Uso del entrenamiento con restricción del flujo sanguíneo en EspañaUn estudio transversal
- Picón-Martínez, M. 1
- Chulvi-Medrano, I. 1
- Alonso-Aubin, D.A. 1
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1
Universitat d'Alacant
info
ISSN: 1989-6239
Year of publication: 2019
Volume: 11
Issue: 2
Pages: 171-186
Type: Article
More publications in: Journal of sport and health research
Abstract
Blood flow restriction training (BFRT) is a novel strategy that has been shown to induce cardiovascular and neuromuscular adaptations similar to those obtained with conventional training. The aim of our study was to investigate the current use of BFRT in Spain. For this, a questionnaire was designed and answered by 33 Spanish professionals of physical activity and sport. 68.1% combines BFRT with resistance training, being muscle hypertrophy the main effect to achieve (29.5%). 87.9% of the participants in this questionnaire assessed the high or very high degree of efficacy to BFRT, finding a low percentage of side effects. Delayed onset muscle soreness (DOMS) and numbness and / or pruritus were the two side effects most reflected. These results indicate that the BFRT is a safe and effective training strategy that can be used by a wide population range, included with clinical population.
Bibliographic References
- Abe, T., Fujita, S., Nakajima T., Sakamaki M., Ozaki H., Ogasawara R.,… Ishii N. (2010). Effects of Low-Intensity Cycle training with restricted leg blood flow on thigh muscle volume and VO2max in young men. Journal of Sports Science & Medicine, 9(3), 452-458.
- Abe, T., Kearns, C. F., y Sato Y. (2006). Muscle size and strength are increased following walk training with restricted venous blood flow from the leg muscle, Kaatsu-walk training. Journal of Applied Physiology, 100(5), 1460-1466.
- Abe, T., Loenneke, J. P., Fahs, C. A., Rossow, L. M., Thiebaud, R. S., y Bemben, M. G. (2012). Exercise intensity and muscle hypertrophy in blood flow-restricted limbs and non-restricted muscles: a brief review. Clinical Physiology and Functional Imaging, 32(4), 247-252.
- Bezerra de Morais, A. T., Santos, M., Moreira, R., Rocha, R., y Galvão A. (2017). Upper limbs total occlusion pressure assessment: Doppler ultrasound reproducibility and determination of predictive variables. Clinical Physiology and Functional Imaging, 37(4), 437-441.
- Cezar, M. A., De Sá, C. A., Corralo, V. S., Copatti, S. L., Dos-Santos, G. A. G., y Grigoletto, M. E. S. (2016). Effects of exercise training with blood flow restriction on blood pressure in medicated hypertensive patients. Motriz, 22(2), 9-17.
- Cook, S. B., Clark, B. C., y Ploutz-Snyder, L. L. (2007). Effects of exercise load and blood-flow restriction on skeletal muscle function. Medicine & Science in Sports & Exercise, 39(10), 1708-1713.
- Crenshaw, A. B., Hargens, A. R., Gershuni, D. H., y Rydevik B. (1988). Wide tourniquet cuffs more effective at lower inflation pressures. Acta Orthopaedica Scandinavica, 59(4), 447-451.
- De Oliveira, M., Caputo, F., Corvino, R., y Denadai, B. (2016). Short-term low-intensity blood flow restricted interval training improves both aerobic fitness and muscle strength. Scandinavian Journal of Medicine & Science in Sports, 26(9), 1017-1025.
- Ellefsen, S., Hammarström, D., Strand, T. A., Zacharoff, E., Whist, J. E., Rauk, I., … Ronnestad B. R. (2015). Blood flow-restricted strength training displays high functional and biological efficacy in women: a within-subject comparison with high-load strength training. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 309(7), 767-779.
- Escobar, M. A. (2004). Adaptación transcultural de instrumentos de medida relacionadas con la salud. Enfermería Clínica,14(2), 102-106.
- Fitschen, P. J., Kistler, B. M., Jeong, J. H., Chung, H. R., Wu, P. T., Walsh, M. J., y Wilund, K. R. (2014). Perceptual effects and efficacy of intermittent or continuous blood flow restriction resistance training. Clinical Physiology and Functional Imaging, 34(5), 356-633.
