PT - JOURNAL ARTICLE AU - Schwellnus, Martin P AU - Drew, Nichola AU - Collins, Malcolm TI - Increased running speed and previous cramps rather than dehydration or serum sodium changes predict exercise-associated muscle cramping: a prospective cohort study in 210 Ironman triathletes AID - 10.1136/bjsm.2010.078535 DP - 2011 Jun 01 TA - British Journal of Sports Medicine PG - 650--656 VI - 45 IP - 8 4099 - http://bjsm.bmj.com/content/45/8/650.short 4100 - http://bjsm.bmj.com/content/45/8/650.full SO - Br J Sports Med2011 Jun 01; 45 AB - Background Despite the high prevalence of exercise-associated muscle cramping (EAMC) in endurance athletes, the aetiology and risk factors for this condition are not fully understood. Aim The aim of this prospective cohort study was to identify risk factors associated with EAMC in endurance triathletes. Methods 210 triathletes competing in an Ironman triathlon were recruited. Prior to the race, subjects completed a detailed validated questionnaire and blood samples were taken for serum electrolytes. Immediately before the race, pre-race body weight was obtained. Body weight and blood samples for serum electrolyte concentrations were obtained immediately after the race. Clinical data on EAMC experienced during or immediately after the race were also collected. Results 43 triathletes reported EAMC (cramping group) and were compared with the 166 who did not report EAMC (non-cramping group). There were no significant differences between groups in any pre-race–post-race serum electrolyte concentrations and body weight changes. The development of EAMC was associated with faster predicted race times and faster actual race times, despite similarly matched preparation and performance histories in subjects from both groups. A regression analysis identified faster overall race time (and cycling time) and a history of cramping (in the last 10 races) as the only two independent risk factors for EAMC. Conclusion The results from this study add to the evidence that dehydration and altered serum electrolyte balance are not causes for EAMC. Rather, endurance runners competing at a fast pace, which suggests that they exercise at a high intensity, are at risk for EAMC.