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Journal of the International Society of Sports Nutrition Volume 20, 2023 - Issue 1
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Research Article

The efficacy of a home-use metabolic device (Lumen) in response to a short-term low and high carbohydrate diet in healthy volunteers

Justin Robertsa Cambridge Centre for Sport and Exercise Sciences (CCSES), School of Psychology and Sport Science, Anglia Ruskin University, Cambridge, UKCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-3169-2041View further author information
ORCID Icon,
Dirk Dugdale-Duwellb Occupational and Environmental Physiology Group, Centre for Sport Exercise and Life Sciences, Coventry University, Coventry, UKView further author information
,
Joseph Lillisa Cambridge Centre for Sport and Exercise Sciences (CCSES), School of Psychology and Sport Science, Anglia Ruskin University, Cambridge, UKView further author information
,
Jorge Marques Pintoa Cambridge Centre for Sport and Exercise Sciences (CCSES), School of Psychology and Sport Science, Anglia Ruskin University, Cambridge, UKView further author information
,
Ash Willmotta Cambridge Centre for Sport and Exercise Sciences (CCSES), School of Psychology and Sport Science, Anglia Ruskin University, Cambridge, UKORCID Iconhttps://orcid.org/0000-0001-7322-2569View further author information
ORCID Icon,
Shlomo Yeshurunc MetaFlow Ltd, Tel Aviv, IsraelView further author information
,
Merav Morc MetaFlow Ltd, Tel Aviv, IsraelView further author information
&
Tjeu Sourend Utrecht University Medical Center, Utrecht, The Netherlands;e School of Human Biology, Maastricht University, Maastricht, The NetherlandsView further author information
 show all
Article: 2185537 | Received 10 Oct 2022, Accepted 14 Feb 2023, Published online: 02 Mar 2023

