Your search keyword '"Forbes, Sara F"' showing total 13 results

1. Short-Term Very High Carbohydrate Diet and Gut-Training Have Minor Effects on Gastrointestinal Status and Performance in Highly Trained Endurance Athletes

Author

King, Andy J., primary, Etxebarria, Naroa, additional, Ross, Megan L., additional, Garvican-Lewis, Laura, additional, Heikura, Ida A., additional, McKay, Alannah K. A., additional, Tee, Nicolin, additional, Forbes, Sara F., additional, Beard, Nicole A., additional, Saunders, Philo U., additional, Sharma, Avish P., additional, Gaskell, Stephanie K., additional, Costa, Ricardo J. S., additional, and Burke, Louise M., additional

Published

2022

2. Neither Beetroot Juice Supplementation nor Increased Carbohydrate Oxidation Enhance Economy of Prolonged Exercise in Elite Race Walkers

Author

Burke, Louise M., primary, Hall, Rebecca, additional, Heikura, Ida A., additional, Ross, Megan L., additional, Tee, Nicolin, additional, Kent, Georgina L., additional, Whitfield, Jamie, additional, Forbes, Sara F., additional, Sharma, Avish P., additional, Jones, Andrew M., additional, Peeling, Peter, additional, Blackwell, Jamie R., additional, Mujika, Iñigo, additional, Mackay, Karen, additional, Kozior, Marta, additional, Vallance, Brent, additional, and McKay, Alannah K. A., additional

Published

2021

3. Neither beetroot juice supplementation nor increased carbohydrate oxidation enhance economy of prolonged exercise in elite race walkers

Author

Burke, Louise M., Hall, Rebecca, Heikura, Ida A., Ross, Megan L., Tee, Nicolin, Kent, Georgina L., Whitfield, Jamie, Forbes, Sara F., Sharma, Avish P., Jones, Andrew M., Peeling, Peter, Blackwell, Jamie R., Mujika, Iñigo, Mackay, Karen, Kozior, Marta, Vallance, Brent, McKay, Alannah K.A., Burke, Louise M., Hall, Rebecca, Heikura, Ida A., Ross, Megan L., Tee, Nicolin, Kent, Georgina L., Whitfield, Jamie, Forbes, Sara F., Sharma, Avish P., Jones, Andrew M., Peeling, Peter, Blackwell, Jamie R., Mujika, Iñigo, Mackay, Karen, Kozior, Marta, Vallance, Brent, and McKay, Alannah K.A.

Abstract

Given the importance of exercise economy to endurance performance, we implemented two strategies purported to reduce the oxygen cost of exercise within a 4 week training camp in 21 elite male race walkers. Fourteen athletes undertook a crossover investigation with beetroot juice (BRJ) or placebo (PLA) [2 d preload, 2 h pre-exercise + 35 min during exercise] during a 26 km race walking at speeds simulating competitive events. Separately, 19 athletes undertook a parallel group investigation of a multi-pronged strategy (MAX; n = 9) involving chronic (2 w high carbohydrate [CHO] diet + gut training) and acute (CHO loading + 90 g/h CHO during exercise) strategies to promote endogenous and exogenous CHO availability, compared with strategies reflecting lower ranges of current guidelines (CON; n = 10). There were no differences between BRJ and PLA trials for rates of CHO (p = 0.203) or fat (p = 0.818) oxidation or oxygen consumption (p = 0.090). Compared with CON, MAX was associated with higher rates of CHO oxidation during exercise, with increased exogenous CHO use (CON; peak = ~0.45 g/min; MAX: peak = ~1.45 g/min, p < 0.001). High rates of exogenous CHO use were achieved prior to gut training, without further improvement, suggesting that elite athletes already optimise intestinal CHO absorption via habitual practices. No differences in exercise economy were detected despite small differences in substrate use. Future studies should investigate the impact of these strategies on sub-elite athletes’ economy as well as the performance effects in elite groups.

