Can disordered eating behaviors reduce maximum oxygen consumption in road cyclists?

Fortes, Leonardo de Sousa; Vasconcelos, Gustavo César; Mendonça, Lilyan Carla Vaz; Paes, Pedro Pinheiro; Paes, Santiago Tavares; Vianna, Jeferson Macedo

doi:10.5007/1980-0037.2017v19n3p323

Abstract

The aim of this study was to compare the maximum oxygen consumption (VO₂max) between road cyclists with and without risk for eating disorders. The sample was composed of 43 cyclists aged 18-25 years, participants of the road cycling championship of the State of Pernambuco. VO₂max was measured by a computerized metabolic analyzer during an incremental test in cycleergometer. The initial test load was 50 W, with increments of 25 W every minute until volitional exhaustion or inability to maintain the current load. To evaluate disordered eating behaviors (DEB), the Eating Attitudes Test was used (EAT-26). Univariate analysis of covariance (ANCOVA) was used to compare the VO₂max between cyclists with (EAT-26 ≥ 21) and without (EAT-26 < 21) risk for eating disorders. The findings showed statistically significant VO₂max difference between cyclists with and without risk to eating disorders (F _(2,41)=28.44; p=0.01), indicating moderate effect size (d = 0.6). It was concluded that DEB was related to cyclists with lower VO₂max.

Key words
Cycling; Physical endurance; Sport medicine

Resumo

O objetivo da pesquisa foi comparar o consumo máximo de oxigênio (VO₂máx) entre ciclistas de estrada com e sem risco para o desencadeamento de transtornos alimentares. A amostra foi composta por 43 ciclistas com idade entre 18 e 25 anos, participantes do campeonato pernambucano de ciclismo de estrada. O VO₂máx foi mensurado por um analisador metabólico computadorizado no decorrer de um teste incremental realizado em cicloergômetro. A carga inicial do teste foi 50 W, com incrementos de 25 W a cada minuto até atingir a exaustão voluntária ou impossibilidade de manter a carga atual. Para avaliar os comportamentos de risco para os transtornos alimentares (CRTA) foi utilizado o Eating Attitudes Test (EAT-26). Conduziu-se a análise univariada de covariância (ANCOVA) para comparar o VO₂máx entre ciclistas com (EAT-26≥21) e sem riscos (EAT-26<21) para os transtornos alimentares. Os achados revelaram diferença estatisticamente significante do VO₂máx entre ciclistas com e sem risco para os transtornos alimentares (F_(2,41)=28,44; p=0,01), indicando moderado tamanho do efeito (d=0,6). Concluiu-se que os CRTA estiveram relacionados aos ciclistas com menor VO₂máx.

Palavras-chave
Ciclismo; Medicina esportiva; Resistência física

INTRODUCTION

Road cycling is a cycling sport modality with endurance characteristics, usually performed outdoors, in which long distances are traveled on a bicycle (~ 250km). According to Skorski et al.¹1 Skorski S, Hammes D, Schwindling S, Veith S, Pfeiffer M, Ferrauti A, Kellmann N, Meyer T. Effects of training-induced fatigue on pacing patterns in 40-km cycling time trials. Med Sci Sports Exercise 2015; 15(4): 593-600., movement economy, alactic anaerobic power, anaerobic resistance and maximum oxygen consumption (VO₂max) are the main performance indicators in road cycling.

VO₂max refers to the body’s maximum ability to uptake, transport and use oxygen and is expressed in absolute (1/min) or relative terms (ml/kg/min)²2 Ronnestad BR, Ellefsen HS. Block periodization of high-intensity aerobic intervals provides superior training effects in trained cyclists. Scand J Med Sci Sports 2014; 24(1): 34-42.. Studies have indicated that VO₂max is closely related to aerobic and anaerobic capacity³3 Freitas VH, Miloski B, Bara-Filho MG. Monitoramento da carga interna de um período de treinamento em jogadores de voleibol. Rev Bras Educ Fís Esporte 2015; 29(1): 5-12.^-⁴4 Soares-Caldeira LF, Souza EA, Freitas VH, Moraes SMF, Leicht AS, Nakamura FY. Effects of additional repeated sprint training during preseason on performance, heart rate variability, and stress symptoms in futsal players: a randomized controlled trial. J Strength Condic Research 2015; 28(10): 2815-26.. In this sense, VO₂max is considered of extreme importance for athletes of cyclic endurance sports, such as road cycling, to support long competitive distances, as it ensures high energy performance throughout the cycling stage and favors rapid removal of metabolic acidosis accumulated among high-intensity muscular actions⁵5 Sangali EB, Campos EZ, Gobbo LA, Andrade VL, Papoti M, Freitas-Júnior IF, Figueira TR, Balikian-Júnior P. Relação entre índices fisiológicos aeróbios e desempenho em provas de curta e média duração em ciclistas de elite. Rev Bras Cineantropom Desemp Hum 2013; 15(4): 498-506..

