Protein-Based Soy Flour Supplementation to Support the Effects of Weight Training on Muscle Hyper-trophy Suplemento de harina de soja a base de proteínas para respaldar

Wilda Welis Wilda Welis; Rully Effendi Rully Effendi; Ilham Ilham; Deby Tri Mario Deby Tri Mario; Bafirman Bafirman; Nurul Ihsan Nurul Ihsan

doi:10.47197/retos.v51.99162

Autores/as

Wilda Welis Wilda Welis Universitas Negeri Padang
Rully Effendi Rully Effendi Universitas Negeri Padang
Ilham Ilham Universitas Negeri Padang https://orcid.org/0000-0002-1945-7276
Deby Tri Mario Deby Tri Mario Universitas Negeri Padang https://orcid.org/0000-0002-6985-1677
Bafirman Bafirman Universitas Negeri Padang
Nurul Ihsan Nurul Ihsan Universitas Negeri Padang

DOI:

https://doi.org/10.47197/retos.v51.99162

Palabras clave:

Muscular Hypertrophy, Soy Flour, Lunges

Resumen

Se requieren suplementos de reemplazo para una hipertrofia muscular óptima en los atletas. Sin embargo, no todos los deportistas pueden permitirse suplementos ricos en proteínas debido a sus elevados gastos. El objetivo de este artículo es investigar y demostrar la eficacia de los suplementos a base de proteínas para mejorar los efectos del entrenamiento de resistencia en el crecimiento muscular. Este método de estudio es un diseño pseudoexperimental pretest-postest. Utilizando toda la técnica de muestreo, se utilizaron como muestras de estudio 14 atletas de silat Pencak indonesio del PPLP Sumatra Occidental. El procedimiento de investigación incluye la medición de la circunferencia del músculo del muslo y el espesor de la grasa del muslo de los atletas (prueba previa), el tratamiento de estocadas de 1 a 8 veces, la medición de la circunferencia del músculo del muslo y el espesor de la grasa del muslo de los atletas después de ocho tratamientos (prueba intermedia) y el tamaño de circunferencia del músculo del muslo y grosor de la grasa del muslo después de 9 a 16 sesiones de entrenamiento de estocadas (prueba posterior). Se administró harina de soja dependiendo de la ingesta promedio de alimentos del atleta, administrada 30 minutos después del ejercicio de estocadas. El entrenamiento de estocadas consistió en 16 sesiones, intensidad moderada (30% - 50% de la capacidad máxima), seis repeticiones, cinco series e intervalos de 3 a 6 minutos. Se usó una cinta métrica para medir la circunferencia del músculo del muslo y el espesor de los pliegues cutáneos para calcular el espesor de la grasa del muslo usando la fórmula MTMC = MTC - espesor de los pliegues cutáneos (3,14 x TSF). La prueba utilizada fue la prueba de Kruskal-Wallis. El examen de los datos arrojó un valor p de 0,03 <0,05 y un aumento porcentual del 10,68%. En el entrenamiento de estocadas se puede administrar harina de soja rica en proteínas como alternativa o sustituto de los suplementos para la hipertrofia muscular.

Palabras clave: hipertrofia muscular, harina de soja, estocadas

Abstract. Replacement supplements are required for optimal muscular hypertrophy in athletes. However, not all athletes can afford high-protein supplements due to their high expenses. The aim of this paper is to investigate and demonstrate the efficacy of protein-based supplements in enhancing the effects of resistance training on muscle growth. This method of study is a pseudo-experimental pre-test-posttest design. Using the entire sampling technique, 14 PPLP West Sumatra Indonesian Pencak silat athletes were used as study samples. The research procedure includes the measurement of thigh muscle circumference and thigh fat thickness of athletes (pretest), treatment of lunges 1-8 times, measurement of thigh muscle circumference and thigh fat thickness of athletes after eight treatments (midtest), and the size of thigh muscle circumference and thigh fat thickness after 9-16 lunges training sessions (posttest). Soy flour was administered depending on the athlete's average food intake, administered 30 minutes after the lunges exercise. The lunge training consisted of 16 sessions, moderate intensity (30% - 50% of maximum capacity), six repetitions, five sets, and 3 - 6 minute intervals. A tape meter was used to measure thigh muscle circumference and skinfold thickness to calculate thigh fat thickness using the formula MTMC = MTC - skinfold thickness (3.14 x TSF). The test utilized was the Kruskal-Wallis test. The examination of the data yielded a p-value of 0.03 < 0.05 and a percentage increase of 10.68%. In lunges training, high-protein soy flour can be administered as an alternative or replacement for supplements for muscular hypertrophy.

