View clinical trials related to Iron Deficiency (Without Anemia).
Filter by:Iron deficiency is known to negatively impact physical performance, attention, and time spent doing physical activity. As a result, an iron deficient person must expend more energy to complete the same amount of work as someone who is healthy. Another interesting relationship has been observed between exercise training and iron status in that women who participate in exercise training often have higher rates of iron deficiency than sedentary women. ID is commonly treated using daily iron supplementation. However, it is currently unknown whether participating in regular exercise somehow impacts the effectiveness of iron supplementation. Iron deficient women who participate in exercise programs may potentially benefit less from iron supplementation than those who do not. Another common treatment for the symptoms of iron deficiency is the traditional Chinese herbal treatment, Ba-Zhen-Ke-Li (BZKL). While studies have shown that BZKL impacts expression of some iron-related proteins and increases endurance performance in rats, no studies have examined the efficacy of BZKL in improving iron markers or physical performance in humans. This study will compare the efficacy of BZKL in improving iron status and physical performance with that of ferrous sulfate supplementation. The Cornell research team will achieve these objectives in collaboration with colleagues at Kunming Medical University (KMU) in Kunming, China. A double-blind, randomized, placebo controlled study will be conducted by a Cornell graduate student at KMU. The subjects will be healthy women, age 18-26 years, attending KMU. Blood samples will be collected and analyzed for measures of iron). Subjects will be randomly assigned to receive 50 mg of ferrous sulfate (10 mg of elemental iron), 6mg of BZKL, or an identical placebo pill twice daily for 8 weeks. Subjects will be further randomly sub-divided to receive aerobic exercise training or no training during the 8-week supplementation period. At weeks 4 and 8, subjects will perform the same series of tests as was performed at baseline. The investigators hypothesize that: 1. the women who train and received iron will have smaller improvements in iron status than those who do not train 2. The women who receive iron and train will have greater improvements in physical performance than those who train and do not receive iron, and 3. The women who receive BZKL will improve their iron status or physical performance more than those who receive placebo.
The specific aims of the current study were: 1) To determine the prevalence of IDNA in a sample of female rowers at the beginning of a training season; 2) To determine how IDNA affects endurance training and performance at the beginning of a training season; 3) To determine how iron supplementation affects iron status, training and performance in IDNA female collegiate rowers. The researchers hypothesized that IDNA affects endurance performance in female collegiate rowers both in and outside of the laboratory, and that iron supplementation of IDNA rowers will improve iron status, and consequently, training quality via increased energetic efficiency.