metricas
covid
Buscar en
Revista Colombiana de Psiquiatría (English Edition)
Toda la web
Inicio Revista Colombiana de Psiquiatría (English Edition) Muscle dysmorphia and use of ergogenics substances. A systematic review
Información de la revista
Vol. 46. Núm. 3.
Páginas 168-177 (julio - septiembre 2017)
Visitas
2151
Vol. 46. Núm. 3.
Páginas 168-177 (julio - septiembre 2017)
Review Article
Acceso a texto completo
Muscle dysmorphia and use of ergogenics substances. A systematic review
Dismorfia muscular y uso de sustancias ergogénicas. Una revisión sistemática
Visitas
2151
Jaime García-Rodrígueza, Georgina Alvarez-Rayóna,
Autor para correspondencia
alvarezr@unam.mx

Corresponding author.
, Jaime Camacho-Ruízb, Adriana Amaya-Hernándeza, Juan Manuel Mancilla-Díaza
a Facultad de Estudios Profesionales Iztacala, Universidad Nacional Autónoma de México, Mexico
b Unidad Académica Profesional Nezahualcóyotl, Universidad Autónoma del Estado de México, Mexico
Este artículo ha recibido
Información del artículo
Resumen
Texto completo
Bibliografía
Descargar PDF
Estadísticas
Figuras (1)
Tablas (2)
Table 1. Characteristics of the samples.
Table 2. Characteristics of the studies and main results.
Mostrar másMostrar menos
Abstract

The use of ergogenic substances (UES) is not restricted to achieving a better athletic performance, but also it is a behaviour for body changing through muscle development; however, little is known about the relationship between muscle dysmorphia (MD) and UES. Therefore, it was conducted a systematic review of those empirical papers that have studied this relationship over the last decade (2004–2014). First it is highlighted that of the 22 articles analysed, only 13 explicitly aimed this interest. Besides, although the documented data outlined some relevant aspects such as the existence of a high co-occurrence (60–90%) between MD and UES. In general, the evidence is still incipient and uncertain, mainly because of the large disparity between the methodologies of the studies, particularly in terms of indicators, parameters and measures utilised to assess UES within the context of MD.

Keywords:
Body image
Body dysmorphic disorders
Performance-enhancing substances
Anabolic agents
Resumen

El uso de sustancias ergogénicas (USE) no se restringe a la consecución de un mayor desempeño atlético, actualmente también es una conducta de cambio corporal, vía el desarrollo muscular; no obstante, poco se sabe de la relación entre dismorfia muscular (DM) y USE. Por tanto se realizó una revisión sistemática de los estudios empíricos que, durante la última década (2004-2014), la han examinado. De entrada, destaca el hecho de que, de los 22 artículos analizados, solo en 13 se explicita este interés. Además, aunque los datos documentados delinean algunas vertientes relevantes, como la existencia de una alta concomitancia (60-90%) de DM y USE, en general las evidencias son aún incipientes e inciertas, principalmente debido a la gran disparidad metodológica entre estudios y, particularmente, en cuanto a los indicadores, los parámetros y las medidas que, en el contexto de la DM, se han venido empleando para evaluar USE.

Palabras clave:
Imagen corporal
Trastorno dismórfico corporal
Sustancias para mejorar el rendimiento
Anabolizantes
Texto completo
Introduction

People with muscle dysmorphia (MD), as a variant of body dysmorphic disorder, present distortion (based on their perception of being insufficiently muscular) and extreme body preoccupation, which results in clinically relevant discomfort.1 In addition, as a behavioural expression, the person adopts extreme behaviours for bodily change. Among the most characteristic are: weightlifting, drastic changes in diet and ergogenic substance use (ESU).2–4 Generically, the term ergogenic substances (ES) is applied to all products that improve a body's performance5 and are usually classified as: nutritional (such as proteins), pharmacological (such as amphetamines) or hormonal (such as anabolic androgenic steroids [AAS]). Meanwhile, the reasons for use can be classified as: psychophysiological, psychoemotional and social.6

In the literature on MD, ESU, and more specifically AAS use, are often referred to but are not considered relevant when diagnosing MD,1,7 with the functional relationship between the same also remaining unclear. This situation led Rohman8 to conduct a narrative review of the relationship between MD and AAS use, and he concluded that, although there is sufficient evidence that AAS use is more frequent in the presence of the disorder, it is not true that MD can predict the use of AAS. However, given the epidemiological, nosological and clinical relevance underlying the understanding of this relationship, the general objective of this research is to conduct a systematic review of the studies that, during the last decade, have analysed the relationship between MD and ESU, considering the following premises: (a) interest on the topic has increased over the last decade, so the spectrum of existing evidence will be greater; (b) the study of this relationship is not limited to that of a predictive approach, but will involve evidence of different levels and scopes, and (c) ES that lead to an increase in muscle mass are not limited to AAS, so it has therefore been deemed appropriate to broaden the spectrum of substances to be taken into account.