Keywords: Muscular Hypertrophy, Soy Flour, Lunges

Citas

Allen, N. E., Appleby, P. N., Davey, G. K., & Key, T. J. (2001). Soy Milk Intake in Relation to Serum Sex Hormone Levels in British Men. Nutrition and Cancer, 41(1–2), 41–46. https://doi.org/10.1080/01635581.2001.9680610

Atherton, C., McNaughton, L. R., Close, G. L., & Sparks, A. (2020). Post-exercise provision of 40 g of protein during whole body resistance training further augments strength adaptations in elderly males. Research in Sports Medicine, 28(4), 469–483. https://doi.org/10.1080/15438627.2020.1770251

Babault, N., Deley, G., Le Ruyet, P., Morgan, F., & Allaert, F. A. (2014). Effects of soluble milk protein or casein supplementation on muscle fatigue following resistance training program: A randomized, double-blind, and placebo-controlled study. Journal of the International Society of Sports Nutrition, 11(1), 1–9. https://doi.org/10.1186/1550-2783-11-36

Benjamin Caballero, Lindsay Allen, A. P. (2005). Encyclopedia of Human Nutrition.

Bogsan, C. S., Nero, L. A., & Todorov, S. D. (2015). From Traditional Knowledge to an Innovative Approach for Bio-preservation in Food by Using Lactic Acid Bacteria. https://doi.org/10.1007/978-3-319-23177-8_1

Brown, E. C., DiSilvestro, R. A., Babaknia, A., & Devor, S. T. (2004). Soy versus whey protein bars: Effects on exercise training impact on lean body mass and antioxidant status. Nutrition Journal, 3, 1–5. https://doi.org/10.1186/1475-2891-3-22

Burd, N. A., Gorissen, S. H., Van Vliet, S., Snijders, T., & Van Loon, L. J. C. (2015). Differences in postprandial protein handling after beef compared with milk ingestion during postexercise recovery: A randomized controlled trial. American Journal of Clinical Nutrition, 102(4), 828–836. https://doi.org/10.3945/ajcn.114.103184

Coelho, M. O. C., Monteyne, A. J., Dunlop, M. V., Harris, H. C., Morrison, D. J., Stephens, F. B., & Wall, B. T. (2020). Mycoprotein as a possible alternative source of dietary protein to support muscle and metabolic health. Nutrition Reviews, 78(6), 486–497. https://doi.org/10.1093/nutrit/nuz077

Cronin, J., McNair, P. J., & Marshall, R. N. (2003). Lunge performance and its determinants. Journal of Sports Sciences, 21(1), 49–57. https://doi.org/10.1080/0264041031000070958

Deibert, P., Solleder, F., König, D., Vitolins, M. Z., Dickhuth, H. H., Gollhofer, A., & Berg, A. (2011). Soy protein based supplementation supports metabolic effects of resistance training in previously untrained middle aged males. Aging Male, 14(4), 273–279. https://doi.org/10.3109/13685538.2011.565091

Denkova, Z. R., & Murgov, I. D. (2005). Soy milk yoghurt. Biotechnology and Biotechnological Equipment, 19(1), 193–195. https://doi.org/10.1080/13102818.2005.10817180

Fardi, A., & Welis, W. (2018). The Influence of Protein Supplementation on Muscle Hypertrophy. IOP Conference Series: Materials Science and Engineering, 335(1). https://doi.org/10.1088/1757-899X/335/1/012061

Figueiredo, V. C., & Cameron-Smith, D. (2013). Is carbohydrate needed to further stimulate muscle protein synthesis/hypertrophy following resistance exercise? Journal of the International Society of Sports Nutrition, 10, 2–4. https://doi.org/10.1186/1550-2783-10-42

Ghosh, D., Ray, L., & Chattopadhyay, P. (2010). Nutraceutical Potential of Cow Milk and Soy Milk Curd (Dahi). Indian Chemical Engineer, 52(4), 336–346. https://doi.org/10.1080/00194506.2010.547763

González, P. P., Sánchez-infante, J., & Fernández-galván, L. M. (2022). *Prince Sultan University (Saudi Arabia), ** University of Castilla-La Mancha (Spain), ***Autonomous University of Madrid (Spain). 2041.

