Research Article
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Year 2025, Volume: 11 Issue: 5, 258 - 266
https://doi.org/10.31459/turkjkin.1704368

Abstract

Project Number

Ref. Doc34-CE-UTAD-2020

References

  • Abbas-Hashemi, S. A., Hosseininasab, D., Rastgoo, S., Shiraseb, F., & Asbaghi, O. (2023). The effects of caffeine supplementation on blood pressure in adults: A systematic review and dose-response meta-analysis. Clin Nutr ESPEN, 58, 165–177. doi: 10.1016/j.clnesp.2023.09.923
  • Davis, J. M., Zhao, Z., Stock, H. S., Mehl, K. A., Buggy, J., & Hand, G. A. (2003). Central nervous system effects of caffeine and adenosine on fatigue. Am J Physiol Regul Integr Comp Physiol, 284(2), R399–R404. doi: 10.1152/ajpregu.00386.2002
  • de Azevedo, A. P., Guerra, M. A., Caldas, L. C., & Guimarães-Ferreira, L. (2019). Acute caffeine ingestion did not enhance punch performance in professional mixed-martial arts athletes. Nutrients, 11(6), 1422. doi: 10.3390/nu11061422
  • Diaz-Lara, J., Grgic, J., Detanico, D., Botella, J., Jiménez, S. L., & Del Coso, J. (2023). Effects of acute caffeine intake on combat sports performance: A systematic review and meta-analysis. C Crit Rev Food Sci Nutr, 63(29), 9859–9874. doi: 10.1080/10408398.2022.2068499
  • Giráldez-Costas, V., Ruíz-Moreno, C., González-García, J., Lara, B., Del Coso, J., & Salinero, J. J. (2021). Pre-exercise caffeine intake enhances bench press strength training adaptations. Front Nutr, 8, 622564. doi: 10.3389/fnut.2021.622564
  • Grgic, J. (2022). Exploring the minimum ergogenic dose of caffeine on resistance exercise performance: A meta-analytic approach. Nutrition, 97, 111604. doi: 10.1016/j.nut.2022.111604
  • Grgic, J., Trexler, E. T., Lazinica, B., & Pedisic, Z. (2018). Effects of caffeine intake on muscle strength and power: A systematic review and meta-analysis. J Int Soc Sports Nutr, 15, 11. doi: 10.1186/s12970-018-0216-0
  • Grinberg, N., Benkhedda, K., Barber, J., Krahn, A. D., & La Vieille, S. (2022). Effects of caffeinated energy drinks on cardiovascular responses during exercise in healthy adults: A systematic review and meta-analysis of randomized controlled trials. Appl Physiol Nutr Metab, 47(6), 618–631. doi: 10.1139/apnm-2021-0807
  • Guest, N. S., VanDusseldorp, T. A., Nelson, M. T., Grgic, J., Schoenfeld, B. J., Jenkins, N. D. M., Arent, S. M., Antonio, J., Stout, J. R., Trexler, E. T., Smith-Ryan, A. E., Goldstein, E. R., Kalman, D. S., & Campbell, B. I. (2021). International society of sports nutrition position stand: Caffeine and exercise performance. J Int Soc Sports Nutr, 18(1), 1. doi: 10.1186/s12970-020-00383-4
  • Kühne, T., Wallace, E., Herzig, D., Helleputte, S., Scott, S., Pickles, J., Melmer, A., & Stettler, C. (2024). Combined intake of caffeine and low-dose glucose to reduce exercise-related hypoglycaemia in individuals with type 1 diabetes on ultra-long-acting insulin degludec: A randomized, controlled, double-blind, cross-over trial. Diabetes Obes Metab, 26(7), 2645–2651. doi: 10.1111/dom.15580
  • López-González, L. M., Sánchez-Oliver, A. J., Mata, F., Jodra, P., Antonio, J., & Domínguez, R. (2018). Acute caffeine supplementation in combat sports: A systematic review. J Int Soc Sports Nutr, 15(1), 60. doi: 10.1186/s12970-018-0267-2
  • Martins, G. L., Guilherme, J. P. L. F., Ferreira, L. H. B., de Souza-Junior, T. P., & Lancha, A. H. (2020). Caffeine and Exercise Performance: Possible Directions for Definitive Findings. Front Sports Act Living, 2, 574854. doi: 10.3389/fspor.2020.574854
  • Moisey, L. L., Kacker, S., Bickerton, A. C., Robinson, L. E., & Graham, T. E. (2008). Caffeinated coffee consumption impairs blood glucose homeostasis in response to high and low glycemic index meals in healthy men. Am J Clin Nutr, 87(5), 1254–1261. doi: 10.1093/ajcn/87.5.1254
  • Montalvo-Alonso, J. J., Ferragut, C., Del Val-Manzano, M., Valadés, D., Roberts, J., & Pérez-López, A. (2024). Sex differences in the ergogenic response of acute caffeine intake on muscular strength, power and endurance performance in resistance-trained individuals: A randomized controlled trial. Nutrients, 16(11), 1760. doi: 10.3390/nu16111760
  • Pickering, C., & Grgic, J. (2019). Caffeine and Exercise: What Next? Sports Medicine (Auckland, N.Z.), 49(7), 1007–1030. https://doi.org/10.1007/s40279-019-01101-0
  • Pickering, C., & Kiely, J. (2019). What should we do about habitual caffeine use in athletes? Sports Med (Auckland, N.Z.), 49(6), 833–842. doi: 10.1007/s40279-018-0980-7
  • Souza, D., Casonatto, J., Poton, R., Willardson, J., & Polito, M. (2014). Acute effect of caffeine intake on hemodynamics after resistance exercise in young non-hypertensive subjects. Res Sports Med, 22(3), 253–264. doi: 10.1080/15438627.2014.915832
  • Spriet, L. L. (2014). Exercise and sport performance with low doses of caffeine. Sports Med (Auckland, N.Z.), 44 Suppl 2(Suppl 2), S175-184. doi: 10.1007/s40279-014-0257-8
  • van Dam, R. M., & Hu, F. B. (2005). Coffee consumption and risk of type 2 diabetes: A systematic review. JAMA, 294(1), 97–104. doi: 10.1001/jama.294.1.97
  • West, K. S., Helwig, N. J., Schwager, L. E., Hart, T. W., Zucker, A. C., Venenga, J. S., Flores, M., & Jenkins, N. D. M. (2025). Habitual preexercise caffeine supplementation prevents exercise training-induced attenuation of exercising systolic blood pressure and double product. J Appl Physiol (1985), 138(2), 358–365. doi: 10.1152/japplphysiol.00874.2024
  • Yusni, Y., & Yusuf, H. (2022). The acute effects of coffee consumption on blood glucose and it’s relationship with serum cortisol and insulin in females. Pharmacia, 69, 903–910. doi: 10.3897/pharmacia.69.e85397

