Iron, Vitamins Could Affect Physical Fitness in Adolescents
Bethesda, Md. (Aug. 8, 2012)—Adolescence is an important time not only for growing but for acquiring healthy habits that will last a lifetime, such as choosing foods rich in vitamins and minerals, and adopting a regular exercise regimen. Unfortunately, several studies have shown that adolescents’ intake of important nutrients, as well as their performance on standard physical fitness tests, has fallen in recent years. Because nutrition and fitness are intertwined—for example, iron forms part of hemoglobin, which carries oxygen to muscles, and antioxidants such as vitamin C aid in rebuilding damage after intense training—these two findings could be related. In a new study, researchers have found that adolescents’ blood levels of various micronutrients are correlated with how well they performed in certain physical fitness tests. Though these results don’t prove causality, they suggest a new relationship between different measures of adolescent health.
The article is entitled “Iron and Vitamin Status Biomarkers and its Association with Physical Fitness in Adolescents. The HELENA Study.” and is online at http://bit.ly/Q2j6lJ. It appears in the online edition of the Journal of Applied Physiology, a publication of the American Physiological Society.
Researcher Luis Gracia-Marco of the University of Zaragoza, Spain and his colleagues relied on data from a larger, long-term research project known as the Healthy Lifestyle in Europe by Nutrition in Adolescents Cross-Sectional Study, or HELENA-CSS. Part of this study, which involved thousands of volunteers between the ages of 12.5 and 17.5 in cities scattered across Europe, gathered nutrition and physical fitness data. Blood samples taken in one third of the volunteers (n=1089) were tested for a variety of micronutrients, including hemoglobin, indicative of iron intake, soluble transferrin receptor, serum ferritin, retinol, vitamin C, beta-carotene, alpha-tocopherol, vitamin B6, cobalamin, holo-transcobalamin, plasma folate, RCB folate and vitamin D. The volunteers’ physical fitness was also assessed through a standing long jump test, which assesses lower-body muscular strength, and a 20 meter shuttle run test, which assesses cardiovascular fitness through maximal oxygen consumption (VO2max). When looking for correlations between the micronutrient levels and physical fitness, they took into account the adolescents’ age, time of year, latitude of the city they lived in, body mass index, age of menarche in females, and amount of regular physical activity (using accelerometers).
The researchers found that blood levels of certain micronutrients were intimately connected with the volunteers’ performance on the physical fitness tests. For cardiorespiratory fitness, concentrations of hemoglobin, retinol, and vitamin C in males and beta-carotene and vitamin D in females was positively associated with VO2max. For muscular fitness, concentrations of hemoglobin, beta-carotene and retinol was positively associated with performing better on the standing long jump in males, while concentrations of alpha-tocopherol was negatively associated with the performance in this test. In addition, beta-carotene and vitamin D in females was associated with performing better on the standing long jump test.
Importance of the Findings
The authors suggest that studies connecting micronutrients, such as the ones they measured, with physical fitness in any population has been controversial and limited. This is especially true for adolescents, a group that’s often difficult to gather information on. This new study, they say, is one of the first to find connections between micronutrients and physical fitness in this age group, with the strength of controlling the results for a complete set of relevant confounders. Yet, they note that more research still needs to be done.
“The associations between physical fitness and iron or vitamin status observed in this cross-sectional study in adolescents should be followed up by a study specifically designed to evaluate causal relationships,” the authors write.
In addition to Luis Gracia-Marco, the study team also includes Faustino R. Perez-Lopez, German Vicente-Rodriguez, and Luis A. Moreno, University of Zaragoza, Spain; Jara Valtuena and Marcela Gonzalez-Gross, Technical University of Madrid, Spain; Francisco B. Ortega, Karolinska Institute, Sweden; Christina Breidenassel and Peter Stehle, Rheinische Friedrich-Wilhelms Universitat, Germany; Marika Ferrari and
Giuseppe Maiani, National Research Institute on Food and Nutrition, Italy; Denes Molnar, University of Pecs, Hungary; Kurt Widhalm, Medical University of Vienna, Austria; Stefaan de Henauw, Ghent University, Belgium; Anthony Kafatos, University of Crete, Greece; Ligia E. Diaz, CSIC Madrid, Spain; Frederic Gottrand, University of Lille 2, France; and Manuel Castillo, University of Granada, Spain.
Primary funding for the study was received from the Spanish Ministry of Health, Spanish Ministry of Science and Innovation, and the Swedish Heart-Lung Foundation. Support for the HELENA Study was received through grants from the European Community Sixth TRD Framework Programme.
NOTE TO EDITORS: The article is available online at http://bit.ly/Q2j6lJ. For additional information, or to schedule an interview with a member of the research team, please contact Donna Krupa at firstname.lastname@example.org, @Phyziochick, or 301.634.7209.
Physiology is the study of how molecules, cells, tissues, and organs function in health and disease. Established in 1887, the American Physiological Society (APS) was the first US society in the biomedical sciences field. The Society represents more than 11,000 members and publishes 14 peer-reviewed journals with a worldwide readership.
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