- Hackney, K. J., Everett, M., Scott, J. M., y Ploutz-Snyder, L. (2012). Blood flow-restricted exercise in space. Extreme Physiology & Medicine, 1(12).
- Hughes, L., Paton, B., Rosenblatt, B., Gissane, C., y Patterson, S. D. (2017). Blood flow restriction training in clinical musculoskeletal rehabilitation: a systematic review and metaanalysis. British Journal of Sports Medicine, 51(3), 1003-1011.
- Hunt, J. E., Stodart, C., y Ferguson, R. A. (2016). The influence of participant characteristics on the relationship between cuff pressure and level of blood flow restriction. European Journal of Applied Physiology, 116(7), 1421-1432.
- Kacin, A., y Strazar K. (2011). Frequent lowload ischemic resistance exercise to failure enhances muscle oxygen delivery and endurance capacity. Scandinavian Journal of Medicine & Science in Sports, 21(6), 231-241.
- Karabulut, M., Abe, T., Sato, Y., y Bemben, M. G. (2010). The effects of low-intensity resistance training with vascular restriction on leg muscle strength in older men. European Journal of Applied Physiology, 108(1), 147-155.
- Kim, D., Singh, H., Loenneke, J. P., Thiebaud, R. S., Fahs, C. A., Rossow, L. M., … Bemben, M. G. (2016). Comparative effects of vigorousintensity and low-intensity blood flow restricted cycle training and detraining on muscle mass, strength and aerobic capacity. Journal of Strength and Conditioning Research, 30(5), 1453-1461.
- Kubo, K., Komuro, T., Ishiguro, N., Tsunoda, N., Sato, Y., Ishii, N., … Fukunaga, T. (2006). Effects of low-load resistance training with vascular occlusion on the mechanical properties of muscle and tendon. Journal of Applied Biomechanics, 22(2), 112-119.
- Kubota, A., Sakuraba, K., Koh, S., Ogura, Y., y Tamura, Y. (2011). Blood flow restriction by low compressive force prevents disuse muscular weakness. Journal of Science and Medicine in Sport, 14(2), 95–99.
- Kubota, A., Sakuraba, K., Sawaki, K., Sumide, T., y Tamura, Y. (2008). Prevention of disuse muscular weakness by restriction of blood flow. Medicine & Science in Sports & Exercise, 40(3), 529–534.
- Laurentino, G. C., Loenneke, J. P., Teixeira, E. L., Nakajima, E., Iared, W., y Tricoli, V. (2016). The effect of cuff width on muscle adaptations after blood flow restriction training. Medicine & Science in Sports & Exercise, 48(5), 920-925.
- Laurentino, G. C., Ugrinowitsch, C., Aihara, A. Y., Fernandes, A. R., Parcell, A. C., Ricard, M., y Tricoli, V. (2008). Effects of strength training and vascular occlusion. International Journal of Sports Medicine, 29(8), 664-667.
- Laurentino, G. C., Ugrinowitsch, C., Roschel, H., Aoki, M. S., Soares, A. G., Neves, M. Jr., Aihara, A. Y., ... Tricoli, V. (2012). Strength training with blood flow restriction diminishes myostatin gene expression. Medicine & Science in Sports & Exercise, 44(3), 406-412.
- Lixandrão, M. E., Ugrinowitsch, C., Berton, R., Vechin, F. C., Conceição, M. S., Damas, F., … Roschel, H. (2017). Magnitude of muscle strength and mass adaptations between high-load resistance training versus low-load resistance training associated with blood flow restriction: A systematic review and meta-analysis. Sports Medicine, 48(2), 361-378.
- Lixandrão, M. E., Ugrinowitsch, C., Laurentino, G. C., Libardi, C. A., Aihara, A. Y., Cardoso, F. N., ... Roschel H. (2015). Effects of exercise intensity and occlusion pressure after 12 weeks of resistance training with blood-flow restriction. European Journal of Applied Physiology, 115(12), 2471-2480.
- Loenneke, J. P., Fahs, C. A., Rossow, L. M., Sherk, V. D., Thiebaud, R. S., Abe, T., … Bemben M. G. (2012). Effects of cuff width on arterial occlusion: Implications for blood flow restricted exercise. European Journal of Applied Physiology, 112(8), 2903-2912.