Methods

In general, the procedure for searching and selecting articles was guided by the principles of the PRISMA (Preferred Reporting Items for Systematic Review and Meta-Analyses) statement.9,10 The search period ranged from January 2004 to December 2014, and the search was performed from 26 to 30 March 2015, on the Web of Science database, with the terms: muscularity and muscle dysmorphia, in combination with: anabolic androgenic steroids, ergogenic, supplement and performance enhancing substances, in the title, abstract and keywords. Articles were selected based on the fulfilment of four inclusion criteria: (a) that they were empirical; (b) that they were written in English or Spanish; (c) that they included at least one measure and/or indicator of MD and another of ESU, and (d) that some of the data analyses performed involved an intersection between MD and ESU. In addition, three exclusion criteria were considered: (a) dissertations, conferences and presentations; (b) reviews, meta-analyses, case studies or studies with a purely qualitative methodological approach, and (c) studies aimed at the psychometric evaluation of a measure (Fig. 1). The 22 articles retained were analysed based on the following axes: source, purpose, methodology and main findings.

Fig. 1.

Article selection process.

(0.25MB).
ResultsSource

The year with the highest number of published articles (5) was 2012, while the journal with the most inclusions was Body Image, with five. Regarding the country of origin, the United States featured most heavily (77.3%), one article is multinational11 and only one corresponds to Latin America.12 As for authors who have followed the topic, Tom Hildebrandt is worth noting, with five articles.11,13–16

Purpose

Only 13 articles (59.1%) explicitly state the authors’ interest in analysing the relationship between MD and ESU, whether in objectives, questions or hypotheses, and although this interest is not explicit in the remaining articles, they included results related thereto.

Methodology

Study type and design. All of the studies are non-experimental and predominantly cross-sectional in nature (95.4%), with only one longitudinal study after 6 weeks.17

Samples. All are non-probability samples of the intentional or incidental type. The number of participants ranged from 60 to 5527 (Table 1), although the most common size was 101–500, and mainly 201–300 (27.3%); however, three studies (13.6%) included a group with less than 25 participants, of which two included participants diagnosed with MD12—through a self-administered interview—or anorexia nervosa (AN).11 Although five studies included women,15,18–21 only one focused on them.19 As for the type of participants, university students were predominant (59.1%), followed by weightlifters (45.4%). It is important to note that only five studies mentioned the sample recruitment process, which was: through advertisements placed in gyms or nutritional product stores13,28 or through electronic media, such as websites,14,27,28 forums27 or email.32

Table 1.

Characteristics of the samples.

Sample  Articles, n (%) 
Size
≤100  5 (22.7) 
101–500  11 (50) 
501–1000  4 (18.2) 
>1000  2 (9.1) 
Type
Adolescents  2 (9.1) 
University students  13 (59.1) 
Weightlifters or bodybuilders  10 (45.4) 
Ergogenic substance users  1 (4.5) 
Muscle dysmorphia  2 (9.1) 
Anorexia nervosa  1 (4.5) 

Instruments and/or measures. In general, the greater use of self-applied scales, mainly the Likert-type, stands out. To evaluate the correlates of MD, the most widely used instruments were: Drive for Muscularity Scale (DMS) (31.8%),22 Muscle Dysmorphic Disorder Inventory (MDDI) (27.3%)23 and Muscle Dysmorphia Inventory (MDI) (18.2%).24 As for another type of scale, in one study13 a silhouette scale was used, the Bodybuilder Image Grid (BIG)23 and two conducted diagnostic interviews for MD: one based on the Body Dysmorphic Disorder Modification of the Yale-Brown Obsessive Compulsive Scale (BDD-YBOCS)25 and another designed for that purpose.12 In order to evaluate ESU or its correlates (as current or past use, intention to use), 13 studies (63.6%) used deliberately-designed items and, of these, nine only used 1–3 items (Table 2). As for specific measures of ESU, only the Stepping Stones Inventory is identified.26 However, it is worth noting the fact that the MDI24 was used in four articles,19,20,27,28 fulfilling two tasks: on the one hand, to measure the presence of MD symptoms and, on the other, to evaluate ESU with two of its subscales (supplements and pharmacological substances). Therefore, the heterogeneity of indicators used in the measurement of ESU is remarkable, a situation that could respond to: (a) the aspect examined: use (17 items), intention to use (3), positive effects of use (4) and negative effects of use (1); (b) excessive specificity or lack of specificity as to the substances considered, which can range from evaluating specific ES (such as protein) to more or less specific sets (such as supplements), but in any case the most widely examined ES are illegal (9 items), and in particular AAS (8); (c) the multiplicity of ESU temporality indicators: at some point (10 articles), current (9) or not specified (5), and (d) the variability in the criterion for defining current use, which was only specified in three articles, ranging from in situ measurement (by urine analysis),25 to the last 30 days29 or the last 6 weeks.17

Table 2.

Characteristics of the studies and main results.

