View clinical trials related to Sarcopenia.
Filter by:Loss of muscle mass and functional ability is a major concern for older individuals. Aging is associated with increased inflammation caused by release of hormone-like compounds termed "cytokines" which are involved in muscle protein degradation. Diets rich in ω-3 fatty acids decrease the production of pro-inflammatory cytokines, possibly by inhibiting production of lipids involved in cytokine synthesis. Our purpose is to assess the effect of dietary supplementation with an ω-3 fatty acid, α-linolenic acid (ALA) commonly found in flaxseed, combined with resistance training on pro-inflammatory cytokines, strength, and muscle mass in older adults. Progressive resistance training is considered to be the standard for increasing strength and muscle mass in older adults. We hypothesize that combining the two interventions will improve strength and muscle mass more than resistance training alone by modulating the inflammatory process associated with aging. Our proposed research will compare older individuals supplementing with ALA and placebo during a resistance training program.
There is increasing evidence that the acid-base balance of diet plays an important role in the health of bones and muscles. An excess of acid in the body can result in calcium loss and muscle breakdown. Potassium bicarbonate, a base supplement, can neutralize acid within the body. The purpose of this study is to determine the effectiveness of potassium and bicarbonate, alone and combined, at reducing bone loss and preventing muscle wasting in older adults.
The study aims to determine the effects of testosterone on muscle function, mobility, activities of daily living and overall quality of life
The purpose of this study is to determine the relationship of deficiencies in testosterone and growth hormone to loss of muscle mass (sarcopenia) and functional impairment during aging and whether there is an interaction of these two hormone systems in maintaining normal skeletal muscle mass and physical function.
Background: Men≥65 years often produce lower levels of testosterone, meaning there is less testosterone circulating to the tissues of the body. This is associated with negative effects on muscle strength, bone density, sexual function, mood, and the ability to think to the best of one's ability. Testosterone replacement therapy often involves injections, patches, or gels that help to raise circulating testosterone levels, but these therapies often have side effects because they lead to imbalance of other hormones. Researchers have been studying the effectiveness of anastrozole, a drug that can lower estrogen levels while simultaneously increasing testosterone levels, as a treatment for the negative effects of decreased circulating testosterone levels that occur naturally with aging. Objectives: To evaluate whether anastrozole is as effective as testosterone gel in improving bone and muscle strength, hormone levels, and brain function in men over 65 years of age. Eligibility: Healthy men at least 65 years of age who have low levels of testosterone. Design: The study involves six study visits over a total of 12 months: screening, baseline, 6 weeks, 3 months, 6 months, and 12 months. All participants will receive calcium and vitamin D supplements to take daily, and will be randomized to one of three groups:Testosterone gel and placebo tablet, Anastrozole tablet and placebo gel, Placebo tablet and gel. Participants will have the following tests at each specified visit:Screening: Blood tests and rectal ultrasound to evaluate the prostate;Baseline: Blood and urine tests; growth hormone levels, muscle strength, bone density, and balance evaluation; imaging studies; cognitive testing; and questionnaires on quality of life, sexual function, depression, and urinary symptoms;Six weeks: Blood tests and dose adjustment of the gel or tablet;Three months: Blood and urine tests; growth hormone, muscle strength, bone density, and balance evaluation; and questionnaires on quality of life, sexual function, depression, and urinary symptoms;Six months: Blood and urine tests; muscle strength, bone density, and balance evaluation; cognitive testing; and questionnaires on quality of life, sexual function, depression, and urinary symptoms;Twelve months: Blood and urine tests; rectal ultrasound; muscle strength, bone density, and balance evaluation; imaging studies; cognitive testing; and questionnaires on quality of life, sexual function, depression, and urinary symptoms.