- Loenneke, J. P., Thiebaud, R. S., Fahs, C. A., Rossow, L. M., Abe, T., y Bemben M. G. (2013). Effect of cuff type on arterial occlusion. Clinical Physiology and Functional Imaging, 33(4), 325-327.
- Loenneke, J. P., Wilson, J. M., Wilson, G. J., Pujol, T., y Bemben, M. G. (2011). Potencial safety issues with blood flow restriction training. Scandinavian Journal of Medicine & Science in Sports, 21(4), 510–518.
- Lowery, R. P., Joy, J. M., Loenneke, J. P., de Souza, E. O., Machado, M., Dudeck, J. E., y Wilson, J. M. (2014). Practical blood flow restriction training increases muscle hypertrophy during a periodized resistance training programme. Clinical Physiology and Functional Imaging, 34(4), 317-321.
- Madarame, H., Neya, M., Ochi, E., Nakazato, K., Sato, Y., y Ishii, N. (2008). Cross-transfer effects of resistance training with blood flow restriction. Medicine & Science in Sports & Exercise, 40(2), 258–263.
- Manini, T. M., Vincent, K. R., Leeuwenburgh, C. L., Lees, H. A., Kavazis, A. N., Borst, S. E., y Clark, B. C. (2011). Myogenic and proteolytic mRNA expression following blood flow restricted exercise. Acta Physiologica, 201(2), 255-263.
- Martin-Hernandez, J., Marin, P. J., Menendez, H., Ferrero, C., Loenneke, J. P., y Herrero, A. J. (2013). Muscular adaptations after two different volumes of blood flow-restricted training. Scandinavian Journal of Medicine & Science in Sports, 23(2), 114-120.
- Nakajima, T., Kurano, M., Lida, H., Takano, H., Oonuma, H., Morita, K., ... KAATSU Training Group. (2006). Use and safety of KAATSU training: Results of a national survey. International Journal of KAATSU Training Research, 2(1), 5-13.
- Patterson, S. D., y Brandner, C. R. (2018). The role of blood flow restriction training for applied practitioners: A questionnaire-based survey. Journal of Sports Sciences, 36(2), 123-130.
- Pinto, R. R., Karabulut, M., Poton, R., y Polito, M. D. (2018). Acute resistance exercise with blood flow restriction in elderly hypertensive women: haemodynamic, rating of perceived exertion and blood lactate. Clinical Physiology and Functional Imaging, 38(1), 17-24.
- Pope, Z. K., Willardson, J. M., y Schoenfeld, B. J. (2013). Exercise and blood flow restriction. Journal of Strength and Conditioning Research, 27(10), 2914-2926.
- Scott, B. R., Loenneke, J. P., Slattery, K. M., y Dascombe, B. J. (2015). Exercise with blood flow restriction: an updated evidence-based approach for enhanced muscular development. Sports Medicine, 45(3), 313-325.
- Scott, B. R., Loenneke, J. P., Slattery, K. M., y Dascombe, B. J. (2016). Blood flow restricted exercise for athletes: A review of available evidence. Journal of Science and Medicine in Sport, 19(5), 360-367.
- Slysz, J., Stultz, J., y Burr, J. F. (2016). The efficacy of blood flow restricted exercise: A systematic review & meta-analysis. Journal of Science and Medicine in Sport, 19(8), 669-675.
- Tabata, S., Suzuki, Y., Azuma, K., y Matsumoto, H. (2016). Rhadbomyolysis after performing blood flow restriction training: A case report. Journal of Strength and Conditioning Research, 30(7), 2064-2068.
- Takarada, Y., Takazawa, H., y Ishii, N. (2000). Applications of vascular occlusion diminish disuse atrophy of knee extensor muscles. Medicine & Science in Sports & Exercise, 32(12), 2035–2039.
- Vechin, F. C., Libardi, C. A., Conceição, M. S., Damas, F. R., Lixandrão, M. E., Berton, R. P., ... Ugrinowitsch, C. (2015). Comparisons between low-intensity resistance training with blood flow restriction and high-intensity resistance training on quadriceps muscle mass and strength in elderly. Journal of Strength and Conditioning Research, 29(4), 1071-1076.
- Yasuda, T., Loenneke, J. P., Thiebaud, R. S., y Abe, T. (2012). Effects of blood flow restricted low-intensity concentric or eccentric training on muscle size and strength. PLoS ONE, 7:e52843.