Published

2021

4. Adaptation to a low carbohydrate high fat diet is rapid but impairs endurance exercise metabolism and performance despite enhanced glycogen availability

Author

Burke, Louise M., primary, Whitfield, Jamie, additional, Heikura, Ida A., additional, Ross, Megan L. R., additional, Tee, Nicolin, additional, Forbes, Sara F., additional, Hall, Rebecca, additional, McKay, Alannah K. A., additional, Wallett, Alice M., additional, and Sharma, Avish P., additional

Published

2020

5. Correction: Crisis of confidence averted: Impairment of exercise economy and performance in elite race walkers by ketogenic low carbohydrate, high fat (LCHF) diet is reproducible

Author

Burke, Louise M., primary, Sharma, Avish P., additional, Heikura, Ida A., additional, Forbes, Sara F., additional, Holloway, Melissa, additional, McKay, Alannah K. A., additional, Bone, Julia L., additional, Leckey, Jill J., additional, Welvaert, Marijke, additional, and Ross, Megan L., additional

Published

2020

6. Crisis of confidence averted: Impairment of exercise economy and performance in elite race walkers by ketogenic low carbohydrate, high fat (LCHF) diet is reproducible

Author

Burke, Louise M., primary, Sharma, Avish P., additional, Heikura, Ida A., additional, Forbes, Sara F., additional, Holloway, Melissa, additional, McKay, Alannah K. A., additional, Bone, Julia L., additional, Leckey, Jill J., additional, Welvaert, Marijke, additional, and Ross, Megan L., additional

Published

2020

7. Adaptation to a low carbohydrate high fat diet is rapid but impairs endurance exercise metabolism and performance despite enhanced glycogen availability.

Author

Burke, Louise M., Whitfield, Jamie, Heikura, Ida A., Ross, Megan L. R., Tee, Nicolin, Forbes, Sara F., Hall, Rebecca, McKay, Alannah K. A., Wallett, Alice M., and Sharma, Avish P.

Subjects

HIGH-fat diet, ENDURANCE athletes, EXERCISE, GLYCOGEN, EXERCISE intensity, ELITE athletes

