Archive for the ‘professional sports’ Category

Researchers at The University of Auckland have shown for the first time that the mere presence of carbohydrate solution in the mouth immediately boosts muscle strength, even before it is swallowed.

The results suggest that a previously unknown neural pathway is activated when receptors in the mouth detect carbohydrate, stimulating parts of the brain that control muscle activity and producing an increase in muscle strength.

Previous research had shown that the presence of carbohydrate in the mouth can improve physical performance during prolonged activity, but the mechanism involved was not known and it was unclear whether a person must be fatigued for the effect to be seen.

“There appears to be a pathway in the brain that tells our muscles when energy is on the way,” says lead researcher Dr Nicholas Gant from the Department of Sport and Exercise Science.

“We have shown that carbohydrate in the mouth produces an immediate increase in neural drive to both fresh and fatigued muscle and that the size of the effect is unrelated to the amount of glucose in the blood or the extent of fatigue.”

The current research has been published in the journal Brain Research and has also captured the attention of New Scientist magazine.

In the first of two experiments, 16 healthy young men who had been doing biceps exercises for 11 minutes were given a carbohydrate solution to drink or an identically flavored energy-free placebo. Their biceps strength was measured before and immediately afterward, as was the activity of the brain pathway known to supply the biceps.

Around one second after swallowing the drink, neural activity increased by 30 percent and muscle strength two percent, with the effect lasting for around three minutes. The response was not related to the amount of glucose in the bloodstream or how fatigued the participants were.

“It might not sound like much, but a two percent increase in muscle strength is enormous, especially at the elite level. It’s the difference between winning an Olympic medal or not,” says co-author Dr Cathy Stinear.

As might be expected, a second boost in muscle strength was observed after 10 minutes when carbohydrate reached the bloodstream and muscles through digestion, but no additional boost in neural activity was seen at that time.

“Two quite distinct mechanisms are involved,” says Dr Stinear. “The first is the signal from the mouth via the brain that energy is about to be available and the second is when the carbohydrate actually reaches the muscles and provides that energy,” says Dr Stinear.

“The carbohydrate and placebo solutions used in the experiment were of identical flavor and sweetness, confirming that receptors in the mouth can process other sensory information aside from the basic taste qualities of food. The results suggest that detecting energy may be a sixth taste sense in humans,” says Dr Gant.

In the second experiment, 17 participants who had not been doing exercise and were not fatigued simply held one of the solutions in their mouths without swallowing. Measurements of the muscle between the thumb and index finger were taken while the muscle was either relaxed or active.

A similar, though smaller effect was observed as in the first experiment, with a nine percent increase in neural activity produced by the carbohydrate solution compared with placebo. This showed that the response is seen in both large powerful muscles and in smaller muscles responsible for fine hand movements.

“Together the results show that carbohydrate in the mouth activates the neural pathway whether or not muscles are fatigued. We were surprised by this, because we had expected that the response would be part of the brain’s sophisticated system for monitoring energy levels during exercise,” says Dr Stinear.

“Seeing the same effect in fresh muscle suggests that it’s more of a simple reflex – part of our basic wiring – and it appears that very ancient parts of the brain such as the brainstem are involved. Reflexive movements in response to touch, vision and hearing are well known but this is the first time that a reflex linking taste and muscle activity has been described,” she says.

Further research is required to determine the precise mechanisms involved and to learn more about the size of the effect on fresh versus fatigued muscle.

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Article adapted by MD Sports from original press release.
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Contact: Pauline Curtis
The University of Auckland

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WESTCHESTER, Ill. – Athletes who get an extra amount of sleep are more likely to improve their performance in a game, according to a research abstract presented at the 21st Annual Meeting of the Associated Professional Sleep Societies (APSS).

The study, authored by Cheri Mah of Stanford University, was conducted on six healthy students on the Stanford men’s basketball team, who maintained their typical sleep-wake patterns for a two-week baseline followed by an extended sleep period in which they obtained as much extra sleep as possible. To assess improvements in athletic performance, the students were judged based on their sprint time and shooting percentages.

Significant improvements in athletic performance were observed, including faster sprint time and increased free-throws. Athletes also reported increased energy and improved mood during practices and games, as well as a decreased level of fatigue.

