Abstract
Background: Literature reports significant disparities in the haematological response to altitude training among endurance athletes. The role of iron in determining the haematological response to altitude training is under-investigated. Objective: This study compared haematological parameters between Sri Lankan endurance athletes exposed to hypoxic and normoxic conditions, with and without iron supplementation. Method: Sri Lanka Army long and middle-distance male athletes were studied under four conditions; low altitude non-supplemented [LOW: n=14] and supplemented [LOW-S: n=7], high altitude non-supplemented [HIGH: n=6] and supplemented [HIGH-S: n=7]. High altitude groups lived at 2200 m and trained at 1800 m. Low altitude groups lived and trained at 40 or 120 m. All athletes underwent endurance training for five weeks. Pre and post intervention blood samples were obtained to determine haematological parameters. Results: A significant increase in haemoglobin concentration (0.67 g/dl) was observed in the two high altitude groups after five weeks of training (p=0.004). Serum ferritin decreased by 28.4% (p=0.05) and red cell distribution width increased (p=0.04) in HIGH while ferritin increased by 26.5% (p=0.08) and red cell distribution width decreased (p=0.01) in HIGH-S. No changes were observed in the low altitude groups. Conclusion: A substantial haematological response is observed when Sri Lankan endurance athletes are exposed to an adequate hypoxic dose. However, non-iron supplemented athletes are at a tendency to develop iron deficiency whilst supplemented athletes may accumulate iron even with previously recommended levels of pre-altitude ferritin.
Highlights
Many endurance athletes engage in altitude training protocols with the intention of improving their sea level performance.[1]
The final number of athletes included in the analysis of Hb concentration and red cell parameters in each group were fourteen, seven, six and seven for LOW, LOW-S, HIGH and HIGH-S respectively since several athletes failed to be present for the POST testing sessions due to injury or personal reasons and some were excluded because of failure to comply with the protocol
Hb concentration increases significantly in long- and middle-distance athletes undergoing altitude training, provided they are exposed to an adequate hypoxic stimulus and have adequate pre-altitude iron stores
Summary
Many endurance athletes engage in altitude training protocols with the intention of improving their sea level performance.[1] Beneficial effects of altitude training on sea level performance are mainly attributed to the haematological adaptations that occur in response to exposure to hypoxia.[2] There is another school of thought that non-haematological mechanisms such as improved mitochondrial efficiency and muscle buffer capacity contribute to improved sea level performance after altitude training.[3] While it is likely that several factors are responsible for the development of favourable results, it has been observed that there is a significant individual variation in the haematological and performance related response to hypoxia. Literature reports significant disparities in the haematological response to altitude training among endurance athletes. The role of iron in determining the haematological response to altitude training is under-investigated
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