Therefore, it is considered inevitable to identify aspects that can affect VO₂max in cyclists, both positively and negatively. On the one hand, longterm continuous exercises and/or moderate intensity interval exercises are used in training to improve VO₂max², while, on the other hand, disordered eating behaviors (DEB) may attenuate it in athletes⁶6 Bratland-Sanda S, Sundgot-Borgen J. Eating disorders in athletes: Overview of prevalence risk factors and recommendations for prevention and treatment. Eur J Sport Sci 2012; 1(1): 1-10.^-⁷7 El Ghoch M, Soave F, Cafugi S, Grave D. Eating disorders, physical fitness and sport performance: A systematic review. Nutrients 2013; 5(5): 5140-60..

DEB are considered inadequate methods for reducing body mass⁸8 Papathomas A, Petrie T. Editorial: Towards a more sophisticated approach to eating disorders in sport research. Psychol Sport Exercise 2014; 15(5): 675-9.. Long periods without food intake, use of laxatives/diuretics/appetite suppressants, use of plastic clothes to generate dehydration during physical training sessions and self-induced vomiting are pointed out as the main DEB among athletes⁹9 Chapman J, Woodman T. Disordered eating in male athletes: a meta-analysis. J Sports Sci 2016; 34(2): 101-109.. According to Bratland-Sanda and Sundgot-Borgen⁶6 Bratland-Sanda S, Sundgot-Borgen J. Eating disorders in athletes: Overview of prevalence risk factors and recommendations for prevention and treatment. Eur J Sport Sci 2012; 1(1): 1-10., the pressure of coaches for better athletic performance is the main explanation for the athletes’ adoption of DEB. Findings have demonstrated that about 25% of male endurance sports athletes adopt DEB as a measure to maximize athletic performance¹⁰10 Filaire E, Rouveiux M, Pannafieux C, Ferrand C. Eating attitudes, perfeccionism and body esteem of elite male judoists and cyclists. J Sports Sci Med 2007; 6(1): 50-7.

11 Fortes LS, Ferreira MEC, Oliveira SMF, Cyrino ES, Almeida SS. A socio-sports model of disordered eating among Brazilian male athletes. Appetite 2015; 92(1): 29-35.^-¹²12 Gapin JI, Petruzzello SJ. Athletic identity and disordered eating in obligatory and non-obligatory runners. J Sports Sci 2011; 29(10): 1001-10., since coaches often associate body mass attenuation with improved athletic performance¹³13 Durguerian A, Bougard C, Drogou C, Sauvet F, Chennaoul M, Filaire E. Weight loss, performance and psychological related states in high-level weighlifters. Int J Sports Med 2016; 37(3): 230-238..

It seems that DEB can lead to VO₂max reduction in athletes⁶6 Bratland-Sanda S, Sundgot-Borgen J. Eating disorders in athletes: Overview of prevalence risk factors and recommendations for prevention and treatment. Eur J Sport Sci 2012; 1(1): 1-10.. According to Chapman and Woodman⁹9 Chapman J, Woodman T. Disordered eating in male athletes: a meta-analysis. J Sports Sci 2016; 34(2): 101-109., DEB generate dehydration, which in turn can induce increased blood viscosity and, consequently, cardiovascular overload. Thus, considering that cardiovascular overload is closely related to the decrease in aerobic performance¹⁴14 Figueiredo T, Willardson JM, Miranda H, Bentes CM, Reis VM, Simão R. Influence of load intensity on postexercise hypotension and heart rate variability after a strength training session. J Strength Condict Research 2015; 29(10): 2941-8.^,¹⁵15 Okuno NM, Pedro RE, Leicht AS, Ramos SP, Nakamura FY. Cardiac autonomic recovery after a single session of resistance exercise with and without vascular occlusion. J Strength Condict Research 2014; 28(4): 1143-50., it could be concluded that DEB can generate VO₂max attenuation. However, it is noteworthy that, to the best of our knowledge, no scientific research has sought to analyze whether, in fact, DEB induces VO₂max reduction in athletes, which justifies the accomplishment of the present study.

