Nutritional implications for ultra-endurance walking and running events

Williamson, Eric

doi:10.1186/s13728-016-0054-0

Cited by 32 publications

(27 citation statements)

References 183 publications

(196 reference statements)

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“…Ultramarathon races (> 42.195 km) have gained popularity in the last two decades [ 1 – 3 ] and are now used as experimental models to assess the effects of sleep deprivation [ 4 , 5 ] and muscular [ 6 , 7 ] and cardiac [ 8 , 9 ] damage. Most of the focus has been on the analysis of nutritional and fluid intake [ 10 , 11 ].…”

Section: Introductionmentioning

confidence: 99%

Analysis of food and fluid intake in elite ultra-endurance runners during a 24-h world championship

Lavoué

Siracusa

Chalchat

et al. 2020

Journal of the International Society of Sports Nutrition

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Background: Properly replacing energy and fluids is a challenge for 24-h ultramarathoners because such unusually high intake may induce adverse effects (gastrointestinal symptoms [GIS] and exercise-associated hyponatremia [EAH]). We analyzed such intake for 12 twelve elite athletes (6 males and 6 females; age: 46 ± 7 years, height: 170 ± 9 cm, weight: 61.1 ± 9.6 kg, total distance run: 193-272 km) during the 2019 24-h World Championships and compared it to the latest nutritional recommendations described by the International Society of Sports Nutrition in 2019. We hypothesized that these elite athletes would easily comply these recommendations without exhibiting detrimental adverse symptoms. Methods: Ad libitum food and fluid intake was recorded in real-time and energy, macronutrient, sodium, and caffeine intake then calculated using a spreadsheet in which the nutritional composition of each item was previously recorded. GIS, markers of dehydration (body mass modifications, plasma and urine osmolality, and plasma volume; samples obtained 26 h before and just after the race) and EAH (plasma and urine sodium concentrations) were also assessed. Results: Fluid, energy, and carbohydrate intake of the 11 finishers was 16.4 ± 6.9 L, 35.1 ± 15.7 MJ, and 1.49 ± 0.71 kg, respectively. Individual analyses showed that all but one (for fluid intake) or two (for energy and carbohydrate intake) consumed more than the minimum recommendations. The calculated energy balance remained, however, largely negative (− 29.5 ± 16.1 MJ). Such unusually high intake was not accompanied by detrimental GIS (recorded in 75%, but only transiently [3.0 ± 0.9 h]) or EAH (0%). The athletes were not dehydrated, shown by the absence of significant body mass loss (− 0.92 ± 2.13%) and modifications of plasma osmolality and an increase in plasma volume (+ 19.5 ± 15.8%). Performance (distance ran) positively correlated with energy intake (ρ = 0.674, p = 0.023) and negatively (ρ = − 0.776, p = 0.005) with fluid intake. Conclusions: Overall, almost all of these elite 24-h ultramarathoners surpassed the nutritional recommendations without encountering significant or the usual adverse effects.

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Section: Introductionmentioning

confidence: 99%

Analysis of food and fluid intake in elite ultra-endurance runners during a 24-h world championship

Lavoué

Siracusa

Chalchat

et al. 2020

Journal of the International Society of Sports Nutrition

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“…Information on the metabolic needs of ultramarathon runners is obtained largely from either extrapolations or indirect estimates using a variety of methods (e.g., equations, heart rate responses, and/or accelerometry), predominantly from either single-case or case-series research designs (Williamson, 2016). Nevertheless, total caloric expenditure rates, using validated accelerometry and/ or breath-by-breath indirect calorimetry methodologies, appear to be positively associated with overall exertional stress (Vernillo et al, 2017;Williamson, 2016 (Alcock et al, 2018), and up to 18,000 kcal•day −1 for a 24-hr single-stage trail ultramarathon (coverage range: 122-208 km) event (Costa et al, 2014b). These data suggest that single-stage ultramarathon events may result in a vast energy expenditure; however, at a relatively low continuous hourly rate (e.g., ∼550 kcal•hr −1 over a 24-hr period), with the total energy cost dependent on the specific race distance/time (Costa et al, 2014b;Williamson, 2016).…”

