Archive for the ‘Lifting’ Category

Lower muscle mass and an increase in body fat are common consequences of growing older.

While exercise is a proven way to prevent the loss of muscle mass, a new study led by McMaster researcher Dr. Mark Tarnopolsky shows that taking a combination of creatine monohydrate (CrM) and conjugated linoleic acid (CLA) in addition to resistance exercise training provides even greater benefits.

The study to be published on Oct. 3 in PLoS One, an international, peer-reviewed online journal of the Public Library of Science, involved 19 men and 20 women who were 65 years or older and took part in a six-month program of regular resistance exercise training.

In the randomized double blind trial, some of the participants were given a daily supplement of creatine (a naturally produced compound that supplies energy to muscles) and linoleic acid (a naturally occurring fatty acid), while others were given a placebo. All participants took part in the same exercise program.

The exercise training resulted in improvements of functional ability and strength in all participants, but those taking the CrM and CLA showed even greater gains in muscle endurance, an increase in fat-free mass and a decrease in the percentage of body fat.

“This data confirms that supervised resistance exercise training is safe and effective for increasing strength and function in older adults and that a combination of CrM and CLA can enhance some of the beneficial effects of training over a six month period,” said Tarnopolsky, a professor of pediatrics and medicine.

This study provides functional outcomes that build on an earlier mechanistic study co-led by Tarnopolsky and Dr. S. Melov at the Buck Institute of Age Research, published in PLoS One this year, which provided evidence that six months of resistance exercise reversed some of the muscle gene expression abnormalities associated with the aging process.
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Article adapted by MD Sports Weblog from original press release.
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Contact: Veronica McGuire
McMaster University

Genetic research into athletic ability should be encouraged for its potential benefits in both sport and public health, a leading group of scientists meeting at the University of Bath said today. Genetic research into athletic ability should be encouraged for its potential benefits in both sport and public health, a leading group of scientists meeting at the University of Bath said today.

However, ethical concerns, such as whether seeking information about differences between ethnic groups could be perceived as racist research, need to be properly addressed, they warn.

Their recommendations are published in a ‘position stand’ on genetic research and testing launched at the British Association of Sport & Exercise Sciences annual meeting today.

They call for more genetic research in the sport and exercise sciences because of the anticipated benefits for public health, but want researchers to take a more active role in debating the implications of their work with the public.

“If a powerful muscle growth gene was identified, on the one hand this could help develop training programmes that increase muscle size and strength in athletes, but even more importantly the knowledge could be used to develop exercise programmes or drugs to combat muscle wasting in old age,” said Dr Alun Williams from Manchester Metropolitan University, one of the report’s authors.

“We, as scientists investigating genetics, acknowledge a public concern about some genetic research and we believe scientists need to engage in public in debates about the potential benefits of their research.

“Research into the athletic success of East African distance runners or sprinters of West African ancestry might be perceived as unethical.

“But understanding the limits of human exercise capacity in sport could lead to the development of treatments for a range of diseases like cancer and cardiovascular disease.”

The potential applications of genetic testing in sport and exercise also raise some ethical concerns, for example in identifying potential athletic ability before birth.

An Australian company already offers the first genetic performance test (for the ACTN3 gene) which has been linked to sprint and power performance.

The report authors are sceptical about whether this test is useful but anticipate that more advanced versions of these tests will be available in future.

“We are not yet at a point where we can identify a potential future Olympic champion from genetic tests but we may not be very far away,” said Dr Williams, who wrote the report with Drs Henning Wackerhage (Aberdeen University), Andy Miah (University of Paisley), Roger Harris (University of Chichester) and Hugh Montgomery (University College London).

They highlight two dangers of genetic performance tests. Firstly, genetic performance tests might later be linked to disease. For example, a muscle growth gene may later be linked to cancer growth.

“Not all people may want to know, while young that they are at increased risk of cancer by early middle age, but they might inadvertently become aware of that just because they had a ‘sport gene’ test,” said Dr Williams.

Secondly, genetic performance tests can be performed even before birth and this may lead to the selection of foetuses or to abortions based on athletic potential.

The report recommends genetic counselling and that the testing should be confined to mature individuals who fully understand the relevant issues.

Genetic tests might also be used to screen for health risks during sport such as genes that are linked to sudden cardiac death.

Genetic tests for sudden cardiac death are already available but the report recommends that such testing should not be enforced on athletes.

Problems with mandatory testing are highlighted by the case of the basketball player Eddy Curry, who had an irregular heart beat.

Curry was asked by his club, the Chicago Bulls, to perform a predictive genetic test for a heart condition. The athlete refused and was traded to the New York Knicks who did not make such a demand.

In future, genetic tests might be used to identify those that respond with the biggest drop in cholesterol, blood pressure or glucose to exercise.

In a personalised medicine approach, such tests could be used to select subjects for therapeutic exercise programmes but scientists are concerned that this might undermine the ‘exercise for all’ message that already seems difficult to get across to the public.

