay for years, but the virus is wily, weaving itself into the DNA of special immune system cells, where it can lie dormant and out of reach of medications. That makes it necessary for HIV patients to take drugs over a lifetime.

As a result of better access to treatment, more patients with HIV are living near-normal lives, but the numbers of patients needing drugs is rising, increasing the future costs of AIDS treatment.

"Treatment is for life, and we know that it is important today and that it can slow the spread of the virus," said Michel Sidibé, executive director of UNAIDS.

But he said treatment should not be an end in itself.

"If we continue to believe it is the endgame, then we will have a challenge to get to 'zero,'" Sidibé said, referring to the goal of ending the epidemic.

"It's a first step," said Francoise Barre Sinoussi, who won a Nobel prize for her part in identifying human immunodeficiency virus. She is co-chair of the International Working Group Towards an HIV Cure, which released its proposed steps toward a cure on Thursday.

Sinoussi said the next step will be determining the cost-effectiveness of the strategy. That work will begin in conjunction with the International Aids Society's 2012 conference, which runs from July 22-27 in Washington.

GETTING RID OF THE VIRUS

Dr. Steven Deeks of the University of California San Francisco division of HIV/AIDS, who is co-chair of the working group, said health professionals see a growing need to "switch from blocking the virus to getting rid of the virus."

Instead of trying to copy the treatment received by Brown, researchers will seek a similar response in a way that is less costly and easier to replicate.

Among the first tasks, according to Deeks, will be to continue basic research in the lab to understand why the virus persists in the body and where it hides out.

Scientists will also need to understand immune system function in HIV-infected patients and determine whether inflammation is playing a role in protecting the virus.

Other teams will need to determine why some patients develop antibodies to the virus, allowing them to control the infection, and whether this can be applied to the search for a cure.

Deeks said doctors need better tests to measure levels of the virus. Researchers will need to develop drugs that flush out the virus from its hiding places in the body, making it more vulnerable to treatment, as well as powerful medications to bolster the immune system's own ability to fight off infection.

Rowena Johnston, of the Foundation for AIDS Research, which is helping fund development of a cure, said the global strategy will help consolidate research efforts.

"Now that we know what the questions are, we can focus our efforts in the right direction," she said at a briefing announcing the new push.

Dr. Anthony Fauci, director of the National Institute of Allergy and Infectious Disease, a part of the National Institutes of Health, said his agency supports the work but that it is far too early to handicap its success.

"We still have so much discovery to do with regard to a cure that there's no guarantee when or if it will happen. We're sort of where we were over a decade ago with a vaccine," he said.

Back then, scientists were far less certain about vaccine prospects after repeated trial failures, but sentiment changed in 2009 with the first report in Thailand of a modestly successful HIV vaccine trial.

"Now I can say, I'm confident that we'll get a vaccine, I just can't tell you when. With a cure, we're still at the very nascent phase of discovery," Fauci said.

(Additional reporting by Susan Heavey and Salimah Ebrihim in Washington; Editing by Michele Gershberg and Cynthia Osterman)

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Scientists see AIDS vaccine within reach after decades

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Scientists Pinpoint Antibody That May Be Specific to MS Patients

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Scientists Use Stem Cells to Mimic Huntington's Disease

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Scientists suspect link between cat feces, female suicide

"Women infected with a parasite spread by cat feces run a higher risk of attempting suicide, suggests a study of more than 45,000 women in Denmark published in a scientific journal this week. (AFP Photo/Karen Bleier)" title

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HIV may have returned in 'cured' patient: scientists

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Scientists Probe Diversity of Human Body's Microbes

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HIV may have returned in 'cured' patient: scientists

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Scientists Map the Tomato's Genome

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Scientists invent 'cannabis without the high'

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Scientists Turn Skin Cells Into Cardiac Cells to Help Failing Hearts

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Scientists identify protein that stimulates brown fat to burn calories

ScienceDaily (May 10, 2012) — Scientists have identified a protein which regulates the activation of brown fat in both the brain and the body's tissues. Their research, which was conducted in mice, was published May 11, in the journal Cell.

See Also:Health & MedicineDiet and Weight LossFitnessObesityPlants & AnimalsMiceRodentsSpiders and TicksReferenceBrown riceAdipose tissueLiposuctionSaturated fat

Unlike white fat, which functions primarily to store up fat, brown fat (also known as brown adipose tissue) burns fats to generate heat in a process known as thermogenesis. The research, led by scientists at the University of Cambridge Metabolic Research Laboratories at the Institute of Metabolic Science, discovered that the protein BMP8B acts on a specific metabolic system (which operates in the brain and the tissues) to regulate brown fat, making it a potential therapeutic target.

The scientists believe that activating brown fat could help to support current weight loss programmes, which individuals often struggle to maintain.