Source  Samples and ESU measures  Main results 
Hatoum et al.,30 2004; United States  Sample, 89 male university students. Measures, two Likert-items on SPU (at some point)  Of the sample, 30.3% used TIM and 14.6%, TBF. Hours dedicated to reading men's magazines was weakly associated with higher SPU-TIM (r=0.28), but not with SPU-TBF 
Cafri et al.,29 2006; United States  Sample, 269 male adolescents. Measures, three Likert-items on illegal ESU  Frequency of use (at some point and current) AAS: 2.6 and 1.5%; ephedrine, 6 and 3.8%, and prohormones, 4.5 and 3.8%; all or a combination, 9.8%. Significant and direct predictive effect of SP (Wald=4.94) and MDS (Wald=4.32) on ESU 
Hildebrandt et al.,13 2006; United States  Sample, 237 adult male WL. Measures, two list-items on SPU; one list-item on illegal ESU. Time of use: not specified  Based on MDS, the LCA was broken down into five groups: 1. MD (16.9% of the sample, all weightlifters), 2. Those preoccupied with musculature, 3. Those preoccupied with fat, 4. Normal-behavioural, and 5. Normal. Greater SPU in group 1, and lower SPU in group 5; greater SPU-TBF in group 3 (37.8%) versus group 2 (22%), and greater SPU-TIM in group 2 (54%) versus group 3 (34%). Frequency of illegal ESU: 62%: greater in groups 1 (30%), 3 (10.3%) and 4 (10%) 
Kanayama et al.,34 2006; United States  Sample, 89 adult male WL (48 AAS users and 41 non-users); AAS subdivided, first into: experimental users (2–5 months; n=24) and large users (6–150 months; n=24); and then into: current users (n=31) and ex-users (n=17). Measures, not specified; records continued from a previous study  In users (versus non-users), significantly higher: body preoccupation, avoidance of showing the body and abandonment of leisure activities; no difference between large users and experimental users. In current users (versus ex-users): equal body preoccupation, but significantly greater avoidance and abandonment; in addition, this last variable was similar among ex-users and non-users 
Dodge et al.,32 2008; United States  Sample, 99 male university students (56 athletes and 43 non-athletes). Measures, two dichotomous items on legal ESU; a Likert-item on intention to use and deliberately-designed questionnaire (14 Likert-items) on positive and negative beliefs  ESU frequency (at some point and current): 37 and 19% (18% athletes and 21% non-athletes). The groups did not differ in attitudinal-MDS, but behavioural-MDS and ES-intention were higher in athletes. Behavioural-MDS (exp β=4.69), positive beliefs (exp β=1.67) and negative beliefs (exp β=0.30) predicted current ESU; in turn, behavioural-MDS predicted these beliefs, the former positively (b=0.29), and the latter negatively (b=−0.53) 
Litt et al.,17 2008; United States  Sample. Male university students: 167 at T1 and 161 at T2 (6 weeks later). Measures, at T1 a dichotomous item on ESU (at some point) and T2 on current use (last 6 weeks); at T1 and T2, an list-item, the response to which was branched (yes/no)  Frequency of ESU: T1, 30% and T2, and 19%; at T1, the most widely used ES were proteins (36%) and creatine (12%), and the least used, androstenedione (2%). From T1 to T2, in 78.3% the state of use remained unchanged; 14.9% did not use at T1, but used at T2; 4.3% reported use at T1, but not at T2. The following were relevant in the prediction of T2-ESU: T1-ESU (exp β=7.89) and behavioural-MDS (exp β=3.24), but not attitudinal-MDS 
Baghurst et al.,27 2009; United States  Sample, 293 adult males: 66 university football players, 115 WL, 65 natural BB and 47 non-natural BB. Measures, two MDI subscales24: supplements and substances  Significantly higher SPU and ESU in non-natural BBs than in natural BBs, but without a difference in MDS. Significantly higher illegal ESU in non-natural BBs than in football players. WL without difference in MDS (compared to natural and non-natural BBs), but significantly lower SPU. In football players, significantly lower MDS than in the other three groups 
Chittester et al.,28 2009; United States  Sample, 113 male university students. Measures, two dichotomous items on AAS use and MDI subscale24  Frequency of AAS use: 2.6% at some point and 1.8% current. SPU was significantly associated with higher behavioural-MDS (r=0.77), dieting (r=0.53), exercise dependence (r=0.40) and attitudinal-MDS (r=0.28). In the prediction of MDS, significant positive effects of exercise dependence (β=0.39) and SPU (β=0.26) were identified 
Walker et al.,16 2009; United States  Sample, 549 male university students. Measures, list-items on legal and illegal ESU: time of use, age at onset, most recent use, reasons and perceived effects (negative and positive)  Intention of ESU: 2%; ESU (at some point): 14.2%; 10% legal thermogenics, 3.6% illegal, 3.8% prohormones and 2.9% AAS. One type of ES: 69%; two types: 19%; three types: 10%, and four types: 1%. Body checking behaviour had a positive predictive effect on ESU (Wald=6.47) 
Behar et al.,12 2010; Chile  Sample, 172 adult males (84 university students and 88 WL), divided into: those with MD (n=76) and those without MD (n=12). Measure, deliberately-designed questionnaire on MD symptoms and legal and illegal ESU (at some point)  Frequency of ESU: 1% students and 48% WL (29% without MD and 67% with MD), with significant differences between the groups. Frequency of AAS use: 0 among students and 38% of WL (26% without MD and 42% with MD), but the latter two groups did not differ significantly 
Hildebrandt et al.,14 2010; United States  Sample, 1000 adult male ES users. Measures, three list-items on ESU (legal and illegal): which they have used, which they use regularly, number and duration of cycles, route of administration, dose, time between cycles, intention to use, etc.  Frequency of AAS use, 94%; illegal thermogenics, 28%; growth hormone, 6%, and insulin, 3%. Based on BD, the LCA was broken down into four groups: 1. MDS (10%, mostly BB), with intense DIM, long periods of ESU, short periods between cycles and long-term intention to use; 2. High BD (23%), but with marginal DIM; 3. High BD (19%), with intense DIM, but less negative appearance-related self-esteem, and low risk ESU pattern, and 4. Low BD (48%), with a lower overall impact 
