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Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling

Year 2023, , 87 - 99, 25.10.2023
https://doi.org/10.33438/ijdshs.1350939

Abstract

The aim of this study was to investigate the effects of carbohydrate and caffeine-based energy gels on blood glucose, blood lactate, heart rate, rating of perceived exertion (RPE), power output, cadence during prolonged cycling exercise.
This research was an experimental study in which 15 competitor cyclists were tested in 3 different conditions. 3 experimental trials in a randomized order, no gel intake and water only use (T1), gel intake every 30 minutes (T2), 1 gel intake 15 minutes before exercise, and gel intake every 45 minutes after first gel intake and 1 carbohydrate + caffeine gel at 75 min (T3). Water use was released within 3 trials. Each exercise trial included 2 hours of cycling followed by 15 min TT. Measurements were made at the beginning, every 30 min, and at the end of the exercise. This research found that energy gels increased blood glucose levels and time trial (TT) performance compared to trials without consuming something. A more frequent gel intake improved blood glucose levels and TT distance. In the TT, blood lactate concentration increased significantly in T3 compared to T1 (p<0.05). Heart rate and RPE did not make a statistical difference (p>0.05). Even though cadence, power output, and TT distance in T3 were not statistically significant, the differences that occur are important in terms of cycling. The research also found no correlation between energy gel feedings and water intake (p>0.05). The results were important for cyclists with the positive effect on endurance performance when energy gels are used in long-term cycling exercises.