Dr Andrew Whittle, one of the authors of the paper from the Institute of Metabolic Science, said: "Other proteins made by the body can enhance heat production in brown fat, such as thyroid hormone but often these proteins have important effects in other organs too. Therefore they are not good targets for developing new weight loss treatments. However, BMP8B seems to be very specific for regulating the heat producing activity of brown fat, making it a more ideal mechanism for new therapies."

The experiments showed that when mice lacked the protein BMP8B they found it more difficult to maintain their normal body temperature. They also became much more obese than normal mice, particularly when fed a high-fat diet. Additionally, when the researchers treated brown fat cells with BMP8B they responded more strongly to activation by the nervous system. Furthermore, when BMP8B was administered to specific parts of the brain it increased the amount of nervous activation of brown adipose tissue. The result was that these BMP8B-treated brown fat cells burned more fat and mice given BMP8B in the brain lost weight.

Professor Toni Vidal-Puig, lead author of the study from the Institute of Metabolic Science and a member of the MRC Centre for Obesity and Related Metabolic Diseases, said: "A major feature of current weight-loss strategies is that people lose a lot of weight early on, but then reach a plateau despite continuing to follow the same diet regime. This is because the human body is incredibly good at sensing a reduction in food consumption and slows the metabolic rate to compensate. A strategy to increase brown fat activity could potentially be used in conjunction with current weight loss strategies to help prevent the typical decrease in a person's metabolic rate.

"One could be sceptical that techniques to increase metabolic rate might just be compensated by the body trying to make you want to eat more, to fuel this increased metabolism. But our findings showed that treating mice with Bmp8b did not have this effect, it simply made them lose weight by burning more fat in their brown adipose tissue.

"There are obvious differences between mice and humans, and from a therapeutic perspective this work is preliminary. Validation will be necessary to see if manipulating BMP8B would be safe and effective in humans."

The research was funded by the Medical Research Council (MRC), the Wellcome Trust, and the Biotechnology and Biological Sciences Research Council (BBSRC).

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Scientists "switch off" brain cell death in mice

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Scientists Tout Resveratrol as a Primary Nutrient for Cardio Health

The limitations of Western medicine drugs to address the actual issues of cardiovascular health are significant.  Sure drugs can lower blood pressure, lower cholesterol, and reduce stickiness of blood.  Unfortunately they typically do not improve health as they do so, fail to address many of the key issues in the circulatory system that are actual causes of the problem, and pose rather serious side effects.  A new European study states that nutrients such as resveratrol Natural phenol or type of antioxidant found in red grapes, red wine. Research has shown beneficial effects as anti-cancer and anti-inflammatory agents along with supporting healthy blood sugar and cardiovasculature function. should be used in medicine as anti-atherosclerotic agents and should be considered as main-line treatments for cardiovascular issues.

The researchers extensively review the resveratrol Natural phenol or type of antioxidant found in red grapes, red wine. Research has shown beneficial effects as anti-cancer and anti-inflammatory agents along with supporting healthy blood sugar and cardiovasculature function. science as it applies to cardiovascular health.  Documentation includes the reduction of inflammation within arteries, stimulation of repair factors for the lining of arteries, reduction of platelet stickiness, prevention of platelet aggregation (preventing stroke), prevention of unstable plaque development, prevention of immune cell migration to inflamed vascular system, increased production of friendly nitric oxide that helps to relax arteries, offset the impact of high blood sugar on circulatory health, prevent LDL cholesterol Low-density lipoprotein. It is a group of lipids and proteins that allow lipids like cholesterol, triglycerides, and fat soluble nutrients (Vitamin A, D, E , K, Q 10, carotenes) to be transported with the water-based bloodstream. from being damaged, help lower cholesterol, improve antioxidant status within the heart and arteries, and increase blood flow to the brain.

There is no drug that does any one of these actions without potentially high risk side effects, let alone multiple benefits as resveratrol Natural phenol or type of antioxidant found in red grapes, red wine. Research has shown beneficial effects as anti-cancer and anti-inflammatory agents along with supporting healthy blood sugar and cardiovasculature function..  Yet, resveratrol Natural phenol or type of antioxidant found in red grapes, red wine. Research has shown beneficial effects as anti-cancer and anti-inflammatory agents along with supporting healthy blood sugar and cardiovasculature function. is non-toxic.

Resveratrol is an excellent cardio-support nutrient and is now garnering significant world-wide attention as a main-line way to help improve cardiovascular health without side effects.

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Scientists allow 'paralysed' monkey hand to pick up ball

Scientists using brain electrode implants managed to get lab monkeys to use their paralysed hands to pick up a ball, an encouraging result for people with spinal injuries, they said on Wednesday.