The authors say that genetic testing might also be used to detect gene doping, which may be a real threat by the time of the London Olympics in 2012, or to show that positive doping tests are the result of a genetic mutation in an athlete.

The report recommends that genetic testing should be used for anti-doping testing as long as the genetic samples are destroyed after testing.

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Article adapted by MD Sports Weblog from original press release.
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Contact: Andrew McLaughlin
University of Bath

To celebrate Allied Health Professions Week, the National Athletic Trainers’ Association has prepared a 10-step guide that people of all ages can use to reduce body stress, prevent back pain and thereby improve quality of life – especially with holiday plans and travel just around the corner. Along with the season comes the lifting of heavy suitcases and holiday gifts that can put additional pressure on the back. NATA represents certified athletic trainers who are among the more than 80 professions being honored during Allied Health Professions Week (Nov. 4-10, 2007).

“The human body is an incredible machine that adapts to the stresses we give it every day,” said certified athletic trainer Darrell Barnes, LAT, ATC, CSCS, performance center coordinator, St. Vincent Sports Performance Center in Indianapolis, Ind. “Stresses such as poor posture, unusual movement or activities or even a sedentary lifestyle can lead to poor mechanics and pain. Disability from back pain is second only to the common cold as a cause of lost work time.”

According to the Arthritis Foundation, back pain affects 80 percent of the adult population at some point in their lives. In fact, back pain, limited mobility and stiffness end up costing American consumers $24 billion in treatment costs annually.

Following are recommendations to prevent and reduce back pain now and year-round:

1. Identify negative stresses that may be exacerbated by the holidays – Everybody has physical limitations that can lead to body imbalances, so it’s important to identify problematic areas and correct these imbalances. Look at your sitting/standing posture. Do you complain that your muscles “feel tight” or weak? Do you use poor mechanics when lifting heavy items? Are you putting unusual stress on the back with certain activities and lifting during the holiday season? Learning correct lifting techniques and strengthening your back can help to alleviate pain. Use a luggage cart or lighten your load when lifting heavy packages or luggage.

2. Make yourself mobile – Poor posture and muscle stiffness decrease the body’s ability to move freely, which can lead to injury or pain. There are many ways to increase mobility including daily stretches or activities that increase flexibility and get the body moving in different directions. Try yoga, tai chi, swimming or pilates to keep you limber.

3. Increase strength – It’s important to get strong to improve overall balance and flexibility to reduce stress on the back. Exercises should involve the whole body, especially the core muscles of the stomach, back, hips and pelvis. At the same time, strengthening of the legs and shoulders can help you more easily squat, lift and carry even heavy items without overworking or injuring your back.

4. Add aerobic exercise – Physical activities like walking, swimming and running for at least 20 minutes three times a week increases muscular endurance and cardiovascular fitness. Aerobic activities also improve blood flow to the spine and help decrease daily stress.

5. Pay attention to posture – Try not to sit or drive for long periods of time. Get up every 15 to 30 minutes and move around or stretch to increase your mobility. When seated always remember to keep your hips and knees at right angles to one another and find a chair with adequate lumbar (lower back) support.

6. Stand up straight – When engaged in activities while standing, be sure to stand with your head up, shoulders straight, chest forward and stomach tight. Avoid standing in the same position for too long, though, and use your legs – rather than your back – when pushing or pulling heavy doors and other items.

7. Use proper lifting mechanics – When lifting objects from a position below your waist, stand with a wide stance and a slight bend at your hips and knees. Tighten your stomach as you lift and keep your back as flat as possible – do not arch or bend. When carrying heavy objects, keep them as close to your body as you can. Avoid carrying objects on only one side of your body.

8. Get a good night’s sleep – Select a firm mattress and box spring that does not sag. Try to sleep in a position that allows you to maintain the natural curve in your back.

9. Warm-up before physical activity – Engage in a low impact activity prior to playing sports or exercising. Increasing muscle temperature and mobility will decrease the chance of injury.

10. Improve your healthy lifestyle – Obesity and smoking have been found to increase the incidence of back pain. Taking steps to improve your health will decrease the chance of back pain and improve your overall quality of life.

Barnes also urges people to always listen to their bodies: “If you are participating in any fitness routines or general activity and feel any twinges of back pain, you should stop immediately and consult your physician. Identifying the cause of the pain and treating it safely and appropriately will help you gain back mobility and range of motion and feel your physical best.”

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Article adapted by MD Only Weblog from original press release.
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Contact: Robin Waxenberg 
National Athletic Trainers’ Association

About the National Athletic Trainers’ Association (NATA)

Athletic trainers are unique health care providers who specialize in the prevention, assessment, treatment and rehabilitation of injuries and illnesses. The National Athletic Trainers’ Association represents and supports 30,000 members of the athletic training profession through education and research. Only 42 percent of high schools have access to athletic trainers. NATA advocates for equal access to athletic trainers for athletes and patients of all ages, and supports H.R. 1846.