Body composition and dietary patterns in professional and amateur bodybuilders

Authors

  • Karol Makiel Department of Anatomy, University of Physical Education in Cracow, Poland
  • Agnieszka Suder Department of Anatomy, University of Physical Education in Cracow, Poland
  • Sebastian Kasza independent researcher
  • Katarzyna Kubasiak Department of Anatomy, University of Physical Education in Cracow, Poland

DOI:

https://doi.org/10.2478/anre-2020-0016

Keywords:

athletes, lean body mass, nutritional behaviors, training, diet

Abstract

Significant factors affecting body composition and consequently professional and amateur bodybuilders’ performance are both training loads and diet.

The aim was to assess dissimilarities in anthropometrical traits and body composition between males practicing bodybuilding professionally and as amateurs, considering their diet and training.

The study comprised 55 athletes, i.e. 29 professionals attending national championships and 26 amateur bodybuilders. All participants underwent anthropometric measurements involving body height, waist, arm and thigh circumferences and skinfolds covering trunk and extremities. The original nutritional behavior questionnaire and a 24-hour survey were used. An electronic scale was used to measure body weight and body composition was analyzed with the BIA method. In statistical analysis, the Shapiro-Wilk (W-test), t-student and Mann-Whitney U test were applied.

An adipose tissue, assessed on the basis of skinfolds was significantly lower in professionals (p<0.05), whereas lower mean values of body fat free mass (FFM) were found in amateur bodybuilders (p<0.01). Diet survey presented differentiation both in the amount of consumed protein in the diet (1.98 g/kg), in its percentage participation in the diet (21.2%) in favor of the professionals (p<0.05). Significant differentiation was between the groups in the amount of consumed fats (p<0.05). In case of resistance trainings time, energy expenditure and number of trainings were higher for professionals (p<0.05).

Bodybuilders feature better developed muscle mass of extremities and a smaller share of percentage of fat mass in body composition in comparison to amateurs. Professional bodybuilders consume proper amount of carbohydrates and fats and significantly higher level of protein, fiber and energy in diet compared to amateur group. In contrary, higher intake of fats is typical for amateur bodybuilders.

Downloads

Download data is not yet available.

References

Ainsworth BE, Haskell WL, Herrmann SD, Meckes N, Bassett DR, Tudor-Locke C, Greer JL, Vezina J, Whitt-Glover MC, Leon AS. 2011. Compendium of Physical Activities. Med Sci Sports Exerc 43(8):1575–81.
View in Google Scholar

Anderson JW, Randles KM, Kendall CW, Jenkins DJ. 2004. Carbohydrate and fiber recommendations for individuals with diabetes: a quantitative assessment and meta-analysis of the evidence. J Am Coll Nutr 23:5–17.
View in Google Scholar

Bazzarre TL, Kleiner SM, Ainsworth BE. 1992. Vitamin C intake and lipid profiles of competitive male and female bodybuilders. Int J Sport Nutr 2(3):260–71.
View in Google Scholar

Bienkiewicz M, Bator E, Bronkowska M. 2015. Błonnik pokarmowy i jego znaczenie w profilaktyce zdrowotnej. Probl Hig Epidemiol 96(1):57–63.
View in Google Scholar

Blomstrand E, Saltin B. 1999. Effect of muscle glycogen on glucose, lactate and amino acid metabolism during exercise and recovery in human subjects. J Physiol 514:293–302.
View in Google Scholar

Burke LM, Ross ML, Garvican-Lewis LA, Welvaert M, Heikura IA, Forbes SG, et al. 2017. Low carbohydrate, high fat diet impairs exercise economy and negates the performance benefit from intensified training in elite race walkers. J Physiol 595(9):2785–807.
View in Google Scholar

Burton-Freeman B, Davis PA, Schneeman BO. 2002. Plasma cholecystokinin is associated with subjective measures of satiety in woman. Am J Clin Nutr 76:659–67.
View in Google Scholar

Chappell AJ, Simper T, Barker ME. 2018. Nutritional strategies of high level natural bodybuilders during competition preparation. J Int Soc Sports Nut 15:4.
View in Google Scholar

