Athletes are encouraged to begin exercise well hydrated and to consume sufficient amounts of appropriate fluids during exercise to limit water and salt deficits. Available evidence suggests that many athletes begin exercise already dehydrated to some degree, and although most fail to drink enough to match sweat losses, some drink too much and a few develop hyponatremia. Some simple advice can help athletes assess their hydration status and develop a personalized hydration strategy that takes account of exercise, environment, and individual needs. Preexercise hydration status can be assessed from urine frequency and volume, with additional information from urine color, specific gravity, or osmolality. Change in hydration during exercise can be estimated from the change in body mass that occurs during a bout of exercise. Sweat rate can be estimated if fluid intake and urinary losses are also measured. Sweat salt losses can be determined by collection and analysis of sweat samples, but athletes losing large amounts of salt are likely to be aware of the taste of salt in sweat and the development of salt crusts on skin and clothing where sweat has evaporated. An appropriate drinking strategy will take account of preexercise hydration status and of fluid, electrolyte, and substrate needs before, during, and after a period of exercise. Strategies will vary greatly between individuals and will also be influenced by environmental conditions, competition regulations, and other factors.
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Development of Individual Hydration Strategies for Athletes
Ronald J. Maughan and Susan M. Shirreffs
Precontest Strategies of a Male Bodybuilder
Suzanne Nelson Steen
The dietary strategies of a 25-year-old bodybuilder were studied as he prepared for a contest. Food records were kept over a 6-month period that included the off-season, weight reduction phase, and week of a contest. Mean caloric intake during the off-season was 4,193 kcal (49 kcal/kg), Average intake per kg body weight was 8.7 g/kg carbohydrate and 2.8 g/kg protein. During the weight reduction phase of training, mean caloric intake was 3,020 kcal (37 kcal/kg). Carbohydrate intake averaged 6.1 g/kg and protein averaged 2.7 g/kg. The RDA was met for all micronutrients without any need for supplementation. Beginning at 3 weeks before the contest, dietary intake changed dramatically and haddock, rice, or potato were eaten every 2 hours. Protein intake averaged 4 g/kg. Carbo-loading was practiced the week precontest to enhance muscularity. During all phases the subject used anabolic steroids and consumed various supplements. During the off-season he took a high potency multivitamin/multimineral daily and 60-100 grams of amino acids when “needed.” As the competition drew closer, numerous additional supplements were taken. In light of these many unhealthy practices, alternative strategies should be negotiated with the athlete that are realistic, and changes should be implemented slowly.
Improved Marathon Performance by In-Race Nutritional Strategy Intervention
Ernst Albin Hansen, Anders Emanuelsen, Robert Mørkegaard Gertsen, and Simon Schøler Raadahl Sørensen
It was tested whether a marathon was completed faster by applying a scientifically based rather than a freely chosen nutritional strategy. Furthermore, gastrointestinal symptoms were evaluated. Nonelite runners performed a 10 km time trial 7 weeks before Copenhagen Marathon 2013 for estimation of running ability. Based on the time, runners were divided into two similar groups that eventually should perform the marathon by applying the two nutritional strategies. Matched pairs design was applied. Before the marathon, runners were paired based on their prerace running ability. Runners applying the freely chosen nutritional strategy (n = 14; 33.6 ± 9.6 years; 1.83 ± 0.09 m; 77.4 ± 10.6 kg; 45:40 ± 4:32 min for 10 km) could freely choose their in-race intake. Runners applying the scientifically based nutritional strategy (n = 14; 41.9 ± 7.6 years; 1.79 ± 0.11 m; 74.6 ± 14.5 kg; 45:44 ± 4:37 min) were targeting a combined in-race intake of energy gels and water, where the total intake amounted to approximately 0.750 L water, 60 g maltodextrin and glucose, 0.06 g sodium, and 0.09 g caffeine per hr. Gastrointestinal symptoms were assessed by a self-administered postrace questionnaire. Marathon time was 3:49:26 ± 0:25:05 and 3:38:31 ± 0:24:54 hr for runners applying the freely chosen and the scientifically based strategy, respectively (p = .010, effect size=-0.43). Certain runners experienced diverse serious gastrointestinal symptoms, but overall, symptoms were low and not different between groups (p > .05). In conclusion, nonelite runners completed a marathon on average 10:55 min, corresponding to 4.7%, faster by applying a scientifically based rather than a freely chosen nutritional strategy. Furthermore, average values of gastrointestinal symptoms were low and not different between groups.
Weight Management and Weight Loss Strategies of Professional Jockeys
Jan M. Moore, Anna F. Timperio, David A. Crawford, Cate M. Burns, and David Cameron-Smith
Jockeys are required to maintain very low body weight and precise weight control during competition. This study examined the weight loss and weight management strategies of professional horseracing jockeys in the state of Victoria, Australia. An anonymous, self-completed questionnaire was administered (55% response rate, n=116). Almost half (43%) reported that maintaining riding weight was difficult or very difficult, with 75% routinely skipping meals. In preparation for racing, 60% reported that they typically required additional weight loss, with 81% restricting food intake in the 24 hours prior to racing. Additionally, sauna-induced sweating (29%) and diuretics (22%) were frequently employed to further aid in weight loss prior to racing. These rapid weight loss methods did not differ between the 51% of jockeys who followed a weight management plan compared to those who did not. The impact of these extreme weight loss practices on riding performance and health remains unknown.