In summary, the following question is made: is there a negative relationship of DEB with VO₂max in road cyclists? If this relationship is true, follow-up and/or psychological intervention programs may be indicated for road cyclists with the premise of inhibiting the adoption of DEB. From the practical point of view, this type of research may contribute to the field of sports sciences, as it is fundamental to identify the intervening factors in the VO₂max of athletes. In view of the above, the aim of the present study was to compare VO₂max values between road cyclists with and without risk for the onset of eating disorders. Then, based on the assertions of some researchers⁶6 Bratland-Sanda S, Sundgot-Borgen J. Eating disorders in athletes: Overview of prevalence risk factors and recommendations for prevention and treatment. Eur J Sport Sci 2012; 1(1): 1-10.

7 El Ghoch M, Soave F, Cafugi S, Grave D. Eating disorders, physical fitness and sport performance: A systematic review. Nutrients 2013; 5(5): 5140-60.^-⁸8 Papathomas A, Petrie T. Editorial: Towards a more sophisticated approach to eating disorders in sport research. Psychol Sport Exercise 2014; 15(5): 675-9., a hypothesis was formulated for the present investigation: 1) road cyclists with higher DEB frequency present lower VO₂max compared to cyclists with lower DEB frequency.

METHODOLOGICAL PROCEDURES

Participants

This is a research developed with male road cycling athletes. The sample consisted of 48 cyclists aged 18-25 years participating in the road cycling championship of Pernambuco. Cyclists trained on average 2 hours a day five times a week. To be included in the survey, athletes should: a) be a road cycling athlete for at least one year; b) train road cycle for at least 6 hours per week; c) be enrolled in the state championship organized by the Cycling Federation of Pernambuco and; d) be willing to answer a questionnaire, participate in anthropometric measurements and perform the performance test (incremental test).

However, 5 athletes were excluded because they did not present the fully answered questionnaire or did not participate in the performance test. Thus, the survey had a final sample of 43 road cycling athletes.

Participants signed the informed consent form, agreeing to participate in the methodological procedures of the investigation. The procedures adopted in this study complied with the norms of Resolution 466/12 of the National Health Council for research on humans. The project was approved by the Ethics Research Committee on Humans of the Federal University of Pernambuco (CAE - 46978515.6.0000.5208).

Procedures

The researchers contacted some cyclists participating in the road cycling championship of Pernambuco. The “snowball” method was adopted with the premise of recruiting more volunteers for the research. The “snowball” method is a non-probabilistic sampling technique in which the subjects selected to be investigated invite new participants from their network of contacts⁸8 Papathomas A, Petrie T. Editorial: Towards a more sophisticated approach to eating disorders in sport research. Psychol Sport Exercise 2014; 15(5): 675-9.. Then, a meeting was held with cyclists to clarify all the ethical procedures of the investigation. All athletes signed the informed consent form agreeing to their voluntary participation in the survey.

Data were collected in two laboratory visits (Figure 1). The first visit was made with the intention of familiarizing cyclist with the incremental test in cycloergometer in order to avoid the learning effect¹⁶16 Ronnestad BR, Hansen J, Hollan I, Ellefsen S. Strength training improves performance and pedaling characteristics in elite cyclists. Scand J Med Sci Sports 2015; 25(1): e89-e98.. On the second visit, conducted between 72 and 96 hours after the first visit, volunteers participated in two stages. In the first stage, athletes answered the EAT-26 questionnaire and then participated in the anthropometric measurements (body mass, height and skinfolds). It should be emphasized that athletes received verbal guidance and any doubts were clarified. The questionnaire also included written guidelines on completing it. In the second stage of the second laboratory visit, athletes performed the incremental test in cycloergometer with electromagnetic braking (Cateye, Japan). Cyclists were recommended to keep their daily diets and not perform physical exercises in the 24 hours prior to the incremental test.