Abstract

Key points: Brief (5–6 days) adaptation to a low carbohydrate high fat diet in elite athletes increased exercise fat oxidation to rates previously observed with medium (3–4 weeks) or chronic (>12 months) adherence to this diet, with metabolic changes being washed out in a similar time frame.Increased fat utilisation during exercise was associated with a 5–8% increase in oxygen cost at speeds related to Olympic Programme races.Acute restoration of endogenous carbohydrate (CHO) availability (24 h high CHO diet, pre‐race CHO) only partially restored substrate utilisation during a race warm‐up. Fat oxidation continued to be elevated above baseline values although it was lower than achieved by 5–6 days' keto adaptation; CHO oxidation only reached 61% and 78% of values previously seen at exercise intensities related to race events.Acute restoration of CHO availability failed to overturn the impairment of high‐intensity endurance performance previously associated with low carbohydrate high fat adaptation, potentially due to the blunted capacity for CHO oxidation. We investigated substrate utilisation during exercise after brief (5–6 days) adaptation to a ketogenic low‐carbohydrate (CHO), high‐fat (LCHF) diet and similar washout period. Thirteen world‐class male race walkers completed economy testing, 25 km training and a 10,000 m race (Baseline), with high CHO availability (HCHO), repeating this (Adaptation) after 5–6 days' LCHF (n = 7; CHO: <50 g day−1, protein: 2.2 g kg−1 day−1; 80% fat) or HCHO (n = 6; CHO: 9.7 g kg−1 day−1; protein: 2.2 g kg−1 day−1) diet. An Adaptation race was undertaken after 24 h HCHO and pre‐race CHO (2 g kg−1) diet, identical to the Baseline race. Substantial (>200%) increases in exercise fat oxidation occurred in the LCHF Adaptation economy and 25 km tests, reaching mean rates of ∼1.43 g min−1. However, relative V̇O2 (ml min−1 kg−1) was higher (P < 0.0001), by ∼8% and 5% at speeds related to 50 km and 20 km events. During Adaptation race warm‐up in the LCHF group, rates of fat and CHO oxidation at these speeds were decreased and increased, respectively (P < 0.001), compared with the previous day, but were not restored to Baseline values. Performance changes differed between groups (P = 0.009), with all HCHO athletes improving in the Adaptation race (5.7 (5.6)%), while 6/7 LCHF athletes were slower (2.2 (3.4)%). Substrate utilisation returned to Baseline values after 5–6 days of HCHO diet. In summary, robust changes in exercise substrate use occurred in 5–6 days of extreme changes in CHO intake. However, adaptation to a LCHF diet plus acute restoration of endogenous CHO availability failed to restore high‐intensity endurance performance, with CHO oxidation rates remaining blunted. Key points: Brief (5–6 days) adaptation to a low carbohydrate high fat diet in elite athletes increased exercise fat oxidation to rates previously observed with medium (3–4 weeks) or chronic (>12 months) adherence to this diet, with metabolic changes being washed out in a similar time frame.Increased fat utilisation during exercise was associated with a 5–8% increase in oxygen cost at speeds related to Olympic Programme races.Acute restoration of endogenous carbohydrate (CHO) availability (24 h high CHO diet, pre‐race CHO) only partially restored substrate utilisation during a race warm‐up. Fat oxidation continued to be elevated above baseline values although it was lower than achieved by 5–6 days' keto adaptation; CHO oxidation only reached 61% and 78% of values previously seen at exercise intensities related to race events.Acute restoration of CHO availability failed to overturn the impairment of high‐intensity endurance performance previously associated with low carbohydrate high fat adaptation, potentially due to the blunted capacity for CHO oxidation. [ABSTRACT FROM AUTHOR]

Published

2021

8. Neither beetroot juice supplementation nor increased carbohydrate oxidation enhance economy of prolonged exercise in elite race walkers

Author

ACURF, Association of Potato Research and Education, Burke, Louise M., Hall, Rebecca, Heikura, Ida A., Ross, Megan L., Tee, Nicolin, Kent, Georgina L., Whitfield, Jamie, Forbes, Sara F., Sharma, Avish P., Jones, Andrew M., Peeling, Peter, Blackwell, Jamie R., Mujika, Iñigo, Mackay, Karen, Kozior, Marta, Vallance, Brent, McKay, Alannah K. A., ACURF, Association of Potato Research and Education, Burke, Louise M., Hall, Rebecca, Heikura, Ida A., Ross, Megan L., Tee, Nicolin, Kent, Georgina L., Whitfield, Jamie, Forbes, Sara F., Sharma, Avish P., Jones, Andrew M., Peeling, Peter, Blackwell, Jamie R., Mujika, Iñigo, Mackay, Karen, Kozior, Marta, Vallance, Brent, and McKay, Alannah K. A.

Abstract

peer-reviewed, Given the importance of exercise economy to endurance performance, we implemented two strategies purported to reduce the oxygen cost of exercise within a 4 week training camp in 21 elite male race walkers. Fourteen athletes undertook a crossover investigation with beetroot juice (BRJ) or placebo (PLA) [2 d preload, 2 h pre-exercise + 35 min during exercise] during a 26 km race walking at speeds simulating competitive events. Separately, 19 athletes undertook a parallel group investigation of a multi-pronged strategy (MAX; n = 9) involving chronic (2 w high carbohydrate [CHO] diet + gut training) and acute (CHO loading + 90 g/h CHO during exercise) strategies to promote endogenous and exogenous CHO availability, compared with strategies reflecting lower ranges of current guidelines (CON; n = 10). There were no differences between BRJ and PLA trials for rates of CHO (p = 0.203) or fat (p = 0.818) oxidation or oxygen consumption (p = 0.090). Compared with CON, MAX was associated with higher rates of CHO oxidation during exercise, with increased exogenous CHO use (CON; peak = ~0.45 g/min; MAX: peak = ~1.45 g/min, p < 0.001). High rates of exogenous CHO use were achieved prior to gut training, without further improvement, suggesting that elite athletes already optimise intestinal CHO absorption via habitual practices. No differences in exercise economy were detected despite small differences in substrate use. Future studies should investigate the impact of these strategies on sub-elite athletes’ economy as well as the performance effects in elite groups.