References

  • Ali, A., Williams, C., Nicholas, C. W., Foskett, A. (2007). The influence of carbohydrate-electrolyte ingestion on soccer skill performance. Medicine and science in sports and exercise, 39(11), 1969–1976.
  • Anastasiou, C. A., Kavouras, S. A., Koutsari, C., Georgakakis, C., Skenderi, K., Beer, M., & Sidossis, L. S. (2004). Effect of maltose-containing sports drinks on exercise performance. International journal of sport nutrition and exercise metabolism, 14(6), 609–625.
  • Andrews, J. L., Sedlock, D. A., Flynn, M. G., Navalta, J. W., & Ji, H. (2003). Carbohydrate loading and supplementation in endurance-trained women runners. Journal of applied physiology (Bethesda, Md.: 1985), 95(2), 584–590.
  • Beam, W., Adams, G. (2013). Egzersiz Fizyolojisi Laboratuvar El Kitabı (6. Baskı). Ankara: Nobel Akademik Yayıncılık Eğitim Danışmanlık Tic. Ltd. Şti.
  • Brooks, darrell & bradley, john & hodgson, r. (2002). Assessment of the effects of an isotonic carbohydrate gel on exercise performance. Medicine and science in sports and exercise, 34.
  • Burke, L. M., Wood, C., Pyne, D. B., Telford, D. R., & Saunders, P. U. (2005). Effect of carbohydrate intake on half-marathon performance of well-trained runners. International journal of sport nutrition and exercise metabolism, 15(6), 573–589.
  • Büyüköztürk, Ş. (2018). Data analysis handbook for social sciences. Ankara: Pegem Academy.
  • Cermak, N. M., & van Loon, L. J. (2013). The use of carbohydrates during exercise as an ergogenic aid. Sports medicine, 43(11), 1139–1155.
  • Cox, G. R., Desbrow, B., Montgomery, P. G., Anderson, M. E., Bruce, C. R., Macrides, T. A., Martin, D. T., Moquin, A., Roberts, A., Hawley, J. A., & Burke, L. M. (2002). Effect of different protocols of caffeine intake on metabolism and endurance performance. Journal of applied physiology (Bethesda, Md.: 1985), 93(3), 990–999.
  • Davis, J.K, Green, J.M. (2009). Caffeine and anaerobic performance: ergogenic value and mechanisms of action. Sports Med.39:813–832.
  • Davis, J.M., R.S. Welsh, and N.A. Alderson. Effects of carbohydrate and chromium ingestion during intermittent high-intensity exercise to fatigue. Int. J. Sport Nutr. Exerc. Metab. 10:476-485, 2000.
  • Fredholm, B. B., Bättig, K., Holmén, J., Nehlig, A., & Zvartau, E. E. (1999). Actions of caffeine in the brain with special reference to factors that contribute to its widespread use. Pharmacological reviews, 51(1), 83–133.
  • Goodwin, M. L., Harris, J. E., Hernández, A., & Gladden, L. B. (2007). Blood lactate measurements and analysis during exercise: a guide for clinicians. Journal of diabetes science and technology, 1(4), 558–569.
  • Graham T. E. (2001). Caffeine and exercise: metabolism, endurance and performance. Sports medicine (Auckland, N.Z.), 31(11), 785–807.
  • Harnish, C. R., Swensen, T. C., & Pate, R. R. (2001). Methods for estimating the maximal lactate steady state in trained cyclists. Medicine & Science in Sports & Exercise, 33(6), 1052-1055.
  • Harper, L.D., Briggs, M.A., McNamee, G. et al. (2016). Physiological and performance effects of carbohydrate gels consumed prior to the extra-time period of prolonged simulated soccer match-play. J Sci Med Sport, 19: 509–514.
  • Jeukendrup, A.E. (2008). Carbohydrate feeding during exercise. Eur J Sport Sci 8: 77–86.