Figure 1
Procedural design of the investigation.

Measures

VO₂max was measured by a computerized metabolic analyzer (CPX/D Cortex, Germany) during an incremental test performed on cycloergometer with electromagnetic braking (Cateye, Japan). The test was preceded by warm-up exercises developed in the same cycloergometer for 3 minutes adopting load of 25 W. The participant rested for 2 minutes prior to the start of the incremental test. The cyclists adjusted the height of the seat according to their height. The cyclists remained seated during the incremental test. Volunteers were instructed to perform the test under as much effort as possible. Verbal encouragement was provided throughout the entire test. The initial load was 50 W, with increments of 25 W every minute until participant reached voluntary exhaustion or impossibility to maintain current load. Heart rate (HR) was continuously monitored by a cardiofrequency meter (S810i, Polar). Respiratory variables were uninterruptedly measured and recorded every 20 seconds. The test was interrupted when one of the following situations occurred: 1) plateau or VO₂ reduction with increasing load; 2) respiratory coefficient greater than or equal to 1.1 and; 3) 95% of maximum HR predicted for age (220 - age), as recommended by Astrand et al.¹⁷17 Astrand PO, Strromme SB, Rodahl K, Dall HA. Tratado de fisiologia do trabalho: bases fisiológicas do exercício. 4. ed. Porto Alegre: Artmed; 2006.. The highest VO₂ value before test interruption was adopted as the VO₂max.

To evaluate DEB, the Eating Attitudes Test (EAT-26), validated for the Portuguese language by Bighetti et al.¹⁸ in non-athlete women, was applied. The questionnaire consists of 26 questions distributed in three subscales: 1) diet - refers to the pathological refusal to food with high caloric content and concern with physical appearance; 2) bulimia and concern with food - refers to episodes of binge eating, followed by purgative behaviors for body weight loss / control and; 3) oral self-control - refers to self-control in relation to food and evaluates the environmental and social forces that stimulate food intake. In each EAT-26 item, volunteers have six response options ranging from 0 (seldom, almost never and never) to 3 (always). he only question that presents reverse order score is question 25. he EAT-26 score is made by adding up its items. The higher the score, the greater the risk for eating disorders. It is also possible to classify respondents as for the risk for eating disorders, i.e., scores equal to or greater than 21 in the EAT-26 indicate risk for the onset of eating disorders. In the validation study, Bighetti et al.¹⁸18 Bighetti F, Santos CB, Santos JE, Ribeiro RPP. Tradução e avaliação do eating attitudes test em adolescentes do sexo feminino de Ribeirão Preto, São Paulo. J Bras Psiq 2004; 53(6):339-46. indicated internal consistency of 0.82. For the present sample, internal consistency value of 0.88 was found, evaluated by Cronbach’s alpha. It is noteworthy that EAT-26 was also used as an instrument for screening eating disorders in other investigations with male athletes¹⁰10 Filaire E, Rouveiux M, Pannafieux C, Ferrand C. Eating attitudes, perfeccionism and body esteem of elite male judoists and cyclists. J Sports Sci Med 2007; 6(1): 50-7.^-¹¹11 Fortes LS, Ferreira MEC, Oliveira SMF, Cyrino ES, Almeida SS. A socio-sports model of disordered eating among Brazilian male athletes. Appetite 2015; 92(1): 29-35..

Portable scale (Tanita®) and stadiometer (Welmy®) were used to determine body mass and height, respectively. Body mass index (BMI) was calculated from the following formula: BMI = body mass (kg)/height (m)².

Body density was determined with the technique of skinfold thickness using a Lange© caliper (USA) to measure triceps, pectoral and subscapular skinfolds, adopting the protocol of Jackson and Pollock¹⁹19 Jackson AS, Pollock ML. Generalized equations for predicting body density of men. Br J Nutr 1978; 40(4): 497-504.. For the measurements of skinfolds, standardizations of the International Society for Advancement for Kineanthropometry²⁰20 The Internacional Society for Advancement for. Australia: National Library of Australia. Available from: http://www.isakonline.com [2013 Jul 10].
http://www.isakonline.com... were used. Body fat percentage (BF%) was determined by means of the Siri equation²¹21 Siri WE. The gross composition ofthe body. In: Tobias CA, Lawrence JH, editors. Advances in biological and medical physics. New York: Academic Press, 1956: 239-80..