Chappell AJ, Simper T, Helms E. 2019. Nutritional strategies of British professional and amateur natural bodybuilders during competition preparation. J Int Soc Sports Nut 16(1):35.
View in Google Scholar

Cohen J. 2013. Statistical power analysis for the behavioral sciences. Academic Press.
View in Google Scholar

Chow LS, Albright RC, Bigelow ML, Toffolo G, Cobelli C, Nair KS. 2006. Mechanism of insulin’s anabolic effect on muscle: measurements of muscle protein synthesis and breakdown using aminoacyl-tRNA and other surrogate measures. Am J Physiol Endocrinol Metab 291(4):E729–36.
View in Google Scholar

Churchley EG, Coffey VG, Pedersen DJ, Shield A, Carey KA, Cameron-Smith D, et al. 2007. Influence of preexercise muscle glycogen content on transcriptional activity of metabolic and myogenic genes in well-trained humans. J Appl Physiol 102(4):1604–11.
View in Google Scholar

de Luis DA, Izaola O, Aller R, de la Fuente B, Bachiller R, Romero E. 2015. Effects of a high-protein/low carbohydrate versus a standard hypocaloric diet on adipocytokine levels and insulin resistance in obese patients along 9 months. J Diabetes Complications 29(7):950–4.
View in Google Scholar

de Moraes WMAM, de Almeida FN, Dos Santos LEA, Cavalcante KDG, Santos HO, Navalta JW, et al. 2019. Carbohydrate loading practice in bodybuilders: effects on muscle thickness, photo silhouette scores, mood states and gastrointestinal symptoms. J Sports Sci Med 18(4):772–9.
View in Google Scholar

Gondek E, Świniarska K, Nowak D, Janczar-Smuga M, Kamińska-Dwórznicka A, Wiktor A. 2018. Ocena sposobu żywienia mężczyzn uprawiających amatorsko sporty siłowe. Zeszyty Naukowe Państwowej Wyższej Szkoły Zawodowej im. Witelona w Legnicy 3(28):9–19.
View in Google Scholar

Fry AC, Ryan AJ, Schwab RJ, Powell DR, Kraemer WJ. 1991. Anthropometric characteristics as discriminators of body-building success. J Sports Sci 9(1):23–32.
View in Google Scholar

Griggs RC, Kingston W, Jozefowicz RF, Herr BE, Forbes G, Halliday D.1985. Effect of testosterone on muscle mass and muscle protein synthesis. J Appl Physiol 66(1):498–503.
View in Google Scholar

Hackett DA, Johnson NA, Chow CM. 2013. Training practices and ergogenic aids used by male bodybuilders. J Strength Cond Res 27:1609–17.
View in Google Scholar

Heaney R, Layman DK. 2008. Amount and type of protein influences bone health. Am J Clin 87(5):1567–70.
View in Google Scholar

Helge JW. 2017. A high carbohydrate diet remains the evidence based choice for elite athletes to optimise performance. J Physiol 595(9):2775.
View in Google Scholar

Helge, JW. 2000. Adaptation to a fat-rich diet: effects on endurance performance in humans. Sports Med 30(5):347–57.
View in Google Scholar

Hernández-Alonso P, Salas-Salvadó J, Ruiz-Canela M, Corella D, Estruch R, Fitó M, et al. 2016. High dietary protein in-take is associated with an increased body weight and total death risk. Clin Nutr 35(2):496–506.
View in Google Scholar

Heyward VH, Sandoval WM, Colville BC. 1989. Anthropometric, body composition and nutritional profiles of bodybuilders during training. J Strength Cond Res 3(2):22–29.
View in Google Scholar

Huygens W, Claessens AL, Thomis M, Loos R, Van Langendonck L, Peeters M, et al. 2002. Body composition estimations by BIA versus anthropometric equations in body builders and other power athletes. J Sports Med Phys Fitness 42(1):45–55.
View in Google Scholar