Grgic, J., Lazinica, B., Mikulic, P., Krieger, J. W., & Schoenfeld, B. J. (2017). The effects of short versus long inter-set rest intervals in resistance training on measures of muscle hypertrophy: A systematic review. European Journal of Sport Science, 17(8), 983–993. https://doi.org/10.1080/17461391.2017.1340524

Hamarsland, H., Nordengen, A. L., Nyvik Aas, S., Holte, K., Garthe, I., Paulsen, G., Cotter, M., Børsheim, E., Benestad, H. B., & Raastad, T. (2017). Native whey protein with high levels of leucine results in similar post-exercise muscular anabolic responses as regular whey protein: A randomized controlled trial. Journal of the International Society of Sports Nutrition, 14(1), 1–12. https://doi.org/10.1186/s12970-017-0202-y

Henchion, M., Hayes, M., Mullen, A. M., Fenelon, M., & Tiwari, B. (2017). Future protein supply and demand: Strategies and factors influencing a sustainable equilibrium. Foods, 6(7), 1–21. https://doi.org/10.3390/foods6070053

Hoffman, J. R., & Falvo, M. J. (2004). Protein - Which is best? Journal of Sports Science and Medicine, 3(3), 118–130.

Hofmann, M., Schober-Halper, B., Oesen, S., Franzke, B., Tschan, H., Bachl, N., Strasser, E. M., Quittan, M., Wagner, K. H., & Wessner, B. (2016). Effects of elastic band resistance training and nutritional supplementation on muscle quality and circulating muscle growth and degradation factors of institutionalized elderly women: the Vienna Active Ageing Study (VAAS). European Journal of Applied Physiology, 116(5), 885–897. https://doi.org/10.1007/s00421-016-3344-8

Hudson, J. L., Wang, Y., Bergia, R. E., & Campbell, W. W. (2020). Protein Intake Greater than the RDA Differentially Influences Whole-Body Lean Mass Responses to Purposeful Catabolic and Anabolic Stressors: A Systematic Review and Meta-analysis. Advances in Nutrition, 11(3), 548–558. https://doi.org/10.1093/advances/nmz106

Hulmi, J. J., Laakso, M., Mero, A. A., Häkkinen, K., Ahtiainen, J. P., & Peltonen, H. (2015). The effects of whey protein with or without carbohydrates on resistance training adaptations. Journal of the International Society of Sports Nutrition, 12(1), 1–13. https://doi.org/10.1186/s12970-015-0109-4

Ives, S. J., Bloom, S., Matias, A., Morrow, N., Martins, N., Roh, Y., Ebenstein, D., O’Brien, G., Escudero, D., Brito, K., Glickman, L., Connelly, S., & Arciero, P. J. (2017). Effects of a combined protein and antioxidant supplement on recovery of muscle function and soreness following eccentric exercise. Journal of the International Society of Sports Nutrition, 14(1), 1–10. https://doi.org/10.1186/s12970-017-0179-6

Josse, A. R., Tang, J. E., Tarnopolsky, M. A., & Phillips, S. M. (2010). Body composition and strength changes in women with milk and resistance exercise. Medicine and Science in Sports and Exercise, 42(6), 1122–1130. https://doi.org/10.1249/MSS.0b013e3181c854f6

Joy, J. M., Lowery, R. P., Dudeck, J. E., De Souza, E. O., Jäger, R., McCleary, S. A., Wilson, S. M. C., Purpura, M., & Wilson, J. M. (2013). Phosphatidic acid supplementation increases skeletal muscle hypertrophy and strength. Journal of the International Society of Sports Nutrition, 10(sup1), 1–2. https://doi.org/10.1186/1550-2783-10-s1-p13

Krause Neto, W., Soares, E. G., Lima Vieira, T., Aguiar, R., Andrade Chola, T., De Lima Sampaio, V., & Gama, E. F. (2020). Jssm-19-195. ©Journal of Sports Science and Medicine, 19(November 2019), 195–203. http://www.jssm.org

