The content on this website is intended to provide general information about our clinic and services, and should not be mistaken for medical advice. We prescribe testosterone and other hormone therapy only after an in-office, comprehensive evaluation indicates that hormone therapy is safe and medically necessary. We do not prescribe testosterone or human growth hormone (HGH) or human chorionic gonadotropin (HCG) solely for bodybuilding or athletic performance enhancement, or for solely "anti-aging" purposes. We do not prescribe HGH for off-label uses under any circumstances.
NOTE: Our physicians are "naturopathic physicians," not "physicians" or "osteopathic physicians," and neither "TRT" nor "integrative men's health" are "medical specialties."
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Advance Therapy provides hormone replacement therapy information, services and products including Testosterone, HCG and HGH. Medical Consultation, Age Management Physician Specialist, Testosterone Doctor, HGH Therapy Doctor, Anti-Aging and US Physician specialist referal is availble for adult hormone deficiency related symptoms. We also provide diet, exercise and fitness, lifestyle change, healthy aging, IV therapy, detoxification and nutritional program information. No information on this website is intended to cure any medical or health condition and is solely for informational and educational purpose.
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Testosterone administration (T) increases lean body mass and muscle protein synthesis. We investigated the effects of short-term T on leg muscle protein kinetics and transport of selected amino acids by use of a model based on arteriovenous sampling and muscle biopsy. Fractional synthesis (FSR) and breakdown (FBR) rates of skeletal muscle protein were also directly calculated. Seven healthy men were studied before and 5 days after intramuscular injection of 200 mg of testosterone enanthate. Protein synthesis increased twofold after injection (P < ), whereas protein breakdown was unchanged. FSR and FBR calculations were in accordance, because FSR increased twofold (P < ) without a concomitant change in FBR. Net balance between synthesis and breakdown became more positive with both methodologies (P < ) and was not different from zero. T injection increased arteriovenous essential and nonessential nitrogen balance across the leg (P < ) in the fasted state, without increasing amino acid transport. Thus T administration leads to an increased net protein synthesis and reutilization of intracellular amino acids in skeletal muscle.