Data analysis

The Shapiro Wilk test was conducted to evaluate data distribution. The Levene test was used to test homocedasticity, whereas data sphericity was verified by the Mauchly test. When this last assumption was violated, the Greenhouse-Geisser correction was adopted, taking into account Cohen’s notes²²22 Cohen J. Statistical power analysis for the behavioral sciences. Hillsdale, NJ. 1988; Lawrence Erlbaum Associates.. Measurements of central tendency (mean) and dispersion (standard deviation and standard error) were used to describe the research variables. Univariate covariance analysis (ANCOVA) was applied to compare VO₂max between cyclists with (EAT-26≥21) and without risk (EAT-26 <21) for eating disorders. It is noteworthy that age was statistically controlled. In addition, the Cohen’s effect size²²22 Cohen J. Statistical power analysis for the behavioral sciences. Hillsdale, NJ. 1988; Lawrence Erlbaum Associates. represented by the abbreviation “d” was used to indicate differences from the practical point of view, as adopted by other scientific investigations²2 Ronnestad BR, Ellefsen HS. Block periodization of high-intensity aerobic intervals provides superior training effects in trained cyclists. Scand J Med Sci Sports 2014; 24(1): 34-42.^,¹⁰10 Filaire E, Rouveiux M, Pannafieux C, Ferrand C. Eating attitudes, perfeccionism and body esteem of elite male judoists and cyclists. J Sports Sci Med 2007; 6(1): 50-7.^,¹²12 Gapin JI, Petruzzello SJ. Athletic identity and disordered eating in obligatory and non-obligatory runners. J Sports Sci 2011; 29(10): 1001-10.. The following criteria were adopted, according to Cohen’s notes²²22 Cohen J. Statistical power analysis for the behavioral sciences. Hillsdale, NJ. 1988; Lawrence Erlbaum Associates.: d <0.4 = low effect size, 0.4 ≤ d> 0.8 = moderate effect size and d ≥ 0.8 = large effect size. All data were processed in SPSS 21.0 software, adopting significance level of 5%.

RESULTS

Descriptive data [VO₂max, EAT-26, BMI, BF%, age and training regime (weekly training frequency x hours of daily training)] can be seen in Table 1.

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Table 1
Descriptive values (mean / standard deviation) of the research variables.

The research findings indicated that 25% of cyclists revealed risks for the onset of eating disorders according to EAT-26 scores (≥21).

The ANCOVA results revealed a statistically significant difference in VO₂max between cyclists with and without risk for eating disorders (F(_{2, 41}) = 28.44, p = 0.01), indicating a moderate effect size (d = 0.6). It should be noted that age did not show collinearity with VO₂max (F(_{2, 41}) = 2.62, p = 0.21).

DISCUSSION

The present investigation aimed to compare VO₂max between road cyclists with and without risk for the onset of eating disorders. he results of the present study indicated lower VO₂max for cyclists at risk for eating disorders compared to those with no risk, confirming the initial hypotheses.

Scientific investigations have revealed that approximately 25% of endurance sports athletes adopt DEB with the premise of attenuating body mass⁶6 Bratland-Sanda S, Sundgot-Borgen J. Eating disorders in athletes: Overview of prevalence risk factors and recommendations for prevention and treatment. Eur J Sport Sci 2012; 1(1): 1-10.

7 El Ghoch M, Soave F, Cafugi S, Grave D. Eating disorders, physical fitness and sport performance: A systematic review. Nutrients 2013; 5(5): 5140-60.

8 Papathomas A, Petrie T. Editorial: Towards a more sophisticated approach to eating disorders in sport research. Psychol Sport Exercise 2014; 15(5): 675-9.

9 Chapman J, Woodman T. Disordered eating in male athletes: a meta-analysis. J Sports Sci 2016; 34(2): 101-109.

10 Filaire E, Rouveiux M, Pannafieux C, Ferrand C. Eating attitudes, perfeccionism and body esteem of elite male judoists and cyclists. J Sports Sci Med 2007; 6(1): 50-7.