Diet and Exercise Strategies of a World-Class Bodybuilder
Melinda M. Manore, Janice Thompson, and Marcy Russo
This study presents the diet and exercise strategies of a world-class bodybuilder during an 8-week precompetition period. Weighed food records were kept daily, and body fat, resting metabolic rate (RMR),
Feeding Strategies of a Female Athlete During an Ultraendurance Running Event
Siobhan T. Moran, Christine E. Dziedzic, and Gregory R. Cox
The aim of this case study was to describe the race nutrition practices of a female runner who completed her first 100-km off-road ultraendurance running event in 12 hr 48 min 55 s. Food and fluid intake during the race provided 10,890 kJ (736 kJ/hr) and 6,150 ml (415 ml/hr) of fluid. Hourly reported carbohydrate intake was 44 g, with 34% provided by sports drink. Hourly carbohydrate intake increased in the second half (53 g/hr) compared with the first half (34 g/h) of the race, as the athlete did not have access to individualized food and fluid choices at the early checkpoints and felt satiated in the early stages of the race after consuming a prerace breakfast. Mean sodium intake was 500 mg/hr (52 mmol/L), with a homemade savory broth and sports drink (Gatorade Endurance) being the major contributors. The athlete consumed a variety of foods of varying textures and tastes with no complaints of gastrointestinal discomfort. Despite thinking she would consume sweet foods exclusively, as she had done in training, the athlete preferred savory foods and fluids at checkpoints during the latter stages of the race. This case study highlights the importance of the sports nutrition team in educating athletes about race-day nutrition strategies and devising a simple yet effective system to allow them to manipulate their race-day food and fluid intake to meet their nutritional goals.
Comparison of Strategies for Assessing Nutritional Adequacy in Elite Female Athletes’ Dietary Intake
Susan Heaney, Helen O’Connor, Janelle Gifford, and Geraldine Naughton
Purpose:
This study aimed to compare strategies for assessing nutritional adequacy in the dietary intake of elite female athletes.
Methods:
Dietary intake was assessed using an adapted food-frequency questionnaire in 72 elite female athletes from a variety of sports. Nutritional adequacy was evaluated and compared using mean intake; the proportion of participants with intakes below Australian nutrient reference values (NRV), U.S. military dietary reference intakes (MDRI), and current sports nutrition recommendations; and probability estimates of nutrient inadequacy.
Results:
Mean energy intake was 10,551 ± 3,836 kJ/day with macronutrient distribution 18% protein, 31% fat, and 46% carbohydrate, consistent with Australian acceptable macronutrient distribution ranges. Mean protein intake (1.6 g · kg−1 · d−1) was consistent with (>1.2 g · kg−1 · d−1), and carbohydrate intake (4.5 g · kg−1 · d−1), below, current sports nutrition recommendations (>5 g · kg−1 · d−1), with 30% and 65% of individuals not meeting these levels, respectively. Mean micronutrient intake met the relevant NRV and MDRI except for vitamin D and folate. A proportion of participants failed to meet the estimated average requirement for folate (48%), calcium (24%), magnesium (19%), and iron (4%). Probability estimates of inadequacy identified intake of folate (44%), calcium (22%), iron (19%), and magnesium (15%) as inadequate.
Conclusion:
Interpretation of dietary adequacy is complex and varies depending on whether the mean, proportion of participants below the relevant NRV, or statistical probability estimate of inadequacy is used. Further research on methods to determine dietary adequacy in athlete populations is required.
A Review of Nonpharmacological Strategies in the Treatment of Relative Energy Deficiency in Sport
Megan A. Kuikman, Margo Mountjoy, Trent Stellingwerff, and Jamie F. Burr
health outcomes of EA. EI = energy intake; EEE = exercise energy expenditure; FFM = fat-free mass; EA = energy availability. Figure 2 —Summary of the physiological effects of nonpharmacological treatment strategies. CHO = carbohydrate; GnRH = gonadotropin-releasing hormone; FSH = follicle
Educational Strategies Used in Increasing Fluid Intake and Enhancing Hydration Status in Field Hockey Players Preparing for Competition in a Hot and Humid Environment: A Case Study
Jackie A. Dabinett, Karen Reid, and Nic James
The purpose of the present study was to develop a hydration strategy for use by female English field hockey players at the 1998 Commonwealth Games in Malaysia. An additional aim was to initiate the process of acclimation. Fifteen elite players, mean age (±SEM) 24.1 ± 1.19 years, height 1.67 ± 0.01 m, and body mass 62.8 ± 1.76 kg, took part in a 5-day training camp immediately prior to departure for the Games. In order to develop the hydration strategy, training took place under similar environmental conditions to those to be experienced in Malaysia (i.e., 32 °C, 80% humidity). Acclimation training consisted of 30–50 min of either continuous, low intensity cycling or high intensity intermittent cycling, which more closely replicated the pattern of activity in field hockey. Body mass measures taken each morning, and pre and post training, together with urine color measures, were used to assess hydration status. Pre-loading with up to 1 L of a 3% carbohydrate-electrolyte solution or water immediately prior to acclimation training, as well as regular drinks throughout, ensured that players avoided significant dehydration, with percent body mass changes ranging from −0.34% to +4.24% post training. Furthermore, the protocol used was sufficient to initiate the process of acclimation as demonstrated by a significant reduction in exercising heart rate and core temperature at all time points by days 4 and 5. In conclusion, although labor intensive and time consuming, the camp was successful in developing a hydration strategy that players were able to utilize once at the Games.
A Systematic Review of CrossFit® Workouts and Dietary and Supplementation Interventions to Guide Nutritional Strategies and Future Research in CrossFit®
Ricardo Augusto Silva de Souza, André Guedes da Silva, Magda Ferreira de Souza, Liliana Kataryne Ferreira Souza, Hamilton Roschel, Sandro Fernandes da Silva, and Bryan Saunders
strategies on CrossFit ® performance to guide nutritional recommendations for optimal recovery, adaptations, and performance for CrossFit ® and direct future research in this emerging area. Methods Study Eligibility This systematic review was performed following the Preferred Reporting Guidelines for