“Although much research has established the detrimental effects of sleep deprivation on cognitive function, mood and performance, relatively little research has investigated the effects of extra sleep over multiple nights on these variables, and even less on the specific relationship between extra sleep and athletic performance. This study illuminated this latter relationship and showed that obtaining extra sleep was associated with improvements in indicators of athletic performance and mood among members of the men’s basketball team.”

The amount of sleep a person gets affects his or her physical health, emotional well-being, mental abilities, productivity and performance. Recent studies associate lack of sleep with serious health problems such as an increased risk of depression, obesity, cardiovascular disease and diabetes.
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Article adapted by MD Sports from original press release.
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Contact: Jim Arcuri
American Academy of Sleep Medicine 

Experts recommend that adults get between seven and eight hours of sleep each night to maintain good health and optimum performance.

Persons who think they might be suffering from a sleep disorder are encouraged to consult with their primary care physician, who will refer them to a sleep specialist.

The annual SLEEP meeting brings together an international body of 5,000 leading researchers and clinicians in the field of sleep medicine to present and discuss new findings and medical developments related to sleep and sleep disorders.

More than 1,000 research abstracts will be presented at the SLEEP meeting, a joint venture of the American Academy of Sleep Medicine and the Sleep Research Society. The four-day scientific meeting will bring to light new findings that enhance the understanding of the processes of sleep and aid the diagnosis and treatment of sleep disorders such as insomnia, narcolepsy and sleep apnea.

Research news from Journal of Mass Spectrometry

A new mass spectrometry test can help sports anti-drug doping officials to detect whether an athlete has used drugs that boost naturally occurring steroid levels. The test is more sensitive compared to previous alternatives, more capable of revealing specific suspicious chemical in the body, faster to perform, and could be run on standard drug-screening laboratory equipment. The new test is announced in a special issue of the Journal of Mass Spectrometry that concentrates on detecting drugs in sports.

One of the roles of the masculinising hormone testosterone is to increase muscle size and strength. Taking extra testosterone, or taking a chemical that the body can use to create extra testosterone, could therefore enhance an athlete’s performance. For this reason taking it is banned by the World Anti-Doping Agency (WADA).

The exact level of testosterone varies considerably between different people, so simply measuring total testosterone in an athlete’s urine can not show whether he or she has deliberately taken extra. There is, however, a second chemical in the body, epitestosterone, which is normally present in approximately equal proportions to testosterone. Comparing the ratio of testosterone to epitestosterone can then indicate whether testosterone or a precursor has been taken.

The problem is that it is not always easy to measure these two substances, particularly as they are only present in urine at very low concentrations.

A team of scientists the Sports Medicine Research and Testing Laboratory at the University of Utah have developed a test that makes use of liquid chromatography-tandem mass spectrometry. This method has incredibly high sensitivity (down to 1 ng/ml) and increases the power with which officials can search for both testosterone and epitestosterone within a sample.

“Our system means that we can determine the testosterone/epitestosterone ratio in a sample with greater confidence, and therefore be in a better position to spot doping violations without falsely accusing innocent athletes,” says lead investigator Dr Jonathan Danaceau.

“Not only is the test more sensitive, it is also faster to perform,” says colleague Scott Morrison.

“Having this sort of test available makes cheating harder and lets us take one more step towards enabling free and fair competition,” says Laboratory Director Dr Matthew Slawson.

This paper is part of a special issue for the Olympic Games from the Journal of Mass Spectrometry which focuses of drug use in sport. The issue is available free of charge online for one month at http://www.interscience.wiley.com/journal/jms. The other articles publishing in this issue are:

 

  • History of Mass Spectrometry at Olympic Games (DOI: 10.1002/jms.1445)
  • Nutritional supplements cross-contaminated and faked with doping substances (DOI: 10.1002/jms.1452)
  • Hair analysis of anabolic steroids in connection with doping control results from horse samples (DOI: 10.1002/jms.1446)
  • Mass spectrometric determination of Gonadotrophin releasing hormone (GnRH) in human urine for doping control purposes by means of LC-ESI-MS/MS (DOI: 10.1002/jms.1438)
  • Liquid chromatographic-mass spectrometric analysis of glucuronide-conjugated anabolic steroid metabolites: method validation and inter-laboratory comparison (DOI: 10.1002/jms.1434)
  • Mass Spectrometry of Selective Androgen Receptor Modulators (DOI: 10.1002/jms.1438)
  • Can glycans unveil the origin of glycoprotein hormones? – human chorionic gonadotropin as an example (DOI: 10.1002/jms.1448)
  • A High-Throughput Multicomponent Screening Method for Diuretics, Masking Agents, Central Nervous System Stimulants and Opiates in Human Urine by UPLC-MS/MS (DOI: 10.1002/jms.1436)
  • The application of carbon isotope ratio mass spectrometry to doping control (DOI: 10.1002/jms.1437)
  • Identification of zinc-alpha-2-glycoprotein binding to clone ae7a5 anti-human epo antibody by means of nano-hplc and high-resolution highmass accuracy esi-ms/ms (DOI: 10.1002/jms.1444)
  • Low LC-MS/MS Detection of Glycopeptides Released from pmol Levels of Recombinant Erythropoietin using Nanoflow HPLC-Chip Electrospray Ionization (DOI: 10.1002/jms.1439)
  • Introduction of HPLC/Orbitrap mass spectrometry as screening method for doping control (DOI: 10.1002/jms.1447)