Parent et al.,35 2011; United States  Sample, 270 male university students. Measures, eight Likert-items on favourable expectations and intention to use AAS  In the prediction of favourable expectations, the following were relevant: IMI, both direct (β=0.18) and indirectly (β=0.20), and directly, DIM (β=0.36). In the prediction of intention to use, the following were relevant: indirectly, IMI (β=0.09); DIM, both direct (β=0.13) and indirectly (β=0.19), and directly, favourable expectations (β=0.53). Embarrassment and body checking were not relevant 
Babusa et al.,33 2012; Hungary  Sample, 120 adult men (60 university students and 60 non-competitive BB). Measures, a MASS subscale (substance use)44 and a question about current AAS use  MDS and ESU were significantly higher in BBs. Frequency of AAS use: 9.2% in BBs and 0 in students. Significantly higher MDS in BB AAS users than in BB non-users 
Hildebrandt et al.,15 2012; United States  Sample, 201 university students current SUP users (100 men and 101 women). Measures, two deliberately-designed questionnaires: Attitudes about Appearance and Performance Enhancing Drugs (15 items on illegal ESU) and Appearance and Performance Enhancing Drug Use Checklist (no extension specified), on past and current SPU  SPU (current): 54.7% TBF (35% men and 74.3% women) and 52.7% TIM (86% men and 19.8% women); both SUP (39.6% men and 4% women). Illegal ESU (current): 15.9%, and all used AAS (28% men and 4% women); SPU always preceded ESU. In the prediction of SPU, the following were relevant: negative (β=0.44) and positive perfectionism (β=0.30), MDS (β=0.40), SP (β=0.36), PW (β=0.29) and use of illicit drugs or alcohol (β=0.16). In the prediction of illicit ESU, the following were relevant: MDS (β=0.36), negative perfectionism (β=0.28), SP (β=0.23), PW (β=0.20), use of illicit drugs or alcohol (β=0.18), and compulsive exercise (β=0.10). In addition, in the prediction of illegal ESU, the following were relevant: social influence (β=0.66) and SPU-TIM (β=0.43), and to a lesser extent SPU-TBF (β=0.23). When only taking women into account: though these predictive effects are confirmed, the relevance of social influence (β=0.31) and SPU-TIM (β=0.22) decreased, while SPU-TBF increased (β=0.35) 
Murray et al.,11 2012; Australia, United States, Ukraine and Singapore  Sample, 60 adult males (21 with MD, 24 with anorexia nervosa and 15 WL). Measures, a question about ESU (at some point), including AAS, growth hormone, laxatives and diuretics  ESU: 90% MD, 33% anorexia nervosa and 33% WL. 
Pope et al.,25 2012; United States  Sample, 233 adult male WL. Measures, “face to face” statement on AAS use (at some point) and urinalysis (current use)  AAS use (at some point and current): 43.8 and 14.6% (33.3% of the former); age at onset, 22.8±5.1 years, with only 6% starting before the age of 17. AAS users (versus non-users): significantly higher average age and more years of weightlifting. Higher muscular dissatisfaction (HR=2.0), lower athleticism (HR=2.2) and MDS (HR=3.3) present during adolescence predicted a higher risk of later AAS use; the first two variables doubled it and the latter tripled it 
Tod et al.,21 2012; United Kingdom  Sample, 651 university students (342 men and 309 women). Measure, checklist for 14 ES (such as protein, AAS and growth hormone)  Although in both sexes ESU was significantly associated with greater motivation to increase muscle tone, it was higher in men (r=0.34) than in women (r=0.25) 
Hale et al.,19 2013; United States  Sample, 74 adult female WL: 19 fitness and 55 BB (26 experts and 29 beginners). Measures, MDI subscales on supplements and substances24  SPU was significantly higher in BB (than in fitness enthusiasts); there were no differences between the groups regarding the use of other ES 
Karazsia et al.,26 2013; United States  Sample, 448 male university students. Measures, Stepping Stones Inventory, but only records on the use of four ES were maintained: protein, creatine, androstenedine and AAS  Use (at some point and current) of: protein (60.9 and 30.6%), creatine (36.2 and 10%) and testosterone derivatives (5.8 and 2.5%). With progression in mean age at onset, but no difference between androstenedine and AAS. Among those who used the latter, 96.2 and 84.6% had a history of protein and creatine use. In the prediction of current protein use, the following were relevant: IMI (β=0.09), BD (β=0.20) and DIM (β=0.07); for creatine: protein use (β=1.86) and BD (β=0.07); for testosterone derivatives: creatine use (β=2.08) and body comparison (β=0.15). A history of protein use increased the likelihood of creatine use six-fold, and the use of creatine increased the likelihood of using testosterone derivatives eight-fold 
Skemp et al.,20 2013; United States  Sample, 133 adult WL athletes, first divided into: 85 competitive (55 men and 30 women) and 48 non-competitive (24 from each sex), and then into: 51 focused on appearance (25 men and 26 women) and 82 focused on performance (54 men and 28 women). Measures, MDI subscales on supplements and substances24  Significantly greater use of SUP and illegal ES in WL focused on appearance (versus performance). Significantly higher SPU in men (than in women), as well as in competitive athletes (compared to non-competitive athletes); with no difference in illegal ESU on the basis of sex or competitive status 
Bo et al.,18 2014; Italy  Sample, 440 university students (200 men and 240 women). Measures, questioned about SPU. No number or type of items are specified; nor time of use  SPU: 10.4%. Of the cases with MDS (5.9%), 61% with SPU and 8.9% of those without MDS 
Field et al.,31 2014; United States  Sample, 5527 male adolescents. Measures, one item on current ESU (such as creatine, growth hormone, AAS)  9.2% reported a high preoccupation with being muscular, but only 2.4% ESU; this condition was more common in the 16–22 age group (7–8%) compared to the 13–15 age group (1.9%) 