Section: Nutritional Demands and Support Strategiesmentioning

confidence: 99%

“…Nevertheless, total caloric expenditure rates, using validated accelerometry and/ or breath-by-breath indirect calorimetry methodologies, appear to be positively associated with overall exertional stress (Vernillo et al, 2017;Williamson, 2016 (Alcock et al, 2018), and up to 18,000 kcal•day −1 for a 24-hr single-stage trail ultramarathon (coverage range: 122-208 km) event (Costa et al, 2014b). These data suggest that single-stage ultramarathon events may result in a vast energy expenditure; however, at a relatively low continuous hourly rate (e.g., ∼550 kcal•hr −1 over a 24-hr period), with the total energy cost dependent on the specific race distance/time (Costa et al, 2014b;Williamson, 2016). Considering the typically longer nonstop distance of singlestage ultramarathon events, compared with each individual stage of multistage ultramarathon events and subsequent nonexercising rest periods between stages, it is likely to be more difficult for ultramarathon runners to match energy expenditure with energy intake during single-stage ultramarathon competitions, resulting in a substantial acute energy deficit (Costa et al, 2014b;Enqvist et al, 2010, Martinez et al, 2018.…”

Section: Nutritional Demands and Support Strategiesmentioning

confidence: 99%

Nutrition for Ultramarathon Running: Trail, Track, and Road

Costa

Knechtle

Tarnopolsky

et al. 2019

International Journal of Sport Nutrition and Exercise Metabolism

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Ultramarathon running events and participation numbers have increased progressively over the past three decades. Besides the exertion of prolonged running with or without a loaded pack, such events are often associated with challenging topography, environmental conditions, acute transient lifestyle discomforts, and/or event-related health complications. These factors create a scenario for greater nutritional needs, while predisposing ultramarathon runners to multiple nutritional intake barriers. The current review aims to explore the physiological and nutritional demands of ultramarathon running and provide general guidance on nutritional requirements for ultramarathon training and competition, including aspects of race nutrition logistics. Research outcomes suggest that daily dietary carbohydrates (up to 12 g·kg−1·day−1) and multiple-transportable carbohydrate intake (∼90 g·hr−1 for running distances ≥3 hr) during exercise support endurance training adaptations and enhance real-time endurance performance. Whether these intake rates are tolerable during ultramarathon competition is questionable from a practical and gastrointestinal perspective. Dietary protocols, such as glycogen manipulation or low-carbohydrate high-fat diets, are currently popular among ultramarathon runners. Despite the latter dietary manipulation showing increased total fat oxidation rates during submaximal exercise, the role in enhancing ultramarathon running performance is currently not supported. Ultramarathon runners may develop varying degrees of both hypohydration and hyperhydration (with accompanying exercise-associated hyponatremia), dependent on event duration, and environmental conditions. To avoid these two extremes, euhydration can generally be maintained through “drinking to thirst.” A well practiced and individualized nutrition strategy is required to optimize training and competition performance in ultramarathon running events, whether they are single stage or multistage.

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“…To keep in mind, salt intake increases blood pressure and therefore headache or even high altitude cerebral edema or high altitude pulmonic edema can pe provoked. To sum up, optimal nutrition while ultra-exercising results in a decreased risk of energy depletion, better performance, and quicker full-recovery while increasing security for further tours in the next days (Williamson 2016, Munter, 2017Winkler et al 2008).…”

Section: Discussionmentioning

confidence: 99%

Nutritional behavior while ski-mountaineering: An analysis from the Swiss Alps

Gasser

2019

jhse

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The aim of this study was to analyze nutritional habits of well-trained alpinists during a standard ski mountaineering tour. Therefore a sample of eighteen male ski mountaineers (25 ± 5.8 years, 73.2 ± 6.1 kg, 180.2 ± 6.8 cm) were questioned after absolving a typical ski mountaineering tour e.g. Finsterarhorn 4274 meter (Cantone Bern); Gross Ruchen 3183 meter (Cantone Glarus); L'aiguille de la Tsa 3668 meter (Cantone Wallis). It was detected, that nutritional habits differed widely. From bread to meat and chocolate a broad range of nutritionals were consumed. Interestingly, despite the physiological demands special sports nutrition such as gels or special sport bars were not widely used. Lots of alpinists also consumed fruits or dried fruits such as apples or dried apricots. Interestingly, only one person paid special attention to salt intake. Fluid intake seemed with an average of 1.39 ± 0.68 liter per tour relatively low. This was probably also due to the aim of reducing backpack weight allowing to faster reach the peak while increasing security. Due to the low fluid intake Alpinists are encouraged to be well hydrated when starting and to drink sufficiently after finishing tours, especially when tours of several days are absolved a fast rehydration improves recovering and reduces risks of accidents in further tours in the following days.

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Nutritional implications for ultra-endurance walking and running events

Cited by 32 publications

References 183 publications

Analysis of food and fluid intake in elite ultra-endurance runners during a 24-h world championship

Analysis of food and fluid intake in elite ultra-endurance runners during a 24-h world championship

Nutrition for Ultramarathon Running: Trail, Track, and Road

Nutritional behavior while ski-mountaineering: An analysis from the Swiss Alps

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