  • Jeukendrup, A.E. (2004). Carbohydrate intake during exercise and performance. Nutrition 20: 669–677. Kalmar, J.M., &Caffarelli, E. (1999). Effects of caffeine on neuromuscular performance. J Appl Physiol,87: 801-808. Kozlowski, K.F., Ferrentino-DePriest, A., Cerny, F. (2021). Effects of Energy Gel Ingestion on Blood Glucose, Lactate, and Performance Measures During Prolonged Cycling. J Strength Cond Res.1;35(11):3111-3119.
  • Lohman T. G., Roche A. F., and Martorell R. (1988). Anthropometric standardization reference manual. Champaign, IL: Human Kinetics Books.
  • Murdoch, S. D., Bazzarre, T. L., Snider, I. P., & Goldfarb, A. H. (1993). Differences in the effects of carbohydrate food form on endurance performance to exhaustion. International journal of sport nutrition, 3(1), 41–54.
  • Nicholas, C. W., Williams, C., Lakomy, H. K., Phillips, G., & Nowitz, A. (1995). Influence of ingesting a carbohydrate-electrolyte solution on endurance capacity during intermittent, high-intensity shuttle running. Journal of sports sciences, 13(4), 283–290.
  • Nybo, L. (2003). CNS fatigue and prolonged exercise: effect of glucose supplementation. Medicine and science in sports and exercise, 35(4), 589–594.
  • Patterson, S. D., & Gray, S. C. (2007). Carbohydrate-gel supplementation and endurance performance during intermittent high-intensity shuttle running. International journal of sport nutrition and exercise metabolism, 17(5), 445–455.
  • Pfeiffer, B., Stellingwerff, T., Zaltas, E., & Jeukendrup, A. E. (2010). CHO oxidation from a CHO gel compared with a drink during exercise. Medicine and science in sports and exercise, 42(11), 2038–2045.
  • Pöchmüller, M., Schwingshackl, L., Colombani, P. C., & Hoffmann, G. (2016). A systematic review and meta-analysis of carbohydrate benefits associated with randomized controlled competition-based performance trials. Journal of the International Society of Sports Nutrition, 13, 27.
  • Roberts, S. P., Stokes, K. A., Trewartha, G., Doyle, J., Hogben, P., & Thompson, D. (2010). Effects of carbohydrate and caffeine ingestion on performance during a rugby union simulation protocol. Journal of sports sciences, 28(8), 833–842.
  • Rodriguez, N. R., Di Marco, N. M., & Langley, S. (2009). American College of Sports Medicine position stand. Nutrition and athletic performance. Medicine and science in sports and exercise, 41(3), 709–731.
  • Sahlin, K. (1992). Metabolic factors in fatigue. Sports Med. 13:99-107.
  • Sawka, M.N., Burke, L.M., Eichner, E.R. et al. (2007). Exercise and fluid replacement. Med Sci Sports Exerc 39: 377–390.
  • Steiner, J. L., A Curmaci, A., Patrie, J. T., Gaesser, G. A., & Weltman, A. (2009). Effects of carbohydrate supplementation on the RPE-blood lactate relationship. Medicine and science in sports and exercise, 41(6), 1326–1333.
  • Stellingwerff, T., & Cox, G. R. (2014). Systematic review: Carbohydrate supplementation on exercise performance or capacity of varying durations. Applied physiology, nutrition, and metabolism, 39(9), 998–1011.
  • Welsh, R. S., Davis, J. M., Burke, J. R., & Williams, H. G. (2002). Carbohydrates and physical/mental performance during intermittent exercise to fatigue. Medicine and science in sports and exercise, 34(4), 723–731.
  • Williams, N. The Borg Rating of Perceived Exertion (RPE) scale. (2017). Occupational Medicine.; 67(5):404–405.
Year 2023, , 87 - 99, 25.10.2023
https://doi.org/10.33438/ijdshs.1350939