Effects of caffeine on glycaemia and blood pressure in women practising Muay Thai

Year 2025, Volume: 11 Issue: 5, 258 - 266
https://doi.org/10.31459/turkjkin.1704368

Abstract

This study investigated the acute effects of caffeine supplementation (210 mg; ~2.7 mg/kg) on glycemic and hemodynamic responses in eight female Muay Thai practitioners using a randomized crossover design. Participants received caffeine or placebo before a structured training session, with assessments performed at rest, 20 minutes post-ingestion, 30 minutes of exercise, and post-exercise. The results demonstrated that caffeine significantly reduced blood glucose levels during exercise, particularly when administered in the second experimental period, suggesting an order-dependent effect of supplementation. No significant differences in heart rate were observed between conditions. For systolic, diastolic, and double product blood pressure, complex interactions modulated by the experimental sequence were identified, indicating an influence of familiarization or carryover effect. It is concluded that caffeine exerts contextual metabolic and hemodynamic effects in female athletes, with its effectiveness being influenced by the order of administration and habituation. Practical applications include recommending the periodization of caffeine use (3–6 mg/kg) close to key sessions or competitions, avoiding habitual daily consumption to optimize cardiovascular adaptations, and individually monitoring glycemic and blood pressure responses to adjust the dose and timing of intake.