9. Adaptation to a low carbohydrate high fat diet is rapid but impairs endurance exercise metabolism and performance despite enhanced glycogen availability

Author

Nicolin Tee, Sara F. Forbes, Rebecca Hall, Jamie Whitfield, Avish P. Sharma, Ida A. Heikura, Alice Wallett, Louise M. Burke, Megan L. Ross, Alannah K A McKay, Burke, Louise M, Whitfield, Jamie, Heikura, Ida A, Ross, Megan LR, Tee, Nicolin, Forbes, Sara F, Hall, Rebecca, McKay, Alannah KA, Wallett, Alice M, and Sharma, Avish P

Subjects

0301 basic medicine, Male, Physiology, medicine.medical_treatment, Sports nutrition, Diet, High-Fat, 03 medical and health sciences, chemistry.chemical_compound, Diet, Carbohydrate-Restricted, 0302 clinical medicine, Animal science, Endurance training, sports nutirition, Low carbohydrate high fat, Dietary Carbohydrates, Medicine, Humans, Elite athletes, Special section reviews: Advances in exercise physiology: Exercise and health, Glycogen, business.industry, Metabolism, Carbohydrate, Adaptation, Physiological, Editor's Choice, 030104 developmental biology, sports nutrition, chemistry, ketogenic diet, Physical Endurance, athletic performance, business, 030217 neurology & neurosurgery, Ketogenic diet, Research Paper

Abstract

Key points Brief (5–6 days) adaptation to a low carbohydrate high fat diet in elite athletes increased exercise fat oxidation to rates previously observed with medium (3–4 weeks) or chronic (>12 months) adherence to this diet, with metabolic changes being washed out in a similar time frame.Increased fat utilisation during exercise was associated with a 5–8% increase in oxygen cost at speeds related to Olympic Programme races.Acute restoration of endogenous carbohydrate (CHO) availability (24 h high CHO diet, pre‐race CHO) only partially restored substrate utilisation during a race warm‐up. Fat oxidation continued to be elevated above baseline values although it was lower than achieved by 5–6 days’ keto adaptation; CHO oxidation only reached 61% and 78% of values previously seen at exercise intensities related to race events.Acute restoration of CHO availability failed to overturn the impairment of high‐intensity endurance performance previously associated with low carbohydrate high fat adaptation, potentially due to the blunted capacity for CHO oxidation. Abstract We investigated substrate utilisation during exercise after brief (5–6 days) adaptation to a ketogenic low‐carbohydrate (CHO), high‐fat (LCHF) diet and similar washout period. Thirteen world‐class male race walkers completed economy testing, 25 km training and a 10,000 m race (Baseline), with high CHO availability (HCHO), repeating this (Adaptation) after 5–6 days’ LCHF (n = 7; CHO: 200%) increases in exercise fat oxidation occurred in the LCHF Adaptation economy and 25 km tests, reaching mean rates of ∼1.43 g min−1. However, relative V˙O2 (ml min−1 kg−1) was higher (P, Key points Brief (5–6 days) adaptation to a low carbohydrate high fat diet in elite athletes increased exercise fat oxidation to rates previously observed with medium (3–4 weeks) or chronic (>12 months) adherence to this diet, with metabolic changes being washed out in a similar time frame.Increased fat utilisation during exercise was associated with a 5–8% increase in oxygen cost at speeds related to Olympic Programme races.Acute restoration of endogenous carbohydrate (CHO) availability (24 h high CHO diet, pre‐race CHO) only partially restored substrate utilisation during a race warm‐up. Fat oxidation continued to be elevated above baseline values although it was lower than achieved by 5–6 days’ keto adaptation; CHO oxidation only reached 61% and 78% of values previously seen at exercise intensities related to race events.Acute restoration of CHO availability failed to overturn the impairment of high‐intensity endurance performance previously associated with low carbohydrate high fat adaptation, potentially due to the blunted capacity for CHO oxidation.