Abstract

References

  • Ali, A., Williams, C., Nicholas, C. W., Foskett, A. (2007). The influence of carbohydrate-electrolyte ingestion on soccer skill performance. Medicine and science in sports and exercise, 39(11), 1969–1976.
  • Anastasiou, C. A., Kavouras, S. A., Koutsari, C., Georgakakis, C., Skenderi, K., Beer, M., & Sidossis, L. S. (2004). Effect of maltose-containing sports drinks on exercise performance. International journal of sport nutrition and exercise metabolism, 14(6), 609–625.
  • Andrews, J. L., Sedlock, D. A., Flynn, M. G., Navalta, J. W., & Ji, H. (2003). Carbohydrate loading and supplementation in endurance-trained women runners. Journal of applied physiology (Bethesda, Md.: 1985), 95(2), 584–590.
  • Beam, W., Adams, G. (2013). Egzersiz Fizyolojisi Laboratuvar El Kitabı (6. Baskı). Ankara: Nobel Akademik Yayıncılık Eğitim Danışmanlık Tic. Ltd. Şti.
  • Brooks, darrell & bradley, john & hodgson, r. (2002). Assessment of the effects of an isotonic carbohydrate gel on exercise performance. Medicine and science in sports and exercise, 34.
  • Burke, L. M., Wood, C., Pyne, D. B., Telford, D. R., & Saunders, P. U. (2005). Effect of carbohydrate intake on half-marathon performance of well-trained runners. International journal of sport nutrition and exercise metabolism, 15(6), 573–589.
  • Büyüköztürk, Ş. (2018). Data analysis handbook for social sciences. Ankara: Pegem Academy.
  • Cermak, N. M., & van Loon, L. J. (2013). The use of carbohydrates during exercise as an ergogenic aid. Sports medicine, 43(11), 1139–1155.
  • Cox, G. R., Desbrow, B., Montgomery, P. G., Anderson, M. E., Bruce, C. R., Macrides, T. A., Martin, D. T., Moquin, A., Roberts, A., Hawley, J. A., & Burke, L. M. (2002). Effect of different protocols of caffeine intake on metabolism and endurance performance. Journal of applied physiology (Bethesda, Md.: 1985), 93(3), 990–999.
  • Davis, J.K, Green, J.M. (2009). Caffeine and anaerobic performance: ergogenic value and mechanisms of action. Sports Med.39:813–832.
  • Davis, J.M., R.S. Welsh, and N.A. Alderson. Effects of carbohydrate and chromium ingestion during intermittent high-intensity exercise to fatigue. Int. J. Sport Nutr. Exerc. Metab. 10:476-485, 2000.
  • Fredholm, B. B., Bättig, K., Holmén, J., Nehlig, A., & Zvartau, E. E. (1999). Actions of caffeine in the brain with special reference to factors that contribute to its widespread use. Pharmacological reviews, 51(1), 83–133.
  • Goodwin, M. L., Harris, J. E., Hernández, A., & Gladden, L. B. (2007). Blood lactate measurements and analysis during exercise: a guide for clinicians. Journal of diabetes science and technology, 1(4), 558–569.
  • Graham T. E. (2001). Caffeine and exercise: metabolism, endurance and performance. Sports medicine (Auckland, N.Z.), 31(11), 785–807.
  • Harnish, C. R., Swensen, T. C., & Pate, R. R. (2001). Methods for estimating the maximal lactate steady state in trained cyclists. Medicine & Science in Sports & Exercise, 33(6), 1052-1055.
  • Harper, L.D., Briggs, M.A., McNamee, G. et al. (2016). Physiological and performance effects of carbohydrate gels consumed prior to the extra-time period of prolonged simulated soccer match-play. J Sci Med Sport, 19: 509–514.
  • Jeukendrup, A.E. (2008). Carbohydrate feeding during exercise. Eur J Sport Sci 8: 77–86.
  • Jeukendrup, A.E. (2004). Carbohydrate intake during exercise and performance. Nutrition 20: 669–677. Kalmar, J.M., &Caffarelli, E. (1999). Effects of caffeine on neuromuscular performance. J Appl Physiol,87: 801-808. Kozlowski, K.F., Ferrentino-DePriest, A., Cerny, F. (2021). Effects of Energy Gel Ingestion on Blood Glucose, Lactate, and Performance Measures During Prolonged Cycling. J Strength Cond Res.1;35(11):3111-3119.
  • Lohman T. G., Roche A. F., and Martorell R. (1988). Anthropometric standardization reference manual. Champaign, IL: Human Kinetics Books.
  • Murdoch, S. D., Bazzarre, T. L., Snider, I. P., & Goldfarb, A. H. (1993). Differences in the effects of carbohydrate food form on endurance performance to exhaustion. International journal of sport nutrition, 3(1), 41–54.
  • Nicholas, C. W., Williams, C., Lakomy, H. K., Phillips, G., & Nowitz, A. (1995). Influence of ingesting a carbohydrate-electrolyte solution on endurance capacity during intermittent, high-intensity shuttle running. Journal of sports sciences, 13(4), 283–290.
  • Nybo, L. (2003). CNS fatigue and prolonged exercise: effect of glucose supplementation. Medicine and science in sports and exercise, 35(4), 589–594.
  • Patterson, S. D., & Gray, S. C. (2007). Carbohydrate-gel supplementation and endurance performance during intermittent high-intensity shuttle running. International journal of sport nutrition and exercise metabolism, 17(5), 445–455.
  • Pfeiffer, B., Stellingwerff, T., Zaltas, E., & Jeukendrup, A. E. (2010). CHO oxidation from a CHO gel compared with a drink during exercise. Medicine and science in sports and exercise, 42(11), 2038–2045.
  • Pöchmüller, M., Schwingshackl, L., Colombani, P. C., & Hoffmann, G. (2016). A systematic review and meta-analysis of carbohydrate benefits associated with randomized controlled competition-based performance trials. Journal of the International Society of Sports Nutrition, 13, 27.
  • Roberts, S. P., Stokes, K. A., Trewartha, G., Doyle, J., Hogben, P., & Thompson, D. (2010). Effects of carbohydrate and caffeine ingestion on performance during a rugby union simulation protocol. Journal of sports sciences, 28(8), 833–842.
  • Rodriguez, N. R., Di Marco, N. M., & Langley, S. (2009). American College of Sports Medicine position stand. Nutrition and athletic performance. Medicine and science in sports and exercise, 41(3), 709–731.
  • Sahlin, K. (1992). Metabolic factors in fatigue. Sports Med. 13:99-107.
  • Sawka, M.N., Burke, L.M., Eichner, E.R. et al. (2007). Exercise and fluid replacement. Med Sci Sports Exerc 39: 377–390.
  • Steiner, J. L., A Curmaci, A., Patrie, J. T., Gaesser, G. A., & Weltman, A. (2009). Effects of carbohydrate supplementation on the RPE-blood lactate relationship. Medicine and science in sports and exercise, 41(6), 1326–1333.
  • Stellingwerff, T., & Cox, G. R. (2014). Systematic review: Carbohydrate supplementation on exercise performance or capacity of varying durations. Applied physiology, nutrition, and metabolism, 39(9), 998–1011.
  • Welsh, R. S., Davis, J. M., Burke, J. R., & Williams, H. G. (2002). Carbohydrates and physical/mental performance during intermittent exercise to fatigue. Medicine and science in sports and exercise, 34(4), 723–731.
  • Williams, N. The Borg Rating of Perceived Exertion (RPE) scale. (2017). Occupational Medicine.; 67(5):404–405.
There are 33 citations in total.

