Posts Tagged ‘Bodybuilding’

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

Scientists have discovered that a group of chemicals known as Histone Deacetylase (HDAC) inhibitors stimulate growth and regeneration of adult skeletal muscle cells by increasing expression of the protein follistatin. The research, published in the May issue of Developmental Cell, may provide new avenues for developing effective means to promote regeneration in muscular dystrophies.

Dr. Vittorio Sartorelli from the Muscle Gene Expression Group in the Laboratory of Muscle Biology, National Institute of Arthritis and Musculoskeletal and Skin Diseases, NIH, in Bethesda, Maryland, and colleagues at the Salk Institute and the Dulbecco Telethon Institute in Rome report that HDAC inhibitors, which stimulate the formation of mature muscle cells from immature precursor cells, also cause a significant elevation of follistatin levels. When follistatin levels are reduced, then HDAC inhibitors no longer stimulate adult muscle growth. The regeneration activities of the HDAC inhibitors appear to function only in skeletal muscle, since follistatin is not stimulated in other cell types tested. In animal studies, administration of an HDAC inhibitor produced clear signs of muscle regeneration in regions of injured skeletal muscle tissues.

“Our findings establish for the first time that follistatin promotes the recruitment and fusion of immature muscle cells to pre-existing adult muscle fibers. These results suggest that follistatin is a promising target for future drug development of muscle regeneration. HDAC inhibitors, by stimulating follistatin, could well be pharmacologically useful as stimulants of muscle regeneration. We are investigating whether these inhibitors are a viable treatment to regenerate healthy new muscle tissues in animal models of muscular dystrophies,” explains Dr. Sartorelli. The functional link between HDAC inhibitors, follistatin, and adult muscle regeneration is especially provocative as an HDAC inhibitor is already being used clinically in humans as an anti-cancer therapeutic.

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Article adapted by MD Sports from original press release.
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Contact: Heidi Hardman
Cell Press 

Simona Iezzi, Monica Di Padova, Carlo Serra, Giuseppina Caretti, Cristiano Simone, Eric Maklan, Giulia Minetti, Po Zhao, Eric P. Hoffman, Pier Lorenzo Puri, and Vittorio Sartorelli: “Deacetylase Inhibitors Increase Muscle Cell Size by Promoting Myoblast Recruitment and Fusion through Induction of Follistatin”

 

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.

USC study finds combining resistance training and androgens gives more muscular bang for the buck

PHILADELPHIA (June 19, 2003)-Men who take supplemental androgens-the male hormone testosterone or similar medications-increase their strength by adding muscle mass, but androgens alone do not pack more might into the muscles, according to studies presented today by University of Southern California researchers.

Treatment with androgens increases lean body mass-which encompasses everything in the body but bone and fat-and strength increases proportionately with the amount of muscle added, says E. Todd Schroeder, Ph.D., postdoctoral fellow in the Department of Medicine at the Keck School of Medicine of USC and adjunct assistant professor in the USC Department of Biokinesiology and Physical Therapy. Schroeder presented his findings at the Endocrine Society’s 85th Annual Meeting.

However, when men use androgen therapy combined with resistance training, such as weightlifting, their gains in strength may far outpace the amount of muscle that can be added with androgens alone. Each muscle cell packs a bigger punch, a concept known as improved muscle quality.

“The results of androgen therapy alone on muscle and strength are not necessarily bad, but they are not optimal,” Schroeder says. “The men did improve their strength, but it was proportional to the muscle mass they added.”

The findings wield health implications beyond the stereotypes of muscle-bound bodybuilders. Schroeder and his colleagues are studying the usefulness of androgens and exercise in helping maintain muscle strength, muscle power and physical function among seniors, for example. They also have studied androgen therapy’s effectiveness in battling wasting among HIV-positive patients.

In their recent study, Schroeder and USC colleagues Michael Terk, M.D., and Fred R. Sattler, M.D., looked at both young men and seniors. They followed two groups: 33 seniors ranging from their mid-60s to late 70s, and 23 HIV-positive men ranging from their early 30s to late 40s.

The younger men were randomly assigned to get 600 milligrams (mg) each week of nandrolone alone or in combination with resistance training. The older men were randomly assigned to receive 20 mg a day of oxandrolone or a placebo. These pharmacologic androgen doses were given over 12 weeks.

Researchers determined maximal strength-the most weight a participant could safely lift or push-using leg press, leg extension and leg flexion machines.

The researchers also measured the cross-sectional area of participants’ thighs and the lean body mass of their lower extremities by magnetic resonance imaging, or MRI. They then determined the strength that participants exerted for each unit of muscle (muscle quality) and how muscle quality changed over time.

Androgens alone increased lean body mass and maximum strength in both groups of men, but “gains were modest,” Schroeder says, and muscle quality did not change, since the muscle size and strength both increased proportionately. However, among those using nandrolone and undergoing resistance training, muscle quality improved significantly: Gains in strength were much greater than the gains that could occur from muscle-mass increase alone.

“It is clear from our studies and others that resistance training is critical for increasing muscle quality, but the effects can probably be augmented with androgens,” Schroeder says. “In addition, not everyone can do resistance training, and a short course of androgens can help get people stronger and more functional.”

Finally, results provide researchers insight into how to better design future studies to test strategies to best preserve and even improve muscle strength and physical function among seniors. Similar studies will be important for other types of patients who experience muscle loss and frailty, such as those with cancer, chronic lung disease, chronic renal failure and other conditions.

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Article adapted by MD Sports from original press release.
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Contact: Jon Weiner
University of Southern California

Grants by the National Institute of Diabetes & Digestive & Kidney Diseases and the National Center for Research Resources (General Clinical Research Center) supported the research. Bio Technology General Corp., which makes Oxandrin (oxandrolone), also supported part of the research.

Edward T. Schroeder, Michael Terk and Fred R. Sattler, “Pharmacological Doses of Androgen Do Not Improve Muscle Quality in Young or Older Men: Results from Two Studies,” Endocrine Society’s 85th Annual Meeting, poster P3-212, presentation 11 a.m., June 21. Findings released at news conference 1:30 p.m., June 19.