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Article adapted by MD Sports from original press release.
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Contact: Jennifer Beal
Wiley-Blackwell

University Park, Pa. — Girls and boys are now equally caught up in the social pressure for a muscular body image currently lauded in popular culture. A Penn State researcher contends those pressures are leading girls and boys down unhealthy avenues such as the misuse of anabolic steroids.

“Young girls have always had to struggle against the media stereotypes of stick-thin models or voluptuous sexuality, but with the rising popularity of women sports, girls are bombarded with buffed body images,” says Dr. Charles Yesalis, professor of health policy and administration, and exercise and sports science at Penn State, and editor of the newest edition of the book “Anabolic Steroids in Sports and Exercise.” “Now, young boys face pop culture musclemen like The Rock and Steve Austin, given the influence of professional wrestling shows.”

“The current film ‘Charlie’s Angels’ sports karate-kicking women in cool clothes,” he added. “Today’s children look with envy at the physiques of actors Arnold Schwarzenegger, Jean-Claude Van Damme, Wesley Snipes, and Linda Hamilton, whose roles call for a muscular build. Hollywood stars are openly taking Human Growth Hormone (HGH) injections to combat aging.”

In addition, children are entering competitive sports at younger ages and many working families have children signed up in two or three sports. Parents, coaches and young athletes are facing growing violence in amateur athletics. The pressure to win at all costs continues to weigh heavily on children, Yesalis notes.

The concern is that many youths will take shortcuts to achieving a muscular build by using anabolic steroids. Female athletes also are pressured to achieve low body fat to excel in their sport. The Penn State researcher has seen evidence that the pressures are reaching down to young children. For example, the book cites figures from the Monitoring The Future Study, a national-level epidemiological survey conducted annually since 1975. Approximately 50,000 8th, 10th and 12 graders are surveyed each year.

The MTF data shows that during the 1990s, anabolic steroid use among 12 graders –both boys and girls – rose to an all-time high with more than 500,000 adolescents having cycled – an episode of use of 6 to 12 weeks – during their lifetime. And the percentage of girls alone doubled in the same period.

A 1998 study of 965 youngsters at four Massachusetts middle schools found that 2.7 percent admitted to taking illegal steroids for better sports performance. That included some boys and girls as young as 10 years old. “This year’s Olympic doping scandals and the epidemic of anabolic steroids in professional baseball just glorify and justify steroids to impressionable youths,” Yesalis notes. “The use of anabolic steroids has cascaded down from the Olympic, professional and college levels to high schools and junior high schools and now middle schools for athletes and non-athletes alike. ”

“Anabolic steroids are made to order for a female wanting to attain a lean athletic body. While most drug abuse has outcomes that tend to discourage use, females who use anabolic steroids may experience a decrease in body fat, increased muscle size and strength, and enhanced sports performance,” he says.

Girls and boys misusing anabolic steroids may win approval and rewards from parents, coaches and peers, but don’t realize there are long-term negative effects on their health, particularly girls, according to Yesalis. Young girls face potential permanent side effects of male hair growth or baldness, deepening of the voice, the enlargement of the clitoris as well as the known risks of heart and liver diseases.

Published by Human Kinetics, the book incorporates the latest research, experience and insights of 15 experts on the scientific, clinical, historical, legal and other aspects of steroid abuse and drug testing. New information looks at the effects of steroids on health, particularly that of women.