Kumar, P., Chatli, M. K., Mehta, N., Singh, P., Malav, O. P., & Verma, A. K. (2017). Meat analogues: Health promising sustainable meat substitutes. Critical Reviews in Food Science and Nutrition, 57(5), 923–932. https://doi.org/10.1080/10408398.2014.939739

Lamb, D. A., Moore, J. H., Smith, M. A., Vann, C. G., Osburn, S. C., Ruple, B. A., Fox, C. D., Smith, K. S., Altonji, O. M., Power, Z. M., Cerovsky, A. E., Ross, C. O., Cao, A. T., Goodlett, M. D., Huggins, K. W., Fruge, A. D., Young, K. C., & Roberts, M. D. (2020). The effects of resistance training with or without peanut protein supplementation on skeletal muscle and strength adaptations in older individuals. Journal of the International Society of Sports Nutrition, 17(1), 1–17. https://doi.org/10.1186/s12970-020-00397-y

Ma, L., Grann, K., Li, M., & Jiang, Z. (2011). A pilot study to evaluate the effect of soy isolate protein on the serum lipid profile and other potential cardiovascular risk markers in moderately hypercholesterolemic Chinese adults. Ecology of Food and Nutrition, 50(6), 473–485. https://doi.org/10.1080/03670244.2011.620875

Mangano, K. M., Sahni, S., Kiel, D. P., Tucker, K. L., Dufour, A. B., & Hannan, M. T. (2017). Dietary protein is associated with musculoskeletal health independently of dietary pattern: The Framingham Third Generation Study. American Journal of Clinical Nutrition, 105(3), 714–722. https://doi.org/10.3945/ajcn.116.136762

Mario, D. T., Komaini, A., Welis, W., Rifki, M. S., Alnedral, Ihsan, N., Syafrianto, D., Zulbahri, Ilham, Okilanda, A., & Alimuddin. (2022). Slow-motion in weight training: How does it affect muscle hypertrophy in untrained young men? Journal of Physical Education and Sport, 22(10), 2465–2471. https://doi.org/10.7752/jpes.2022.10314

Mario, D. T., Komaini, A., Welis, W., Sepdanius, E., & Syafrianto, D. (2022). High-protein foods in weight training as an alternative for muscle hypertrophy: Soy milk, egg whites, and tofu. Journal of Physical Education and Sport, 22(9), 2254–2264. https://doi.org/10.7752/jpes.2022.09287

Marthandam Asokan, S., Hung, T. H., Chiang, W. D., & Lin, W. T. (2018). Lipolysis-Stimulating Peptide from Soybean Protects Against High Fat Diet-Induced Apoptosis in Skeletal Muscles. Journal of Medicinal Food, 21(3), 225–232. https://doi.org/10.1089/jmf.2017.3941

Messina, M. (2016). Soy and health update: Evaluation of the clinical and epidemiologic literature. Nutrients, 8(12). https://doi.org/10.3390/nu8120754

Montgomery, D. C. (2013). Design and Analysis of Experiments. In L. Ratts, L. Buonocore, A. Melhorn, C. Ruel, H. Nolan, & M. Eide (Eds.), Design (8th ed., Vol. 2). John Wiley & Sons, Inc.

Moore, D. R., Tang, J. E., Burd, N. A., Rerecich, T., Tarnopolsky, M. A., & Phillips, S. M. (2009). Differential stimulation of myofibrillar and sarcoplasmic protein synthesis with protein ingestion at rest and after resistance exercise. Journal of Physiology, 587(4), 897–904. https://doi.org/10.1113/jphysiol.2008.164087

Morton, R. W., Murphy, K. T., McKellar, S. R., Schoenfeld, B. J., Henselmans, M., Helms, E., Aragon, A. A., Devries, M. C., Banfield, L., Krieger, J. W., & Phillips, S. M. (2018). A systematic review, meta-analysis and meta-regression of the effect of protein supplementation on resistance training-induced gains in muscle mass and strength in healthy adults. British Journal of Sports Medicine, 52(6), 376–384. https://doi.org/10.1136/bjsports-2017-097608