LCA: latent class analysis; DIM: desire to increase musculature; MD: muscle dysmorphia; AAS: anabolic androgenic steroids; BB: bodybuilders; HR: hazard ratio; BD: body dissatisfaction; IMI: internalisation of the muscular ideal; BMI: body mass index; MASS: Muscle Appearance Satisfaction Scale; MDI: Muscle Dysmorphia Inventory; TIM: to increase musculature; SP: sports practice; WL: weightlifters; PW: preoccupation with weight; TBF: to burn fat; MDS: MD symptoms; ES: ergogenic substances; SUP: supplements; T1: time 1; T2: time 2; ESU: ergogenic substance use; SPU: supplement use.

Scope of the study. Taking into account the type of data analysis performed, predictive (50%) and comparative (40.9%) studies were predominant, with only two correlational studies.21,30

Main resultsFrequency of ergogenic substance use

Of the 22 articles, 66.7% estimated the frequency of ESU (Table 2). In university students, the percentage of ESU (at some point/legal and illegal) ranges from 1%12 to 30%,17 increasing in weightlifters (33–48%) and even more so in those with MD (67–90%).11,12 With regard to current ESU, in university students this was estimated at 19%,17 which is substantially higher than in adolescents (2.4–8%).31 Taking into account legal ESU (at some point), the frequency did not differ according to sports practice (18% of athletes versus 21% of non-athletes)32; however, it did differ based on the presence/absence of MD symptoms (61 vs 10.4%, respectively)18 or gender, since the use of supplements to increase musculature by men doubled that of thermogenics (30.3 vs 14.6%),30 a tendency that is inverted in women.15 Finally, for specific supplements, protein is the most commonly used substance (at some point), with a frequency among men that ranges from 36 to 60.9%, followed by creatine (12–36.2%). Moreover, a progression in the age of onset is identified, a condition that seems to extend to illegal ESU.17,26 With respect to the latter, in male and female supplement users who, because of this condition, are considered to be at a higher risk, the frequency was 15.9%,15 and with regard to the use of specific substances, in adolescents and university students the following are reported: ephedrine, 3.8–6%29; testosterone derivatives, 2–5.8%,26 and prohormones, 3.8–4.5%.16,29 However, special mention should be made of AAS, and this is evidenced by the fact that they were taken into account in 60% of the articles that estimated an indicator of consumption frequency. In adolescent and university males, the percentage of use ranges from 0 to 3.3%,12,16,26,28,29,33 while in supplement users it can reach 4% of women and 28% of men.15 Finally, in weightlifters, it stood at between 9.2 and 43.8%.11,12,25,33

Characterisation-comparison between samples

In addition to frequency comparisons, the authors have also been interested in examining the intersection between MD and ESU, considering them as grouping variables. In this sense, 9 of the 22 articles show some comparison between groups (Table 2). In women, although the use of supplements was greater among bodybuilders than among fitness enthusiasts, there was no difference in the use of other ES.19 In male university students, on comparing athletes and non-athletes, it was found that although the former presented more behaviours aimed at muscle gain and a greater ESU intention, the groups did not differ in their desire to increase musculature.32 Moreover, although bodybuilders and university students differed (in the expected direction) regarding all symptomatic indicators of MD, including ESU, this was not the case in muscle satisfaction.33 In light of this, Skemp et al.20 underpinned the relevance of considering the motivation underlying the exercise, as they found that the use of supplements and illegal ES was greater among athletes focused on appearance rather than performance.