References

  • Jeukendrup AE. Carbohydrate intake during exercise and performance. Nutrition. 2004;20:669–86.
  • Stellingwerff T, Morton JP, Burke LM. A framework for periodized nutrition for athletics. Int J Sport Nutr Exerc Metab. 2019;29(2):141–151.
  • Jeukendrup AE. Periodized nutrition for athletes. Sports Med. 2017;47(Suppl 1):51–63.
  • Cox GR, Clark SA, Cox AJ, et al. Daily training with high carbohydrate availability increases exogenous carbohydrate oxidation during endurance cycling. J Appl Physiol. 2010;109:126–134.
  • Antonio J, Candow DG, Forbes SC, et al. Effects of dietary protein on body composition in exercising individuals. Nutrients. 2020;12(6):1890.
  • Zoorob R, Parrish ME, O’Hara H, et al. Sports nutrition needs: before, during, and after exercise. Prim Care. 2013;40(2):475–486.
  • Thomas DT, Erdman KA, Burke LM. Position of the academy of nutrition and dietetics, dietitians of Canada, and the American College of Sports Medicine: nutrition and athletic performance. J Acad Nutr Diet. 2016;116(3):501–528.
  • Spriet LL, Peters SJ. Influence of diet on the metabolic responses to exercise. Proc Nutr Soc. 1998;57(1):25–33.
  • Shephard RJ. Open-circuit respirometry: a brief historical review of the use of Douglas bags and chemical analyzers. Eur J Appl Physiol. 2017;117:381–387.
  • Mtaweh H, Tuira L, Floh AA, et al. Indirect calorimetry: history, technology, and application. Front Pediatr. 2018;6:257.
  • Goedecke JH, Clair Gibson A, Grobler L, et al. Determinants of the variability in respiratory exchange ratio at rest and during exercise in trained athletes. Am J Physiol Endocrinol Metab. 2000;279(6):E1325–E1334.
  • Macfarlane DJ. Open-circuit respirometry: a historical review of portable gas analysis systems. Eur J Appl Physiol. 2017;117:2369–2386.
  • Ross R, ALDuhishy A, González-Haro C. Validation of the cosmed K4b2 portable metabolic system during running outdoors. J Strength Cond Res. 2020;34(1):124–133.
  • Roffey DM, Byrne NM, Hills AP. Day-to-day variance in measurement of resting metabolic rate using ventilated-hood and mouthpiece & nose-clip indirect calorimetry systems. JPEN J Parenter Enteral Nutr. 2006;30(5):426–432.
  • Jeukendrup AE, Wallis GA. Measurement of substrate oxidation during exercise by means of gas exchange measurements. Int J Sports Med. 2005;26(1):28–37.
  • Hulston CJ, Wallis GA, Jeukendrup AE. Exogenous CHO oxidation with glucose plus fructose intake during exercise. Med Sci Sports Exerc. 2009;41(2):357–363.
  • Jentjens RLPG, Jeukendrup AE. High rates of exogenous carbohydrate oxidation from a mixture of glucose and fructose ingested during prolonged cycling exercise. Br J Nutr. 2005;93(4):485–492.
  • Roberts JD, Tarpey MD, Kass LS, et al. Assessing a commercially available sports drink on exogenous carbohydrate oxidation, fluid delivery and sustained exercise performance. J Int Soc Sports Nutr. 2014;11(1):8.
  • Tarpey MD, Roberts JD, Kass LS, et al. The ingestion of protein with a maltodextrin and fructose beverage on substrate utilisation and exercise performance. Appl Physiol Nutr Metab. 2013;38(12):1245–1253.
  • González-Haro C. Concordance between 13 C:12 C ratio technique respect to indirect calorimetry to estimate carbohydrate and fat oxidation rates by means stoichiometric equations during exercise. A reliability and agreement study. Physiol Rep. 2019;7(8):e14053.
  • Rosenkilde M, Nordby P, Nielsen LB, et al. Fat oxidation at rest predicts peak fat oxidation during exercise and metabolic phenotype in overweight men. Int J Obes (Lond). 2010;34(5):871–877.
  • Rynders CA, Blanc S, DeJong N, et al. Sedentary behaviour is a key determinant of metabolic inflexibility. J Physiol. 2018;596(8):1319–1330.
  • Waldman HS, Bryant AR, Knight SN, et al. Assessment of metabolic flexibility by substrate oxidation responses and blood lactate in women expressing varying levels of aerobic fitness and body fat. J Strength Cond Res. 2023;37(3):581–588.
  • San-Millán I, Brooks GA. Assessment of metabolic flexibility by means of measuring blood lactate, fat, and carbohydrate oxidation responses to exercise in professional endurance athletes and less-fit individuals. Sports Med. 2018;48(2):467–479.
  • Zdzieblik D, Friesenborg H, Gollhofer A, et al. Effect of a high fat diet vs. high carbohydrate diets with different glycemic indices on metabolic parameters in male endurance athletes: a pilot trial. Front Nutr. 2022;9:802374.
  • Seo HC, Shin D, Leem CH, et al. Development of a portable respiratory gas analyzer for measuring indirect resting energy expenditure (REE). J Healthc Eng. 2021;2021:8870749.
  • Guidetti L, Meucci M, Bolletta F, et al. Validity, reliability and minimum detectable change of COSMED K5 portable gas exchange system in breath-by-breath mode. PLoS One. 2018;13(12):e0209925.
  • Tsekouras YE, Tambalis KD, Sarras SE, et al. Validity and reliability of the new portable metabolic analyzer PNOE. Front Sports Act Living. 2019;1:24.
  • Rodbard D. Continuous glucose monitoring: a review of successes, challenges, and opportunities. Diabetes Technol Ther. 2016;18(Suppl2):S3–S13.
  • Ramos-Jiménez A, Hernández-Torres RP, Torres-Durán PV, et al. The respiratory exchange ratio is associated with fitness indicators both in trained and untrained men: a possible application for people with reduced exercise tolerance. Clin Med Circ Respirat Pulm Med. 2008;2:1–9.
  • Melzer K. Carbohydrate and fat utilization during rest and physical activity. e-SPEN. 2011;6(2):e45–e52.
  • Lorenz KA, Yeshurun S, Aziz R, et al. A handheld metabolic device (Lumen) to measure fuel utilization in healthy young adults: device validation study. Interact J Med Res. 2021;10(2):e25371.