11 Fortes LS, Ferreira MEC, Oliveira SMF, Cyrino ES, Almeida SS. A socio-sports model of disordered eating among Brazilian male athletes. Appetite 2015; 92(1): 29-35.^-¹²12 Gapin JI, Petruzzello SJ. Athletic identity and disordered eating in obligatory and non-obligatory runners. J Sports Sci 2011; 29(10): 1001-10., corroborating the findings of the present study. It appears that approximately 1/4 of endurance sports athletes are vulnerable to the onset of eating disorders. According to Fortes et al.¹¹11 Fortes LS, Ferreira MEC, Oliveira SMF, Cyrino ES, Almeida SS. A socio-sports model of disordered eating among Brazilian male athletes. Appetite 2015; 92(1): 29-35., the main explanation for this fact is the pressure of coaches in the yearning for better results. Considering that athletes usually associate body mass reduction with the maximization of performance in competitions⁸8 Papathomas A, Petrie T. Editorial: Towards a more sophisticated approach to eating disorders in sport research. Psychol Sport Exercise 2014; 15(5): 675-9., some athletes may adopt DEB aiming at optimizing competitive results.

The findings of the present study demonstrated lower VO₂max in cyclists at risk for the development of eating disorders compared to those with no risk. It is noteworthy that the results showed moderate effect size, which indicates a reasonable probability of cyclists adopting DEB to attenuate VO₂max. Considering the energy metabolism, the performance in the incremental test due to its duration (~ 13 minutes) came mainly from muscle glycogen metabolism²³23 Spriet LL New insights into the interaction of carbohydrate and fat metabolism during exercise. Sports Med 2014; 44(1): 87-96.^,²⁴24 Lima-Silva AE, Fernandes TC, Oliveira FR, Nakamura FY, Gevaerd MS. Metabolismo do glicogênio muscular durante o exercício físico: mecanismos de regulação. Rev Nutr 2007; 20(4): 417-29.. Studies have indicated that athletes who adopt restrictive dietary diets and/or medications (laxatives, diuretics, thermogenics and appetite suppressants) expecting fast weight loss may decrease muscle glycogen stores⁶6 Bratland-Sanda S, Sundgot-Borgen J. Eating disorders in athletes: Overview of prevalence risk factors and recommendations for prevention and treatment. Eur J Sport Sci 2012; 1(1): 1-10.^,⁷7 El Ghoch M, Soave F, Cafugi S, Grave D. Eating disorders, physical fitness and sport performance: A systematic review. Nutrients 2013; 5(5): 5140-60., which may lead to a reduction in sports performance¹³13 Durguerian A, Bougard C, Drogou C, Sauvet F, Chennaoul M, Filaire E. Weight loss, performance and psychological related states in high-level weighlifters. Int J Sports Med 2016; 37(3): 230-238.. In this sense, it seems that the adoption of DEB can generate negative changes in the aerobic energy pathways. According to Chapman and Woodman⁹9 Chapman J, Woodman T. Disordered eating in male athletes: a meta-analysis. J Sports Sci 2016; 34(2): 101-109., DEB increase blood viscosity, which may reduce cardiac output due to cardiovascular overload²⁵25 Brito CJ, Roas AFM, Brito ISS, Marins JCB, Cordova C, Franchini E. Methods of body-mass reduction by combat sport athletes. Int J Sport Nutr Exercise Metabol 2012; 22(1): 89-97.. Therefore, it is possible to assume that DEB results in the attenuation of energy release in medium intensity exercises, thus explaining the VO₂max results between cyclists with and without risk for the onset of eating disorders.