Ethical Statement

The study was approved by the University of Trás-os-Montes and Alto Douro Ethical Committee (Doc34-CE-UTAD-2020) and it was carried out in accordance with the Code of Ethics of the World Medical Association also known as a declaration of Helsinki.

Supporting Institution

The authors declare that the study received no funding.

Project Number

Ref. Doc34-CE-UTAD-2020

References

  • Abbas-Hashemi, S. A., Hosseininasab, D., Rastgoo, S., Shiraseb, F., & Asbaghi, O. (2023). The effects of caffeine supplementation on blood pressure in adults: A systematic review and dose-response meta-analysis. Clin Nutr ESPEN, 58, 165–177. doi: 10.1016/j.clnesp.2023.09.923
  • Davis, J. M., Zhao, Z., Stock, H. S., Mehl, K. A., Buggy, J., & Hand, G. A. (2003). Central nervous system effects of caffeine and adenosine on fatigue. Am J Physiol Regul Integr Comp Physiol, 284(2), R399–R404. doi: 10.1152/ajpregu.00386.2002
  • de Azevedo, A. P., Guerra, M. A., Caldas, L. C., & Guimarães-Ferreira, L. (2019). Acute caffeine ingestion did not enhance punch performance in professional mixed-martial arts athletes. Nutrients, 11(6), 1422. doi: 10.3390/nu11061422
  • Diaz-Lara, J., Grgic, J., Detanico, D., Botella, J., Jiménez, S. L., & Del Coso, J. (2023). Effects of acute caffeine intake on combat sports performance: A systematic review and meta-analysis. C Crit Rev Food Sci Nutr, 63(29), 9859–9874. doi: 10.1080/10408398.2022.2068499
  • Giráldez-Costas, V., Ruíz-Moreno, C., González-García, J., Lara, B., Del Coso, J., & Salinero, J. J. (2021). Pre-exercise caffeine intake enhances bench press strength training adaptations. Front Nutr, 8, 622564. doi: 10.3389/fnut.2021.622564
  • Grgic, J. (2022). Exploring the minimum ergogenic dose of caffeine on resistance exercise performance: A meta-analytic approach. Nutrition, 97, 111604. doi: 10.1016/j.nut.2022.111604
  • Grgic, J., Trexler, E. T., Lazinica, B., & Pedisic, Z. (2018). Effects of caffeine intake on muscle strength and power: A systematic review and meta-analysis. J Int Soc Sports Nutr, 15, 11. doi: 10.1186/s12970-018-0216-0
  • Grinberg, N., Benkhedda, K., Barber, J., Krahn, A. D., & La Vieille, S. (2022). Effects of caffeinated energy drinks on cardiovascular responses during exercise in healthy adults: A systematic review and meta-analysis of randomized controlled trials. Appl Physiol Nutr Metab, 47(6), 618–631. doi: 10.1139/apnm-2021-0807
  • Guest, N. S., VanDusseldorp, T. A., Nelson, M. T., Grgic, J., Schoenfeld, B. J., Jenkins, N. D. M., Arent, S. M., Antonio, J., Stout, J. R., Trexler, E. T., Smith-Ryan, A. E., Goldstein, E. R., Kalman, D. S., & Campbell, B. I. (2021). International society of sports nutrition position stand: Caffeine and exercise performance. J Int Soc Sports Nutr, 18(1), 1. doi: 10.1186/s12970-020-00383-4
  • Kühne, T., Wallace, E., Herzig, D., Helleputte, S., Scott, S., Pickles, J., Melmer, A., & Stettler, C. (2024). Combined intake of caffeine and low-dose glucose to reduce exercise-related hypoglycaemia in individuals with type 1 diabetes on ultra-long-acting insulin degludec: A randomized, controlled, double-blind, cross-over trial. Diabetes Obes Metab, 26(7), 2645–2651. doi: 10.1111/dom.15580
  • López-González, L. M., Sánchez-Oliver, A. J., Mata, F., Jodra, P., Antonio, J., & Domínguez, R. (2018). Acute caffeine supplementation in combat sports: A systematic review. J Int Soc Sports Nutr, 15(1), 60. doi: 10.1186/s12970-018-0267-2