Cell transplants boost vision of night-blind mice: study

Night-blind mice had their vision boosted by implants of light-sensing nerve cells in a laboratory test that may hold promise for treating some forms of blindness, scientists said Wednesday. More 

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Scientists use public-database search to identify novel receptor with key role in type 2 diabetes

ScienceDaily (Apr. 9, 2012) — Using computational methods, Stanford University School of Medicine investigators have strongly implicated a novel gene in the triggering of type-2 diabetes. Their experiments in lab mice and in human blood and tissue samples further showed that this gene not only is associated with the disease, as predicted computationally, but is also likely to play a major causal role.

See Also:Health & MedicineDiabetesObesityHypertensionDiet and Weight LossPersonalized MedicineHormone DisordersReferenceBlood sugarDiabetes mellitus type 1Diabetes mellitus type 2Hyperglycemia

In a study published online April 9 in Proceedings of the National Academy of Sciences, the researchers combed through freely accessible public databases storing huge troves of results from thousands of earlier experiments. They identified a gene never before linked to type-2 diabetes, a life-shortening disease that affects 4 percent of the world's population. These findings have both diagnostic and therapeutic implications.

The study's senior author is Atul Butte, MD, PhD, associate professor and chief of systems medicine in pediatrics; its first author is Keiichi Kodama, MD, PhD, a staff research scientist in Butte's group.

Ordinarily, cells throughout the body, alerted to the presence of sugar in the blood by insulin, hungrily slurp it up for use as an energy source. But excessive blood-sugar levels -- diabetes' defining feature -- eventually damage blood vessels, nerves and other tissues.

There are two broad categories of diabetes. In type-1 diabetes, a relatively rare autoimmune condition that typically begins in childhood, insufficient insulin is secreted by the pancreas. Type-2 diabetes, on the other hand, results from a phenomenon called insulin resistance: the tendency of cells in tissues throughout the body -- but especially in fat, liver and muscle -- to lose sensitivity and ignore the insulin's "gravy train" signal.

Drugs now used to treat insulin resistance can't reverse the progression to full-blown type-2 diabetes. "We don't really have a good grasp of the molecular pathology that makes people get it in the first place," said Butte, who is also director of the Center for Pediatric Bioinformatics at Lucile Packard Children's Hospital.

In searching for risk-increasing genes over the past 10 years, scientists have used two approaches to hunt them down. One way is to look for variations in genes' composition -- deviations in their chemical sequences that correlate with a higher likelihood of contracting a particular condition.

But genes don't change from one tissue to the next, and -- with the exception of mutations that accrue gradually over a lifetime in particular cells and can lead to cancer and other conditions -- they remain largely unaltered by disease and the aging process. What does change dynamically, from one tissue or state to another, is what all those genes are doing: how actively each of them is involved in cranking out the starting materials for the many thousands of proteins critical to each cell's or tissue's identity and to every organism's survival. In any given cell in a person's body, at any given time, some genes are switched off, others somewhat on and still others working overtime.

And so a second approach to understanding our genes has been devised. This latter method flags differences in genes' activity levels, for example in diseased vs. normal tissues, for each of the 20,000 genes in the entire genome.

Both types of approaches have generated staggering amounts of data -- far more than can fit onto the pages of standard, peer-reviewed journals, whose editors routinely demand (as do federal-government funding agencies) that researchers park their experiments' results in online, public repositories accessible to others. Now, investigators such as Butte are starting to reach in, drill down and pull out a treasure-trove of potentially valuable information.

In this study, the Stanford scientists wanted to know which genes showed especially marked changes in activity, as indicated in earlier comparisons of diabetic vs. healthy tissue samples (notably fat, muscle, liver and beta cells, the only cells in the body that release insulin). Mining public databases, they located 130 independent gene-activity-level experiments -- in rats, mice and humans -- comprising 1,175 separate individual samples in all. Then, integrating that data, they searched for those genes that showed activity-level differences in the most experiments.

They zeroed in on a single gene, called CD44, whose activity changed substantially in diabetic tissues compared with healthy tissues in 78 of the 130 experiments. The chance of this occurring "just due to dumb luck," Butte said, was vanishingly small: less than one in 10 million-trillion. The uptick in CD44's activity was especially pronounced in the fat tissue of people with diabetes, he said -- intriguing, because obesity is known to be a strong risk factor for type-2 diabetes.

The gene was interesting in itself. CD44 codes for a cell-surface receptor not found on fat cells, although those cells do have surface molecules that bind to it. Rather, this receptor sits on the surface of scavenger cells called macrophages (from the Greek words for "big eater") that can cause inflammation. In obese individuals, macrophages migrate to and take up positions in fat tissue. (Indeed, as many as half the cells in a big potbelly can be macrophages.) Recent medical research has strongly implicated inflammation in initiating type-2 diabetes.