However, the complexity of the phenomenon has inevitably led to a comparison between more than two groups. Thus, although it has been found that MD symptoms are significantly more present among weightlifters (such as bodybuilders) than in university football players, the illegal ESU present in these was comparable to that estimated in non-natural bodybuilders.27 These results indicate that ESU does not respond unequivocally to the presence of MD symptoms, or at least not when this is assessed by combining attitudes and behaviours. In this sense, even though initially Kanayama et al.34 identified that three correlates of MD (body preoccupation, avoidance of showing the body and abandonment of leisure activities) were more present in the AAS users than in non-users, on subdividing the former based on the extent (experimental versus large users) and time of use (current vs ex-users), they found that two behavioural correlates were reactive, but not attitudinal. As such, given the heterogeneity brought about by the intersection between MD and ESU, other studies have opted to identify which groups are underlying, on the one hand, for weightlifters13 and, on the other, ES users.14 Regarding the former, based on the symptoms of MD, five groups were created:

  • 1.

    MD.

  • 2.

    Preoccupation with being muscular.

  • 3.

    Preoccupation with fat.

  • 4.

    Normal behaviour (but not attitude).

  • 5.

    Normal.

For the latter, based on body image, four groups were created:

  • 1.

    MD.

  • 2.

    High body dissatisfaction not focused on muscularity.

  • 3.

    High body dissatisfaction focused on muscularity.

  • 4.

    Low body dissatisfaction with ESU, which stands out in groups 1 and 3, but particularly in the first.

Association-prediction between muscle dysmorphia and ergogenic substance use

As for the association between MD correlates and those of ESU, or of the predictive capacity of the former over the latter, 11 articles included some analysis that was conducive to such purposes (Table 2), the results of which can be grouped under three items:

  • 1.

    Socio-cultural influences. In men, reading more male magazines was associated with a greater use of supplements to increase musculature, but not thermogenics30; in addition, social influence proved relevant in ESU prediction15 and, more specifically, the internalisation of the muscular ideal predicted greater protein use26 and more favourable expectations regarding and intention to use AAS.35

  • 2.

    Body image. It has been identified that preoccupation,15 dissatisfaction, comparison26 and body checking16 predict ESU (legal and illegal); however, it should be noted that one study did not find the latter behaviour to be relevant in predicting favourable expectations or intention to use AAS.35

  • 3.

    MD symptoms. In general, considering both their attitudinal and behavioural dimensions, it is agreed that MD symptoms have a predictive effect on ESU.15,25,29 Regarding the attitudinal dimension, although it has been documented that said symptoms are associated with greater ESU21,28 and predict more favourable expectations and a greater intention to use AAS,35 the only longitudinal study analysed did not find that the desire to increase musculature present at time 1 predicted ESU at time 217; however, in terms of the behavioural dimension, it was found that they are associated with more favourable beliefs,32 intention to use and ESU28,32 and, more particularly, that excessive exercise is associated with increased supplement use28 and that practising sports predicts ESU.15,29

Moreover, Cafri et al.15 warn that the MD symptoms also act as mediators of the predictive effect of other variables regarding ESU, such as: body mass index, advertising influence and body dissatisfaction. Likewise, it is important to note that in the prediction of ESU, the iatrogenic effect of the use of these substances could also have an effect; for example, it has been documented that the use of supplements makes later illegal ESU more likely,15,26 albeit with a certain degree of distinction between the sexes, since in men the use of supplements to increase musculature was more relevant and, in women, that of thermogenics.15

Discussion

This review shows the relationship between MD and ESU to be a topic that is largely unexplored in Hispanic America; moreover, it is important to note that, although a total of 22 articles were defined, which would indicate that, on average, two articles were published per year during the last decade, the interest in analysing this relationship was only explicit in just over half. With respect to their methodology, practically all of them are non-experimental, cross-sectional studies, based on intentional samples, predominantly university students. This situation is contrary to that documented by Suffolk et al.,36 who analysed the methodological characteristics of the articles published on MD between 1993 and 2013, and found that the majority had focused on samples of bodybuilders or weightlifters. In addition, it is notable that in the selection of their participants, the researchers pondered at least one of three items: gender (predominantly men), exercise (mainly weightlifting) and ESU (mostly AAS), which in turn resulted in the inclusion of multiple comparison groups and subgroups. Therefore, although the heterogeneity of the samples, groups and subgroups examined, which range from community to clinical samples, including those with different levels of presumed risk, is noteworthy, university students have been most widely examined. There are two reasons as to why this may be the case: on the one hand, it is considered that during late adolescence and early youth we begin to consolidate most of our lifestyle habits37 and, on the other, the undeniable fact that university students usually constitute easily accessible samples.

In relation to the measures aimed at evaluating the MD correlates, the increased use of two of them—DMS and MDDI—is noteworthy; although both instruments are widely used around the world, the former also has a large body of evidence supporting its reliability and validity.38–41 As a counterpart, the great heterogeneity of parameters or indicators that have been used in the evaluation of ESU is worrying, which has been mostly based on a very small number of items (between 1 and 3); or, for example, the very delimitation of the legality or illegality of an ES proves somewhat unclear, so it is recommended that future research specify which substances are considered illegal or that the laws applied be indicated. Therefore, an initial problem to be solved is the formulation of ESU parameters, indicators and measures, since, although important progress is identified in the development of measures aimed at evaluating the symptoms and correlates of MD, this does not make ESU extensive.