Published

2020

10. Short-term very high carbohydrate diet and gut-training have minor effects on gastrointestinal status and performance in highly trained endurance athletes

Author

Andy J. King, Naroa Etxebarria, Megan L. Ross, Laura Garvican-Lewis, Ida A. Heikura, Alannah K. A. McKay, Nicolin Tee, Sara F. Forbes, Nicole A. Beard, Philo U. Saunders, Avish P. Sharma, Stephanie K. Gaskell, Ricardo J. S. Costa, Louise M. Burke, King, Andy J, Etxebarria, Naroa, Ross, Megan L, Garvican-Lewis, Laura, Heikura, Ida A, McKay, Alannah KA, Tee, Nicolin, Forbes, Sara F, Beard, Nicole A, Saunders, Philo U, Sharma, Avish P, Gaskell, Stephanie K, Costa, Ricardo JS, and Burke, Louise M

Subjects

Male, Nutrition and Dietetics, exercise, intestinal fatty acid binding protein, Walking, Diet, nutrition, marathon, athletic performance, gastrointestinal symptoms, claudin-3, running, breath hydrogen, Athletes, Dietary Carbohydrates, Physical Endurance, Humans, Female, Food Science

Abstract

We implemented a multi-pronged strategy (MAX) involving chronic (2 weeks high carbohydrate [CHO] diet + gut-training) and acute (CHO loading + 90 g·h−1 CHO during exercise) strategies to promote endogenous and exogenous CHO availability, compared with strategies reflecting lower ranges of current guidelines (CON) in two groups of athletes. Nineteen elite male race walkers (MAX: 9; CON:10) undertook a 26 km race-walking session before and after the respective interventions to investigate gastrointestinal function (absorption capacity), integrity (epithelial injury), and symptoms (GIS). We observed considerable individual variability in responses, resulting in a statistically significant (p < 0.001) yet likely clinically insignificant increase (Δ 736 pg·mL−1) in I-FABP after exercise across all trials, with no significant differences in breath H2 across exercise (p = 0.970). MAX was associated with increased GIS in the second half of the exercise, especially in upper GIS (p < 0.01). Eighteen highly trained male and female distance runners (MAX: 10; CON: 8) then completed a 35 km run (28 km steady-state + 7 km time-trial) supported by either a slightly modified MAX or CON strategy. Inter-individual variability was observed, without major differences in epithelial cell intestinal fatty acid binding protein (I-FABP) or GIS, due to exercise, trial, or group, despite the 3-fold increase in exercise CHO intake in MAX post-intervention. The tight-junction (claudin-3) response decreased in both groups from pre- to post-intervention. Groups achieved a similar performance improvement from pre- to post-intervention (CON = 39 s [95 CI 15–63 s]; MAX = 36 s [13–59 s]; p = 0.002). Although this suggests that further increases in CHO availability above current guidelines do not confer additional advantages, limitations in our study execution (e.g., confounding loss of BM in several individuals despite a live-in training camp environment and significant increases in aerobic capacity due to intensified training) may have masked small differences. Therefore, athletes should meet the minimum CHO guidelines for training and competition goals, noting that, with practice, increased CHO intake can be tolerated, and may contribute to performance outcomes.