This year, trials of East German doctors, coaches and officials reveal records of systematic doping of young athletes without their own or parents’ knowledge. In 1974, officials’ plan to turn the tiny Communist nation into a superpower in sports included giving performance-enhancing drugs to all competing athletes including children as young as 10 years old. The indictments included 142 former East German athletes who now complain of health problems. In media reports, several female athletes report incidents of miscarriages, liver tumor, gynecological problems and enlarged heart, all showing up decades after the steroid misuse.

“Our society’s current strategy for dealing with the abuse of anabolic steroids in sport primarily involves testing, law enforcement and education,” Yesalis says. “But our efforts to deal with this problem have not been very successful. Unless we deal with the social environment that rewards winning at all costs and an unrealistic physical appearance, we won’t even begin to address the problem.”

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Article adapted by MD Sports Weblog from original press release.
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Contact: Vicki Fong
Penn State

Baseball team owners, players and fans seem to agree on the importance of drug testing for steroids, according to current reports, but the entire scope of performance-enhancing substances available for all athletes is vastly broader and many of the drugs employed by athletes are not easily detectable, says a Penn State researcher.”The use, misuse and abuse of drugs have long shaken the foundations of amateur and professional sports–baseball, football, track and field, gymnastics and cycling, to name just a few,” says Dr. Charles Yesalis, Penn State professor of exercise and sport science and health policy and administration. “The problem is not new. But like the rest of technology, doping in sport has grown in scientific and ethical complexity. In addition to drugs, we have natural hormones, blood doping, diuretics, nutritional supplements, social and recreational drugs, stimulants and miscellaneous substances, some of which may not even be on any list of banned substances.”

While drug testing technology struggles to keep up, an array of new and emerging technologies has arrived or is on the horizon with potential for abuse by athletes including gene transfer therapy, stem cell transplantation, muscle fiber phenotype transformation, red blood cell substitutes and new drug delivery systems, says Yesalis

“It is not too hard to imagine the day when muscles can be selectively enlarged or contoured,” according to the book. “Just imagine the consequences of a kinesiologist isolating specific muscles and selectively injecting designer genes into those muscles to maximize their function.”

The new book brings together the latest and most comprehensive scientific information about performance-enhancing substances, as well as discussion of drug testing, legal and social issues, and future directions by sports governing organizations.

“Sport has a responsibility to maintain a level playing field for the trial of skill,” Yesalis says. “The use of chemical and pharmacologist agents is cheating – just like using a corked baseball bat. But unlike the bat, doping is shrouded in mystery. Athletes and their advisors are constantly seeking ‘gray areas” surrounding the rules, and if something is not explicitly banned, then why not try it. This slippery slope of rationalization is treacherous and appealing to a player or team seeking glory and money rewards.”

In one chapter, “Drug Testing and Sport and Exercise,” author R. Craig Kammerer suggests that improvement in current tests and developments in new methods will assist future policymaking by athletic federations. However, effective testing must become more widespread and include unannounced testing outside of competition. Sanctions against athletes must be more fairly and uniformly applied, with thorough investigation to avoid false positive results and ruin an athlete’s career.

The difficulty of detecting and preventing the abuse of performance enhancing substances by adult athletes may seem futile but remains necessary as part of the effort to discourage abuse by youths who emulate professional athletes and also seek a winning advantage, Yesalis notes.

A recent government study of adolescent drug use shows an alarming increase in anabolic steroid use among middle school youths from 1998-1999 with an estimated 2.7 percent of eighth graders saying they have used the drugs. A larger survey by Blue Cross and Blue Shield estimates that one million U.S. children between the ages of 12 and 17 may have taken performance-enhancing substances including creatine, according to the book.

“Children and teens can seriously harm their future health by misusing these substances,” Yesalis says. “For example, steroids alone can cause scarring acne, hair loss and testicular atrophy, and may increase the risk of stroke and heart disease. It is just as important to note that little is known about the health consequences of many of the other substances used to enhance performance. Yet some coaches and parents look the other way and even actively encourage the use of performance-enhancing substances in pursuit of scholarships and winning.

“There is too much fame and fortune to be gained by being a winner in sports,” he notes. “It’s interesting to see that baseball fans being polled support drug testing and a ban on steroids, but it will take fans of all major sports to take a stand by turning off their TV sets or not buying a ticket to sports events before adult athletes, coaches and team owners stop trying to cheat. And, that’s probably not going to happen.”

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Article adapted by MD Sports Weblog from original press release.
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Contact: Vicki Fong
Penn State