Although the experimental design of this research is unprecedented with cycling athletes, the results should be analyzed with caution, since the research has limitations. A questionnaire was used to measure DEB frequency. Since responses are subjective, athletes may not have indicated total truthfulness in their responses. In addition, it is known that EAT-26, although presenting acceptable reference values for the Brazilian male population²⁶26 Fortes LS, Amaral ACS, Conti MA, Almeida SS, Ferreira MEC. Qualidades psicométricas do Eating Attitudes Test (EAT-26) para adolescentes brasileiros do sexo masculino. Psicol: Teoria Pesquisa 2016; 32(3): 1-7., is not specific for athletes. In the study by Fortes et al.²⁶26 Fortes LS, Amaral ACS, Conti MA, Almeida SS, Ferreira MEC. Qualidades psicométricas do Eating Attitudes Test (EAT-26) para adolescentes brasileiros do sexo masculino. Psicol: Teoria Pesquisa 2016; 32(3): 1-7., the same instrument validated by Bighetti et al.¹⁸18 Bighetti F, Santos CB, Santos JE, Ribeiro RPP. Tradução e avaliação do eating attitudes test em adolescentes do sexo feminino de Ribeirão Preto, São Paulo. J Bras Psiq 2004; 53(6):339-46. was adopted, with no change in semantic equivalence. The difference among studies was the psychometric properties revealed. Fortes et al.²⁶26 Fortes LS, Amaral ACS, Conti MA, Almeida SS, Ferreira MEC. Qualidades psicométricas do Eating Attitudes Test (EAT-26) para adolescentes brasileiros do sexo masculino. Psicol: Teoria Pesquisa 2016; 32(3): 1-7. demonstrate that the EAT-26 items divided into three factors explained more than 45% of their variance, in addition to pointing to excellent concurrent validity, discriminatory power and reproducibility. In this sense, EAT-26 can also be used for the screening of eating disorders in male subjects. Another limitation that should be mentioned was the use of a double indirect method to evaluate BF%.

CONCLUSION

The findings of the present study led us to conclude that DEB was related to cyclists with lower VO₂max. In other words, cyclists with higher DEB frequency demonstrated lower VO₂max compared to cyclists with lower DEB frequency.

Further prospective studies with road cycling athletes should be carried out in order to investigate the possible influence of DEB on physical performance (VO₂max, alactic anaerobic power, anaerobic capacity, etc).