Published

2022

11. Neither beetroot juice supplementation nor increased carbohydrate oxidation enhance economy of prolonged exercise in elite race walkers

Author

Iñigo Mujika, Nicolin Tee, Ida A. Heikura, Megan L. Ross, Peter Peeling, Brent Vallance, Georgina L. Kent, Andrew M. Jones, Jamie R. Blackwell, Karen Mackay, Rebecca Hall, Sara F. Forbes, Marta Kozior, Louise M. Burke, Avish P. Sharma, Alannah K A McKay, Jamie Whitfield, Burke, Louise M, Hall, Rebecca, Heikura, Ida A, Ross, Megan L, Tee, Nicolin, Kent, Georgina L, Whitfield, Jamie, Forbes, Sara F, Sharma, Avish P, Jones, Andrew M, Peeling, Peter, Blackwell, Jamie R, Mujika, Iñigo, Mackay, Karen, Kozior, Marta, Vallance, Brent, and McKay, Alannah K A

Subjects

Adult, Male, Group investigation, Increased carbohydrate, Future studies, Walking, Beetroot Juice, gut training, Placebo, Article, exogenous CHO, Oxygen Consumption, Dietary Carbohydrates, Humans, Medicine, TX341-641, Nutrition and Dietetics, biology, Prolonged exercise, Nutrition. Foods and food supply, Athletes, business.industry, sucralose, biology.organism_classification, Fruit and Vegetable Juices, CHO loading, Preload, Economy, Dietary Supplements, exercise fuel, Beta vulgaris, business, Oxidation-Reduction, Food Science, endurance sport

Abstract

Given the importance of exercise economy to endurance performance, we implemented two strategies purported to reduce the oxygen cost of exercise within a 4 week training camp in 21 elite male race walkers. Fourteen athletes undertook a crossover investigation with beetroot juice (BRJ) or placebo (PLA) [2 d preload, 2 h pre-exercise + 35 min during exercise] during a 26 km race walking at speeds simulating competitive events. Separately, 19 athletes undertook a parallel group investigation of a multi-pronged strategy (MAX, n = 9) involving chronic (2 w high carbohydrate [CHO] diet + gut training) and acute (CHO loading + 90 g/h CHO during exercise) strategies to promote endogenous and exogenous CHO availability, compared with strategies reflecting lower ranges of current guidelines (CON, n = 10). There were no differences between BRJ and PLA trials for rates of CHO (p = 0.203) or fat (p = 0.818) oxidation or oxygen consumption (p = 0.090). Compared with CON, MAX was associated with higher rates of CHO oxidation during exercise, with increased exogenous CHO use (CON, peak = ~0.45 g/min, MAX: peak = ~1.45 g/min, p &lt, 0.001). High rates of exogenous CHO use were achieved prior to gut training, without further improvement, suggesting that elite athletes already optimise intestinal CHO absorption via habitual practices. No differences in exercise economy were detected despite small differences in substrate use. Future studies should investigate the impact of these strategies on sub-elite athletes’ economy as well as the performance effects in elite groups.

Published

2021

12. Crisis of confidence averted: Impairment of exercise economy and performance in elite race walkers by ketogenic low carbohydrate, high fat (LCHF) diet is reproducible

Author

Sara F. Forbes, Jill J. Leckey, Alannah K A McKay, Julia L. Bone, Melissa Holloway, Avish P. Sharma, Megan L. Ross, Marijke Welvaert, Louise M. Burke, Ida A. Heikura, Burke, Louise M, Sharma, Avish P, Heikura, Ida A, Forbes, Sara F, Holloway, Melissa, McKay, Alannah KA, Bone, Julia L, Leckey, Jill J, Welvaert, Marijke, and Ross, Megan L

Subjects

Male, fats, human performance, Repeat testing, oxidation, Science, carbohydrates, 030209 endocrinology & metabolism, Walking, Athletic Performance, Diet, High-Fat, 03 medical and health sciences, 0302 clinical medicine, Animal science, Fat oxidation, Low carbohydrate high fat, Medicine, Humans, Trial registration, Aerobic capacity, Supervised training, Multidisciplinary, exercise, business.industry, food, Correction, 030229 sport sciences, Baseline testing, Exercise economy, Adaptation, Physiological, Athletes, Physical Endurance, Female, sports, business, diet, Diet, Ketogenic, Physical Conditioning, Human