  • Wijngaarden MA, Bakker LE, van der Zon GC, et al. Regulation of skeletal muscle energy/nutrient-sensing pathways during metabolic adaptation to fasting in healthy humans. Am J Physiol Endocrinol Metab. 2014;307(10):E885–E895.
  • Terink R, Witkamp RF, Hopman MT, et al. A 2 week cross-over intervention with a low carbohydrate, high fat diet compared to a high carbohydrate diet attenuates exercise-induced cortisol response, but not the reduction of exercise capacity, in recreational athletes. Nutrients. 2021;13(1):157.
  • Faul F, Erdfelder E, Lang A-G, et al. G*power 3: a flexible statistical power analysis program for the social, behavioral, and biomedical sciences. Behav Res Methods. 2007;39:175–191.
  • Roberts JD, Willmott AGB, Beasley L, et al. The impact of decaffeinated green tea extract on fat oxidation, body composition and cardio-metabolic health in overweight, recreationally active individuals. Nutrients. 2021;13(3):764.
  • Roberts J, Zinchenko A, Mahbubani KT, et al. Satiating effect of high protein diets on resistance-trained individuals in energy deficit. Nutrients. 2018;11(1):56.
  • Furber M, Pyle S, Roberts M, et al. Comparing acute, high dietary protein and carbohydrate intake on transcriptional biomarkers, fuel utilisation and exercise performance in trained male runners. Nutrients. 2021;13(12):4391.
  • Laaban JP, Lemaire F, Baron JF, et al. Influence of caloric intake on the respiratory mode during mandatory minute volume ventilation. Chest. 1985;87:67–72.
  • Bessard T, Schutz Y, Jequier E. Energy expenditure and postprandial thermogenesis in obese women before and after weight loss. Am J Clin Nutr. 1983;38:680–693.
  • Kelly KP, McGuinnes OP, Buchowski M, et al. Eating breakfast and avoiding late-evening snacking sustains lipid oxidation. PLoS Biol. 2020;18(2):e3000622.
  • Hayashi K, Suekuni M, Sugiyama K. Effect of food intake on respiratory chemosensitivity to CO2 in young adults. J Physiol Anthro. 2019;38:8.
  • Whitley HA, Humphreys SM, Campbell IT, et al. Metabolic and performance responses during endurance exercise after high-fat and high-carbohydrate meals. J Appl Physiol. 1998;85(2):418–424.
  • Habas ME, Macdonald IA. Metabolic and cardiovascular responses to liquid and solid test meals. Br J Nutr. 1998;79:241–247.
  • Efthimiou J, Mounsey PJ, Benson DN, et al. Effect of carbohydrate rich versus fat loads on gas exchange and walking performance in patients with chronic obstructive lung disease. Thorax. 1992;47:451–456.
  • Gregory S, Wood R, Matthews T, et al. Substrate utilization is influenced by acute dietary carbohydrate intake in active, healthy females. J Sports Sci Med. 2011;10:59–65.
  • Hall KD, Bemis T, Brychta R, et al. Calorie for calorie, dietary fat restriction results in more body fat loss than carbohydrate restriction in people with obesity. Cell Metab. 2015;22(3):427–436.
  • Fried PI, McClean PA, Phillipson EA, et al. Effect of ketosis on respiratory sensitivity to carbon dioxide in obesity. N Engl J Med. 1976;294:1081–1086.
  • Ravussin R, Beyl RA, Poggiogalle E, et al. Early time-restricted feeding reduces appetite and increases fat oxidation but does not affect energy expenditure in humans. Obesity. 2019;27:1244–1254.
  • Rubini A, Bosco G, Lodi A, et al. Effects of twenty days of the ketogenic diet on metabolic and respiratory parameters in healthy subjects. Lung. 2015;193(6):939–945.
  • Backhouse SH, Williams C, Stevenson E, et al. Effects of the glycemic index of breakfast on metabolic responses to brisk walking in females. Eur J Clin Nutr. 2007;61:590–596.
  • Podlogar T, Debevec T. Effects of a 14-day high carbohydrate diet on exercise performance of a low-carbohydrate adapted athlete – case study. Kinesiol Slov. 2016;22(1):37–46.
  • Bussotti M, Magrì D, Previtali E, et al. End-tidal pressure of CO2 and exercise performance in healthy subjects. Eur J Appl Physiol. 2008;103(6):727–732.
  • Currell K, Jeukendrup AE. Superior endurance performance with ingestion of multiple transportable carbohydrates. Med Sci Sports Exerc. 2008;40(2):275–281.
  • Coggan AR, Swanson SC. Nutritional manipulations before and during endurance exercise: effects on performance. Med Sci Sports Exerc. 1992;24(9 Suppl):S331–S335.
  • Hargreaves M, Hawley JA, Jeukendrup A. Pre-exercise carbohydrate and fat ingestion: effects on metabolism and performance. J Sports Sci. 2004;22(1):31–38.
  • Zinn C, Wood M, Williden M, et al. Ketogenic diet benefits body composition and well-being but not performance in a pilot case study of New Zealand endurance athletes. J Int Soc Sports Nutr. 2017;14:22.
  • McSwiney FT, Wardrop B, Hyde PN, et al. Keto-adaptation enhances exercise performance and body composition responses to training in endurance athletes. Metabolism. 2018;81:25–34.
  • Lightowler H, Schweitzer L, Theis S, et al. Changes in weight and substrate oxidation in overweight adults following isomaltulose intake during a 12-week weight loss intervention: a randomized, double-blind, controlled trial. Nutrients. 2019;11(10):2367.
  • Klement RJ, Frobel T, Albers T, et al. A pilot case study on the impact of a self-prescribed ketogenic diet on biochemical parameters and running performance in healthy and physically active individuals. Nutr Med. 2013;1(1):10.
  • Volek JS, Freidenreich DJ, Saenz C, et al. Metabolic characteristics of keto-adapted ultra-endurance runners. Metabolism. 2016;65(3):100–110.
  • Buch A, Yeshurun S, Cramer T, et al. The effects of metabolism tracker device (Lumen®) usage on metabolic control in adults with prediabetes: pilot clinical trial. Obes Facts. 2023;16(1):53–61.

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