CD44 was first identified more than a decade ago by immunologists looking for a possible connection to autoimmune disease. To test that connection, those immunologists created a strain of laboratory mouse lacking the gene. By chance, these "CD44 knockout" mice were derived from a lab-mouse strain that, if fed a high-fat diet, has a propensity for becoming obese, insulin-resistant and diabetic. With the exception of that missing gene, these two strains are identical.

Butte and his colleagues obtained these two strains of mice (one carrying the gene, the other lacking it) and divided them into two subgroups, which they fed either a normal or a high-fat diet, representative of today's increasingly common human diet. The team studied these mice using tests commonly applied to humans, for example measuring fasting blood sugar and measuring blood sugar after administering sugar or insulin. As anticipated, the mice on normal diets stayed slim and retained good insulin sensitivity. CD44-containing mice on high-fat diets, also as expected, got tubby and developed insulin resistance. But mice lacking the suspect gene never lost their sensitivity to insulin and didn't become diabetic on high-fat diets, although they became as plump as their CD44-carrying peers.

This suggested that knocking out CD44's function could improve insulin sensitivity, and that blocking CD44 with a drug might turn out to be an interesting new way to treat type-2 diabetes. So the team tested a prototype drug: antibodies that shut down the receptor's action in CD44-carrying mice fed a high-fat diet. Though these overfed mice didn't get any thinner, the prototype drug did reduce their blood-sugar levels within a week. Moreover, the number of macrophages in these mice's fat tissue plummeted.

Turning to human blood samples, Butte and his associates found that insulin-resistant people (those prone to developing type-2 diabetes) have higher levels of free-roving CD44-receptor molecules circulating in their blood than do people with normal insulin-processing capability. This suggests a potential early diagnostic test, or biomarker, that could help detect or predict insulin resistance. Plus, the antibody results suggest, a small molecule that blocked this receptor could have profound therapeutic potential for type-2 diabetes.

Funding for the study was provided by the Lucile Packard Foundation for Children's Health and the National Library of Medicine. Other Stanford co-authors of the study, done in collaboration with investigators at the University of Tokyo, Kitasato University, Keio University and RIKEN, all in Japan, were former graduate students Marina Sirota, PhD, and Alexander Morgan, PhD; and former staff bioinformatics programmer Rong Chen, PhD, all then in Butte's lab.

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Scientists Pinpoint Childhood Obesity Genes

HealthDay – 43 mins ago SUNDAY, April 8 (HealthDay News) -- For the first time, scientists have isolated mutations at two gene locations that seem to predispose children to becoming obese.

"We see a clear genetic signature to childhood obesity, showing that there is more than just an environmental component to this disease," Struan Grant, senior author of the research, said at an April 5 press conference.

Although known genes have been linked to adult obesity and also to extreme forms of childhood obesity, the newly identified genes confer only a modest risk of developing common childhood obesity. But they are "very common in the population," Grant added in a telephone interview.

Grant is associate director of the Center for Applied Genomics at the Children's Hospital of Philadelphia Research Institute. His research was published online April 8 in Nature Genetics.

Obesity has become a public health crisis of global proportions, affecting not only adults but also, increasingly, children.

"In the U.S., the prevalence of childhood obesity has tripled in recent decades and related health care costs have quadrupled," said Dr. Karen Winer, a program officer in the endocrinology, nutrition and growth branch of the Eunice Kennedy Shriver U.S. National Institute of Child Health and Human Development, which funded the study.

Clear environmental factors such as changing nutrition and reduced physical exercise have played a role in the childhood obesity crisis, but no genes had, until now, been identified.

The authors of this study pooled results from 14 genome-wide association studies conducted in the United States, Canada, Australia and Europe, involving a total of 5,530 children who were obese and 8,318 non-obese kids ("controls"), all of European descent.

This is the largest collection of DNA related to childhood obesity in the world, Winer said.

Obesity was defined as being above the 95th percentile in body mass index (a measurement that takes into account height and weight) while the healthy controls were all in the leaner half of the population.

When data was combined, two genes stood out: OLFM4 and HOXB5. The genes also showed signals in groups of extremely obese children.

And the genes were identifiable but weaker in adults, indicating that "these variants are conferring their risk early on in life and are really impactful in the first years of life," Grant said at the press conference.

Scientific literature to date indicates that the genes may be operating in the gut.

"We would look probably in that tissue area to see how it was conferring risk," Grant said at the press conference.

It's possible, for instance, that the genes may interact with food, he said.

Eric Schadt, chairman of the department of genetics and genomic sciences at Mount Sinai School of Medicine in New York City, said: "Absolutely, this is a disease that has genetic components and very strong environmental components and likely very strong genetic-by-environmental components. It's very, very complicated. We're only scratching the surface of genetic determinations of childhood obesity."

Once scientists learn more about the genes and how they work, they may lead to new treatments, added Schadt, who was not involved with the study.

More information

The U.S. Centers for Disease Control and Prevention has more on childhood obesity.

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