Jackson AS, Pollock ML. 1978. Generalized equations for predicting body density of men. Br J Nutr 40(3):497–504.
View in Google Scholar

Jarosz M, 2017. Normy żywienia dla populacji – nowelizacja. Instytut Żywności i Żywienia. Warszawa.
View in Google Scholar

Keith RE, Stone MH, Carson RE, Lefavi RG, Fleck SJ. 1996. Nutritional status and lipid profiles of trained steroid-using bodybuilders. Int J Sport Nutr 6(3):247–54.
View in Google Scholar

Kleiner SM, Bazzarre TL, Litchford MD. 1990. Metabolic profiles, diet, and health practices of championship male and female bodybuilders. J Am Diet Assoc 90(7):962–7.
View in Google Scholar

Knuiman P, Hopman MT, Mensink M. 2015. Glycogen availability and skeletal muscle adaptations with endurance and resistance exercise. Nutr Metab 12:59.
View in Google Scholar

Koopman R, Manders RJ, Jonkers RA, Hul GB, Kuipers H, van Loon LJ. 2006. Intramyocellular lipid and glycogen content are reduced following resistance exercise in untrained healthy males. Eur J Appl Physiol 96(5):525–34.
View in Google Scholar

Lambert CP, Flynn MG. 2002. Fatigue during high-intensity intermittent exercise: application to bodybuilding. Sports Med 32(8):511–22.
View in Google Scholar

Leidy HJ, Hoertel HA, Douglas SM, Higgins KA, Shafer RS. 2015. A high-protein breakfast prevents body fat gain, though reduction in daily intake and hunger, in ‘‘Breakfast skipping’’ adolescents. Obesity 23(9):1761–4.
View in Google Scholar

Matthew P. Krause, Kevin J. Milne, Thomas J. Hawke. 2019. Adiponectin – Consideration for its Role in Skeletal Muscle Health. Int J Mol Sci 20(7):1528.
View in Google Scholar

Mitchell L, Hackett D, Gifford J, Estermann F, O’Connor H. 2017. Do Bodybuilders Use Evidence-Based Nutrition Strategies to Manipulate Physique? Sports (Basel) 5(4):76.
View in Google Scholar

Ogita S. 2010. The effects of body composition differences on placement at bodybuilding competition among male amateur bodybuilders. Research Papers 26.
View in Google Scholar

Ortinau LC, Hoertel HA, Douglas SM, Leidy HJ. 2014. Effects of high protein vs high-fat snacks on appetite control, satiety, and eating initiation in healthy women. Nutr J 13:97.
View in Google Scholar

Pascoe DD, Costill DL, Fink WJ, Robergs RA, Zachwieja JJ. 1993. Glycogen resynthesis in skeletal muscle following resistive exercise. Med Sci Sports Exerc 25(3):349–54.
View in Google Scholar

Pastuszak A, Buśko K, Kalka E. 2016. Somato-type and body composition of volleyball players and untrained female students – reference group for comparison in sport. Anthropol Rev 79(4):461–70.
View in Google Scholar

Phillips SM, Van Loon LJ. 2011. Dietary protein for athletes: from requirements to optimum adaptation. J Sports Sci 29(1):29–38.
View in Google Scholar

Phillips SM. 2004. Protein requirements and supplementation in strength sports. Nutrition 20(7–8):689–95.
View in Google Scholar

Pietraszewska J, Burdukiewicz A, Stachoń A, Andrzejewska J, Pietraszewski B. 2015. Anthropometric characteristics and lower limb power of professional female volleyball players. S Afr J Res Sport Phys Educ Recreation 37(1):99–112.
View in Google Scholar

Pietraszewska J, Burdukiewicz A, Stachoń A, Andrzejewska J. 2013. Morphological and functional effects of the resistance training and high physical activity of recreational type in young men. Medical and Biological Sciences 27(4):39–45.
View in Google Scholar

Polska Agencja Antydopingowa. Roczny ra-port, Antydopingowa Polska 2018. [pdf] Warszawa: Polska Agencja Antydopingowa. Available at https://www.antydoping.pl/wp-content/uploads/2019/08/Raport-Roczny-2018.pdf [Accessed 4 January 2020].
View in Google Scholar

