g , Vitamin E, niacin, folic acid, vitamin C, etc), few have been

g., Vitamin E, niacin, folic acid, vitamin C, etc), few have been reported to directly provide ergogenic value for athletes. However, SC79 ic50 some vitamins may help athletes tolerate training to a greater degree by reducing oxidative damage (Vitamin E, C) and/or help to maintain a healthy immune system during heavy training (Vitamin C). Theoretically, this may help athletes tolerate heavy training leading to improved performance. The remaining vitamins reviewed appear to have little ergogenic value for athletes who CA4P consume a normal, nutrient dense diet. Since dietary analyses of athletes have found

deficiencies in caloric and vitamin intake, many sports nutritionists’ recommend that athletes consume a low-dose daily multivitamin and/or a vitamin enriched post-workout carbohydrate/protein supplement Temsirolimus during periods of heavy training. An article in the Journal of the American Medical Association also recently evaluated the available medical literature and recommended that Americans consume a one-a-day low-dose multivitamin

in order to promote general health. Suggestions that there is no benefit of vitamin supplementation for athletes and/or it is unethical for an sports nutrition specialist to recommend that their clients take a one-a-day multi-vitamin and/or suggest taking other vitamins that may raise HDL cholesterol levels and decrease risk of heart disease (niacin), serve as antioxidants (Vitamin E), preserve musculoskeletal function and skeletal mass (vitamin D), or may help maintain a health immune system (Vitamin C) is not consistent with current available literature. Table 1 Proposed Nutritional Ergogenic Aids – Vitamins Nutrient RDA Proposed Ergogenic Value Summary of Research Findings Vitamin A Males 900 mcg/d Females 700 mcg/d Constituent of rhodopsin (visual pigment) and is involved in night vision. Some suggest that vitamin A

supplementation may improve sport vision. No studies have shown that vitamin A supplementation improves exercise performance [480]. Vitamin D 5 mcg/d (age <51) Promotes bone growth check details and mineralization. Enhances calcium absorption. Supplementation with calcium may help prevent bone loss in osteoperotic populations. Co-supplementation with calcium may help prevent bone loss in athletes susceptible to osteoporosis [481]. However, vitamin D supplementation does not enhance exercise performance [480]. Vitamin E 15 mg/d As an antioxidant, it has been shown to help prevent the formation of free radicals during intense exercise and prevent the destruction of red blood cells, improving or maintaining oxygen delivery to the muscles during exercise. Some evidence suggests that it may reduce risk to heart disease or decrease incidence of recurring heart attack. Numerous studies show that vitamin E supplementation can decrease exercise-induced oxidative stress [482–484]. However, most studies show no effects on performance at sea level.

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