The only measure that showed a certain constancy of use among the studies is the MDI, an instrument, whose origin and purpose, however, are based on the measurement of MD symptoms, and not on ESU. It will therefore be necessary to evaluate whether or not this condition assumes a bias when evaluating the relationship between MD and ESU, when the same approach of the items may be presupposing it. Moreover, in terms of the scope of the research, it is noteworthy that, in terms of the statistical analysis applied to the data, 40% was predictive, thus revealing that interest in identifying its feasible aetiological relationship has increased over the last decade.

Summarising the meticulous methodological analysis performed in this review, it is possible to discern a certain pattern that characterises the bulk of the studies: (a) cross-sectional studies; (b) non-probability samples; (c) intentional selection; (d) based on male university students, and (e) use of self-applied measures, mainly deliberately-designed items. In turn, there are also some methodological limitations, such as: (a) not mentioning the recruitment system; (b) continuing records from previous studies without complete data,34 and (c) using self-administered interviews to diagnose MD. These are some methodological aspects to be solved in future research, taking into account that aspects such as these define the methodological quality of the research conducted.

Now, in spite of the methodological variations and limitations, the results documented in relation to the frequency of ESU shed light on certain relevant aspects: (a) the feasible existence of a pattern of progression in ESU, which goes from legal substances at one end to illegal, with AAS at the other, thereby underpinning the relevance of extending the spectrum of ES to be examined, also taking into account that people usually use more than one16,29; (b) in men, although ESU is considered in order to increase muscle mass, it may coexist with the use of other substances aimed at burning fat,4,42 confirming not only the general complexity of studying behaviours for effecting body change, but also specific ESU; (c) although practising sports does not seem to be related to a higher frequency of ESU, the evidence indicates that weightlifting does, which underlines the importance of analysing the reason behind participating in exercise (appearance vs performance), assuming that, although in both the function is to achieve a change in body structure or composition, the two purposes do not necessarily converge, and (d) it is evident that the presence of a MD diagnosis does not presuppose ESU, but it does make it likely, so that 7–9 out of 10 patients with MD have used an ES and 4 out of 10, an AAS.

However, other aspects are noteworthy among the results of the sample characterisation-comparison: (a) the attitudinal MD correlate does not show the capacity to differentiate between ES users and non-users, but the behavioural one, which indicates the need to evaluate these correlates differently, does36,43; (b) weightlifters and, more specifically, bodybuilders, represent two samples at a greater risk of MD and ESU, and (c) in the context of MD, ESU (mainly illegal) is a clinically relevant behaviour for effecting body change. Finally, with regard to the predictive relationship between MD and ESU, this was only examined in nine articles, and it is clear that research concerning the topic is incipient. Nevertheless, according to the documented data, exclusively considering the results that coincide between at least two studies, four variables have proven relevant in the prediction of ESU: the internalisation of the muscular ideal, body preoccupation/dissatisfaction, MD symptoms and sports practice, and the finding that the use of supplements makes illegal ESU likely is also notable.

Conclusions

Although ESU is not a problem exclusive to men, weightlifters or bodybuilders, the presence thereof is confirmed to be predominant among them. Moreover, it is evident that substances used for the purpose of developing muscle mass are not limited to AAS, but comprise a wide range which includes those generally referred to as supplements and which are erroneously considered to be harmless. Therefore, there is an imminent need to work on the formulation of strategies that not only seek to influence the promotion of a healthy body image, and to thus prevent MD, but also awareness about the risks that in the medium and long term can lead to the use and, above all, abuse of ES.

Moreover, it is noteworthy that, despite the nosological relevance that ESU can have for MD, the number of research studies aimed at analysing its predictive relationship is scant. In addition, although it is clear that ESU is not present in all patients with MD and that not all users of these substances have MD, both conditions coexist in a high proportion of cases, which highlights the need for future research to define the clinical significance ESU in the context of MD.

In general, although this review is based on a growing interest in identifying the relationship between MD and ESU, the results obtained to date are still uncertain, mainly as a result of the lack of clarity and lack of consistency in the definition of indicators, parameters and measures used in and between the different studies. Therefore, one pressing need to overcome is to use ESU measures with adequate reliability and validity properties. Finally, it is important to point out two important limitations of this research: firstly, restricting the literature search to a single database and, secondly, limiting the selection of articles to those written in English or Spanish.

Funding

This research was partially funded through grants from UNAM-DGAPA-PAPIIT (IN306615) to G. Alvarez-Rayón.

Conflicts of interest

The authors have no conflicts of interest to declare.

Acknowledgements

The first author thanks the Mexican National Council of Science and Technology for awarding him the 571170 scholarship for undertaking doctorate studies.