Details

Primary Language English
Subjects Exercise Physiology, Sports Nutrition
Journal Section Original Article
Authors

Yusuf Ulusoy 0000-0001-6442-8717

Fatih Koçak 0000-0002-9435-7320

Early Pub Date October 16, 2023
Publication Date October 25, 2023
Published in Issue Year 2023

Cite

APA Ulusoy, Y., & Koçak, F. (2023). Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling. International Journal of Disabilities Sports and Health Sciences, 6(Special Issue 1- Healthy Life, Sports for Disabled people), 87-99. https://doi.org/10.33438/ijdshs.1350939
AMA Ulusoy Y, Koçak F. Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling. International Journal of Disabilities Sports and Health Sciences. October 2023;6(Special Issue 1- Healthy Life, Sports for Disabled people):87-99. doi:10.33438/ijdshs.1350939
Chicago Ulusoy, Yusuf, and Fatih Koçak. “Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling”. International Journal of Disabilities Sports and Health Sciences 6, no. Special Issue 1- Healthy Life, Sports for Disabled people (October 2023): 87-99. https://doi.org/10.33438/ijdshs.1350939.
EndNote Ulusoy Y, Koçak F (October 1, 2023) Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling. International Journal of Disabilities Sports and Health Sciences 6 Special Issue 1- Healthy Life, Sports for Disabled people 87–99.
IEEE Y. Ulusoy and F. Koçak, “Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling”, International Journal of Disabilities Sports and Health Sciences, vol. 6, no. Special Issue 1- Healthy Life, Sports for Disabled people, pp. 87–99, 2023, doi: 10.33438/ijdshs.1350939.
ISNAD Ulusoy, Yusuf - Koçak, Fatih. “Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling”. International Journal of Disabilities Sports and Health Sciences 6/Special Issue 1- Healthy Life, Sports for Disabled people (October 2023), 87-99. https://doi.org/10.33438/ijdshs.1350939.
JAMA Ulusoy Y, Koçak F. Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling. International Journal of Disabilities Sports and Health Sciences. 2023;6:87–99.
MLA Ulusoy, Yusuf and Fatih Koçak. “Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling”. International Journal of Disabilities Sports and Health Sciences, vol. 6, no. Special Issue 1- Healthy Life, Sports for Disabled people, 2023, pp. 87-99, doi:10.33438/ijdshs.1350939.
Vancouver Ulusoy Y, Koçak F. Effects of Carbohydrate and Caffeine-Based Energy Gel Ingestion on Blood Glucose, Blood Lactate and Performance During Prolonged Cycling. International Journal of Disabilities Sports and Health Sciences. 2023;6(Special Issue 1- Healthy Life, Sports for Disabled people):87-99.


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