Abstract

Introduction We repeated our study of intensified training on a ketogenic low-carbohydrate (CHO), high-fat diet (LCHF) in world-class endurance athletes, with further investigation of a “carryover” effect on performance after restoring CHO availability in comparison to high or periodised CHO diets. Methods After Baseline testing (10,000 m IAAF-sanctioned race, aerobic capacity and submaximal walking economy) elite male and female race walkers undertook 25 d supervised training and repeat testing (Adapt) on energy-matched diets: High CHO availability (8.6 g∙kg-1∙d-1 CHO, 2.1 g∙kg-1∙d-1 protein; 1.2 g∙kg-1∙d-1 fat) including CHO before/during/after workouts (HCHO, n = 8): similar macronutrient intake periodised within/between days to manipulate low and high CHO availability at various workouts (PCHO, n = 8); and LCHF (

Published

2019

13. Organization of dietary control for nutrition-training intervention involving periodized carbohydrate availability and ketogenic low-carbohydrate high-fat diet

Author

Rebecca Hall, Louise M. Burke, Sara F. Forbes, Joanne G. Mirtschin, Nicki Strobel, Louise E. Cato, Ida A. Heikura, Mirtschin, Joanne G, Forbes, Sara F, Cato, Louise E, Heikura, Ida A, Strobel, Nicki, Hall, Rebecca, and Burke, Louise M

Subjects

Dietary control, Psychological intervention, Medicine (miscellaneous), 030209 endocrinology & metabolism, Sports nutrition, LCHF diet, 03 medical and health sciences, 0302 clinical medicine, dietary standardization, Environmental health, Intervention (counseling), Low carbohydrate high fat, Dietary Carbohydrates, Medicine, Humans, research methodology, Orthopedics and Sports Medicine, Micronutrients, Exercise, Nutrition and Dietetics, Nutrition & Dietetics, business.industry, 030229 sport sciences, General Medicine, Micronutrient, Sports Nutritional Physiological Phenomena, Menu Planning, Athletes, business, Diet, Ketogenic, Energy Intake, Sport Sciences, Sports

Abstract

The authors describe the implementation of a 3-week dietary intervention in elite race walkers at the Australian Institute of Sport, with a focus on the resources and strategies needed to accomplish a complex study of this scale. Interventions involved: traditional guidelines of high carbohydrate (CHO) availability for all training sessions; a periodized CHO diet which integrated sessions with low and high CHO availability within the same total CHO intake; and a ketogenic low-CHO high-fat diet. Seven-day menus and recipes were constructed for a communal eating setting to meet nutritional goals as well as individualized food preferences and special needs. Menus also included nutrition support before, during, and after exercise. Daily monitoring, via observation and food checklists, showed that energy and macronutrient targets were achieved. Diets were matched for energy (∼14.8 MJ/d) and protein (∼2.1 g·kg−1·day−1) and achieved desired differences for fat and CHO, with high CHO availability and periodized CHO availability: CHO = 8.5 g·kg−1·day−1, 60% energy, fat = 20% of energy and low-CHO high-fat diet: 0.5 g·kg−1·day−1 CHO, fat = 78% energy. There were no differences in micronutrient intake or density between the high CHO availability and periodized CHO availability diets; however, the micronutrient density of the low-CHO high-fat diet was significantly lower. Daily food costs per athlete were similar for each diet (∼AU$ 27 ± 10). Successful implementation and monitoring of dietary interventions in sports nutrition research of the scale of the present study require meticulous planning and the expertise of chefs and sports dietitians. Different approaches to sports nutrition support raise practical challenges around cost, micronutrient density, accommodation of special needs, and sustainability.

Published

2018