  • Martins, G. L., Guilherme, J. P. L. F., Ferreira, L. H. B., de Souza-Junior, T. P., & Lancha, A. H. (2020). Caffeine and Exercise Performance: Possible Directions for Definitive Findings. Front Sports Act Living, 2, 574854. doi: 10.3389/fspor.2020.574854
  • Moisey, L. L., Kacker, S., Bickerton, A. C., Robinson, L. E., & Graham, T. E. (2008). Caffeinated coffee consumption impairs blood glucose homeostasis in response to high and low glycemic index meals in healthy men. Am J Clin Nutr, 87(5), 1254–1261. doi: 10.1093/ajcn/87.5.1254
  • Montalvo-Alonso, J. J., Ferragut, C., Del Val-Manzano, M., Valadés, D., Roberts, J., & Pérez-López, A. (2024). Sex differences in the ergogenic response of acute caffeine intake on muscular strength, power and endurance performance in resistance-trained individuals: A randomized controlled trial. Nutrients, 16(11), 1760. doi: 10.3390/nu16111760
  • Pickering, C., & Grgic, J. (2019). Caffeine and Exercise: What Next? Sports Medicine (Auckland, N.Z.), 49(7), 1007–1030. https://doi.org/10.1007/s40279-019-01101-0
  • Pickering, C., & Kiely, J. (2019). What should we do about habitual caffeine use in athletes? Sports Med (Auckland, N.Z.), 49(6), 833–842. doi: 10.1007/s40279-018-0980-7
  • Souza, D., Casonatto, J., Poton, R., Willardson, J., & Polito, M. (2014). Acute effect of caffeine intake on hemodynamics after resistance exercise in young non-hypertensive subjects. Res Sports Med, 22(3), 253–264. doi: 10.1080/15438627.2014.915832
  • Spriet, L. L. (2014). Exercise and sport performance with low doses of caffeine. Sports Med (Auckland, N.Z.), 44 Suppl 2(Suppl 2), S175-184. doi: 10.1007/s40279-014-0257-8
  • van Dam, R. M., & Hu, F. B. (2005). Coffee consumption and risk of type 2 diabetes: A systematic review. JAMA, 294(1), 97–104. doi: 10.1001/jama.294.1.97
  • West, K. S., Helwig, N. J., Schwager, L. E., Hart, T. W., Zucker, A. C., Venenga, J. S., Flores, M., & Jenkins, N. D. M. (2025). Habitual preexercise caffeine supplementation prevents exercise training-induced attenuation of exercising systolic blood pressure and double product. J Appl Physiol (1985), 138(2), 358–365. doi: 10.1152/japplphysiol.00874.2024
  • Yusni, Y., & Yusuf, H. (2022). The acute effects of coffee consumption on blood glucose and it’s relationship with serum cortisol and insulin in females. Pharmacia, 69, 903–910. doi: 10.3897/pharmacia.69.e85397
There are 21 citations in total.

Details

Primary Language English
Subjects Sport and Exercise Nutrition, Sports Training
Journal Section Original Research Articles
Authors

Adriana De Freitas Morais 0000-0003-3556-7499

Ethel Machergiany 0000-0001-9703-2137

Emanuel Moita 0009-0004-2799-2537

Sandra Fonseca 0000-0001-9468-7269

George Lacerda De Souza This is me 0000-0001-7502-2333

Rommulo Celly Lima Siqueira 0000-0003-0533-9305

Project Number Ref. Doc34-CE-UTAD-2020
Early Pub Date September 21, 2025
Publication Date October 22, 2025
Submission Date May 22, 2025
Acceptance Date September 10, 2025
Published in Issue Year 2025 Volume: 11 Issue: 5

Cite

APA Morais, A. D. F., Machergiany, E., Moita, E., … Fonseca, S. (2025). Effects of caffeine on glycaemia and blood pressure in women practising Muay Thai. Turkish Journal of Kinesiology, 11(5), 258-266. https://doi.org/10.31459/turkjkin.1704368

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