REFERENCES

¹
Skorski S, Hammes D, Schwindling S, Veith S, Pfeiffer M, Ferrauti A, Kellmann N, Meyer T. Effects of training-induced fatigue on pacing patterns in 40-km cycling time trials. Med Sci Sports Exercise 2015; 15(4): 593-600.
²
Ronnestad BR, Ellefsen HS. Block periodization of high-intensity aerobic intervals provides superior training effects in trained cyclists. Scand J Med Sci Sports 2014; 24(1): 34-42.
³
Freitas VH, Miloski B, Bara-Filho MG. Monitoramento da carga interna de um período de treinamento em jogadores de voleibol. Rev Bras Educ Fís Esporte 2015; 29(1): 5-12.
⁴
Soares-Caldeira LF, Souza EA, Freitas VH, Moraes SMF, Leicht AS, Nakamura FY. Effects of additional repeated sprint training during preseason on performance, heart rate variability, and stress symptoms in futsal players: a randomized controlled trial. J Strength Condic Research 2015; 28(10): 2815-26.
⁵
Sangali EB, Campos EZ, Gobbo LA, Andrade VL, Papoti M, Freitas-Júnior IF, Figueira TR, Balikian-Júnior P. Relação entre índices fisiológicos aeróbios e desempenho em provas de curta e média duração em ciclistas de elite. Rev Bras Cineantropom Desemp Hum 2013; 15(4): 498-506.
⁶
Bratland-Sanda S, Sundgot-Borgen J. Eating disorders in athletes: Overview of prevalence risk factors and recommendations for prevention and treatment. Eur J Sport Sci 2012; 1(1): 1-10.
⁷
El Ghoch M, Soave F, Cafugi S, Grave D. Eating disorders, physical fitness and sport performance: A systematic review. Nutrients 2013; 5(5): 5140-60.
⁸
Papathomas A, Petrie T. Editorial: Towards a more sophisticated approach to eating disorders in sport research. Psychol Sport Exercise 2014; 15(5): 675-9.
⁹
Chapman J, Woodman T. Disordered eating in male athletes: a meta-analysis. J Sports Sci 2016; 34(2): 101-109.
¹⁰
Filaire E, Rouveiux M, Pannafieux C, Ferrand C. Eating attitudes, perfeccionism and body esteem of elite male judoists and cyclists. J Sports Sci Med 2007; 6(1): 50-7.
¹¹
Fortes LS, Ferreira MEC, Oliveira SMF, Cyrino ES, Almeida SS. A socio-sports model of disordered eating among Brazilian male athletes. Appetite 2015; 92(1): 29-35.
¹²
Gapin JI, Petruzzello SJ. Athletic identity and disordered eating in obligatory and non-obligatory runners. J Sports Sci 2011; 29(10): 1001-10.
¹³
Durguerian A, Bougard C, Drogou C, Sauvet F, Chennaoul M, Filaire E. Weight loss, performance and psychological related states in high-level weighlifters. Int J Sports Med 2016; 37(3): 230-238.
¹⁴
Figueiredo T, Willardson JM, Miranda H, Bentes CM, Reis VM, Simão R. Influence of load intensity on postexercise hypotension and heart rate variability after a strength training session. J Strength Condict Research 2015; 29(10): 2941-8.
¹⁵
Okuno NM, Pedro RE, Leicht AS, Ramos SP, Nakamura FY. Cardiac autonomic recovery after a single session of resistance exercise with and without vascular occlusion. J Strength Condict Research 2014; 28(4): 1143-50.
¹⁶
Ronnestad BR, Hansen J, Hollan I, Ellefsen S. Strength training improves performance and pedaling characteristics in elite cyclists. Scand J Med Sci Sports 2015; 25(1): e89-e98.
¹⁷
Astrand PO, Strromme SB, Rodahl K, Dall HA. Tratado de fisiologia do trabalho: bases fisiológicas do exercício. 4. ed. Porto Alegre: Artmed; 2006.
¹⁸
Bighetti F, Santos CB, Santos JE, Ribeiro RPP. Tradução e avaliação do eating attitudes test em adolescentes do sexo feminino de Ribeirão Preto, São Paulo. J Bras Psiq 2004; 53(6):339-46.
¹⁹
Jackson AS, Pollock ML. Generalized equations for predicting body density of men. Br J Nutr 1978; 40(4): 497-504.
²⁰
The Internacional Society for Advancement for. Australia: National Library of Australia. Available from: http://www.isakonline.com [2013 Jul 10].
» http://www.isakonline.com
²¹
Siri WE. The gross composition ofthe body. In: Tobias CA, Lawrence JH, editors. Advances in biological and medical physics. New York: Academic Press, 1956: 239-80.
²²
Cohen J. Statistical power analysis for the behavioral sciences. Hillsdale, NJ. 1988; Lawrence Erlbaum Associates.
²³
Spriet LL New insights into the interaction of carbohydrate and fat metabolism during exercise. Sports Med 2014; 44(1): 87-96.
²⁴
Lima-Silva AE, Fernandes TC, Oliveira FR, Nakamura FY, Gevaerd MS. Metabolismo do glicogênio muscular durante o exercício físico: mecanismos de regulação. Rev Nutr 2007; 20(4): 417-29.
²⁵
Brito CJ, Roas AFM, Brito ISS, Marins JCB, Cordova C, Franchini E. Methods of body-mass reduction by combat sport athletes. Int J Sport Nutr Exercise Metabol 2012; 22(1): 89-97.
²⁶
Fortes LS, Amaral ACS, Conti MA, Almeida SS, Ferreira MEC. Qualidades psicométricas do Eating Attitudes Test (EAT-26) para adolescentes brasileiros do sexo masculino. Psicol: Teoria Pesquisa 2016; 32(3): 1-7.

Publication Dates

Publication in this collection
May-Jun 2017

History

Received
11 Apr 2016
Accepted
27 Mar 2017

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Variables	No risk (EAT-26<21) (n = 32)	Risk (EAT-26≥21) (n = 11)	p
Variables	Mean (±SD)	Mean (±SD)	p
VO₂max (ml/kg/min)	58.80 ±2.41^a a p <0.05 compared to the “risk” group.	54.75 ±2.56	0.01
EAT-26	11.97 ±8.62^a a p <0.05 compared to the “risk” group.	24.14 ±4.36	0.01
BMI (kg/m²)	21.61 ±1.43	21.80 ±1.52	0.29
BF%	20.17 ±6.42	21.04 ±8.19	0.21
Age (years)	21.33 ±1.84	21.49 ±1.75	0.35
TR (weekly hours)	10.23 ±1.12	10.26 ±1.07	0.26

Brasil