Naclerio, F., Larumbe-Zabala, E., Seijo, M., Ashrafi, N., Nielsen, B. V., & Earnest, C. P. (2019). Effects of Protein Versus Carbohydrate Supplementation on Markers of Immune Response in Master Triathletes: A Randomized Controlled Trial. Journal of the American College of Nutrition, 38(5), 395–404. https://doi.org/10.1080/07315724.2018.1528906

Nunes, J. P., Grgic, J., Cunha, P. M., Ribeiro, A. S., Schoenfeld, B. J., de Salles, B. F., & Cyrino, E. S. (2021). What influence does resistance exercise order have on muscular strength gains and muscle hypertrophy? A systematic review and meta-analysis. European Journal of Sport Science, 21(2), 149–157. https://doi.org/10.1080/17461391.2020.1733672

Puya-Braza, J. M., & Sanchez-Oliver, A. J. (2018). Consumo de suplementos deportivos en levantadores de peso de nivel nacional (Sports supplements consumption in national-level powerlifters). Retos, 2041(34), 276–281. https://doi.org/10.47197/retos.v0i34.65027

Ralston, G. W., Kilgore, L., Wyatt, F. B., Buchan, D., & Baker, J. S. (2018). Weekly Training Frequency Effects on Strength Gain: A Meta-Analysis. Sports Medicine - Open, 4(1). https://doi.org/10.1186/s40798-018-0149-9

Rifki, S. M., & Mario, D. T. (2014). Energy Intake During Volleyball Training Camp Athlete of Week Sports National Student (POMNAS) West Sumatera.Asean. University Sports Council International Conference, 319–325.

Rodriguez, N. R. (2005). Optimal Quantity and Composition of Protein for Growing Children. Journal of the American College of Nutrition, 24(2), 150S-154S. https://doi.org/10.1080/07315724.2005.10719457

Rodriguez, N. R., DiMarco, N. M., & Langley, S. (2009). Nutrition and Athletic Performance: Position Statement. Medicine & Science in Sports & Exercise, Special Co, 709–731. https://doi.org/10.1249/MSS.0b013e318190eb86

Shenoy, S., Bedi, R., & Sandhu, J. S. (2013). Effect of Soy Isolate Protein and Resistance Exercises on Muscle Performance and Bone Health of Osteopenic/Osteoporotic Post-Menopausal Women. Journal of Women and Aging, 25(2), 183–198. https://doi.org/10.1080/08952841.2013.764252

Stark, M., Lukaszuk, J., Prawitz, A., & Salacinski, A. (2012). Protein timing and its effects on muscular hypertrophy and strength in individuals engaged in weight-training. Journal of the International Society of Sports Nutrition, 9, 1–8. https://doi.org/10.1186/1550-2783-9-54

Tokede, O. A., Onabanjo, T. A., Yansane, A., Gaziano, J. M., & Djoussé, L. (2015). Soya products and serum lipids: A meta-Analysis of randomised controlled trials. British Journal of Nutrition, 114(6), 831–843. https://doi.org/10.1017/S0007114515002603

Vargas-molina, S., García-sillero, M., Salgado, U., Carbone, L., & Martín-rivera, F. (2023). Effect of attentional focus on squats on lactate production and rating of perceived exertion in trained men Efecto del foco atencional en la sentadilla sobre la producción de lactato y la percepción del esfuerzo percibido en hombres entrenados *Salvador Vargas-Molina, *Manuel García-Sillero, **Ulises Salgado, ***Leandro Carbone, ****Fernando Martín-Rivera. 2041, 452–457.

Wang, F., Meng, J., Sun, L., Weng, Z., Fang, Y., Tang, X., Zhao, T., & Shen, X. (2020). Study on the tofu quality evaluation method and the establishment of a model for suitable soybean varieties for Chinese traditional tofu processing. Lwt, 117(March 2019), 108441. https://doi.org/10.1016/j.lwt.2019.108441

Welis. (2017). The Quality of Nutrient Intake of Table Tennis Athlete. IOP Conference Series: Materials Science and Engineering, 180. https://doi.org/doi:10.1088/1757-899X/180/1/012184

Welis, W. & S. (2009). Gizi Olahraga (Pertama). Wineka Media.

Autores/as

DOI:

Palabras clave:

Resumen

Citas

Descargas

Publicado

Cómo citar

Número

Sección

Licencia

Artículos más leídos del mismo autor/a

Idioma

Información

Enviar un artículo