Polski Związek Kulturystyki, Fitness i Trójboju Siłowego. Available at https://www.pzkfits.pl/przepisy_/dostęp 25.01.2020.
View in Google Scholar

Rodriguez NR, Di Marco MN, Langley S. 2009. American College of Sports Medicine position stand. Nutrition and athletic performance. Med Sci Sports Exerc 41(3):709–31.
View in Google Scholar

Saeidinejat S, Hooshmand E, Zahra H, Najar AV. 2018. Evaluating the pattern of anabolic androgenic steroid use and its relation with mental health of male members of bodybuilding clubs of Iran, in 2015. Asian Journal of Sports Medicine 9(1):e60164.
View in Google Scholar

Schoenfeld BJ. 2010. The mechanisms of muscle hypertrophy and their application to resistance training. J Strength Cond Res 24(10):2857–72.
View in Google Scholar

Siri WE. 1961. Body composition from fluid space and density. In J. Brozek and A. Hanschel (Eds.), Techniques for measuring body composition (pp. 223–44). Washington, DC: National Academy of Science.
View in Google Scholar

Slater G, Phillips SM. 2011. Nutrition guidelines for strength sports: sprinting, weightlifting, throwing events, and bodybuilding. J Sports Sci 29(1):67–77.
View in Google Scholar

Smith D, Hale B. 2004. Validity and factor structure of the bodybuilding dependence scale. Br J Sports Med 38(2):177–81.
View in Google Scholar

Söğüt M, Altunsoy K, Varela-Silva MI. 2018. Associations between anthropometric indicators of adiposity and body fat percentage in normal weight young adults. Anthropological Review 81(2):174–81.
View in Google Scholar

Spendlove J, Mitchell L, Gifford J, Hackett D, Slater G, Cobley S, et al. 2015. Dietary in-take of competitive bodybuilders. Sports Med 45(7):1041–63.
View in Google Scholar

Stepto NK, Carey AL, Staudacher HM, Cummings NK, Burke LM, Hawley JA. 2002. Effect of short-term fat adaptation on high-intensity training. Med Sci Sports Exerc 34(3):449–55.
View in Google Scholar

Stiegler P, Cunliffe A. 2006. The role of diet and exercise for the maintenance of fat-free mass and resting metabolic rate during weight loss. Sports Med. 36(3):239–62.
View in Google Scholar

Suder A. 2009. Body fatness and its social and lifestyle determinants in young working males from Cracow, Poland. J Biosoc Sci 41(1):139–54.
View in Google Scholar

The World Anti-Doping Agency. 2018. The world anti-doping code international standard prohibited list. [pdf] Available at https://www.wada-ama.org/sites/default/files/prohibited_list_2018_summary_of_modifications_en.pdf [Accessed 4 January 2020].
View in Google Scholar

Van Eenoo P, Delbeke FT. 2003. The prevalence of doping in Flanders in comparison to the prevalence of doping in international sports. Int J Sports Med 24(8):565–70.
View in Google Scholar

Volek JS, Noakes T, Phinney SD. 2015. Re-thinking fat as a fuel for endurance exercise. Eur J Sport Sci 15(1):13–20.
View in Google Scholar

World Health Organization, 2004. WHO global strategy on diet, physical activity and health. Food Nutr Bull 25, 292–302.
View in Google Scholar

Wu G. 2016. Dietary protein intake and human health. Food Funct 7,1251–65.
View in Google Scholar

Downloads

Published

2020-06-30

How to Cite

Makiel, K., Suder, A., Kasza, S., & Kubasiak, K. (2020). Body composition and dietary patterns in professional and amateur bodybuilders. Anthropological Review, 83(2), 225–238. https://doi.org/10.2478/anre-2020-0016

Issue

Section

Articles

Similar Articles

<< < 26 27 28 29 30 31 32 33 34 35 > >> 

You may also start an advanced similarity search for this article.