References
[1]
Diagnostic and statistical manual of mental disorders.
5.a ed., American Psychiatric Association, (2013),
[2]
G. Alvarez, M.C. Escoto, R. Vázquez, L.A. Cerero, J.M. Mancilla.
Trastornos del comportamiento alimentario en varones: de la anorexia nerviosa a la dismorfia muscular.
Comportamiento alimentario: una perspectiva multidisciplinar, pp. 138-157
[3]
M.S. Bahrke.
Muscle enhancement substances and strategies.
The muscular ideal: psychological, social, and medical perspectives, pp. 141-160
[4]
D.R. McCreary, T.B. Hildebrandt, L.J. Heinberg, M. Boroughs, J.K. Thompson.
A review of body image influences on men's fitness goals and supplement use.
Am J Mens Health, 1 (2007), pp. 307-316
[5]
M. Chulvi, P. Pomar.
Un problema de salud pública: uso de esteroides anabólicos en los centros fitness.
Educación Física y Deportes, 104 (2007), pp. 30-55
[6]
E. Cantón, I. Checa.
El consumo de esteroides y su relación con variables psicológicas en practicantes de musculación.
Salud y Drogas, 11 (2011), pp. 129-143
[7]
H.G. Pope, A.J. Gruber, P. Choi, R. Olivardia, K.A. Phillips.
Muscle dysmorphia: an underrecognized form of body dysmorphic disorder.
Psychosomatics, 38 (1997), pp. 548-557
[8]
L. Rohman.
The relationship between anabolic androgenic steroids and muscle dysmorphia: a review.
Eat Disord, 17 (2009), pp. 187-199
[9]
D. Moher, A. Liberati, J. Tetzlaff, D.G. Altman, the PRISMA group.
Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement.
Ann Intern Med, 151 (2009), pp. 264-269
[10]
G. Urrútia, X. Bonfill.
Declaración PRISMA. Una propuesta para mejorar la publicación de revisiones sistemáticas y metaanálisis.
Med Clin (Barc), 135 (2010), pp. 507-511
[11]
S.B. Murray, E. Rieger, T. Hildebrandt, L. Karlov, J. Russell, E. Boon, et al.
A comparison of eating, exercise, shape, and weight related symptomatology in males with muscle dysmorphia and anorexia nervosa.
Body Image, 9 (2012), pp. 193-200
[12]
R. Behar, D. Molinari.
Dismorfia muscular, imagen corporal y conductas alimentarias en dos poblaciones masculinas.
Rev Med Chile, 138 (2010), pp. 1386-1394
[13]
T. Hildebrandt, D. Schlundt, J. Langenbucher, T. Chung.
Presence of muscle dysmorphia symptomology among male weightlifters.
Compr Psychiatry, 47 (2006), pp. 127-135
[14]
T. Hildebrandt, L. Alfano, J. Langenbucher.
Body image disturbance in 1000 male appearance and performance enhancing drug users.
J Psychiatr Res, 44 (2010), pp. 841-846
[15]
T. Hildebrandt, S. Harty, J. Langenbucher.
Fitness supplements as a gateway substance for anabolic-androgenic steroid use.
Psychol Addict Behav, 26 (2012), pp. 1-13
[16]
D.C. Walker, D.A. Anderson, T. Hildebrandt.
Body checking behaviors in men.
Body Image, 6 (2009), pp. 164-170
[17]
D. Litt, T. Dodge.
A longitudinal investigation of the Drive for Muscularity Scale: predicting use of performance enhancing substances and weightlifting among males.
Body Image, 5 (2008), pp. 346-351
[18]
S. Bo, R. Zoccali, V. Ponzo, L. Soldati, L. De Carli, A. Benso, et al.
University courses, eating problems and muscle dysmorphia: are there any associations.
J Transl Med, 12 (2014), pp. 221-228
[19]
B. Hale, D. Diehl, K. Weaver, M. Briggs.
Exercise dependence and muscle dysmorphia in novice and experienced female bodybuilders.
J Behav Addict, 2 (2013), pp. 244-248
[20]
K. Skemp, R. Mikat, K. Schenck, N. Kramer.
Muscle dysmorphia: risk may be influenced by goals of the weightlifter.
J Strength Cond Res, 27 (2013), pp. 2427-2432
[21]
D. Tod, G. Hall, C. Edwards.
Gender invariance and correlates of the Drive for Leanness Scale.
Body Image, 9 (2012), pp. 555-558
[22]
D.R. McCreary, D.K. Sasse.
An exploration of the drive for muscularity in adolescent boys and girls.
J Am Coll Health, 48 (2000), pp. 297-304
[23]
T. Hildebrandt, J. Langenbucher, D.G. Schlundt.
Muscularity concerns among men: development of attitudinal and perceptual measures.
Body Image, 1 (2004), pp. 169-181
[24]
D.J. Rhea, C.D. Lantz, A.E. Cornelius.
Development of the Muscle Dysmorphia Inventory (MDI).
J Sports Med Phys Fit, 44 (2004), pp. 428-435
[25]
H.G. Pope, G. Kanayama, J.I. Hudson.
Risk factors for illicit anabolic-androgenic steroid use in male weightlifters: a cross-sectional cohort study.
Biol Psychiatry, 71 (2012), pp. 254-261
[26]
B.T. Karazsia, J.H. Crowther, R. Galioto.
Undergraduate men's use of performance- and appearance-enhancing substances: an examination of the gateway hypothesis.
Psychol Men Masc, 14 (2013), pp. 129-137
[27]
T. Baghurst, C. Lirgg.
Characteristics of muscle dysmorphia in male football, weight training, and competitive natural and non-natural bodybuilding samples.
Body Image, 6 (2009), pp. 221-227
[28]
N.I. Chittester, H.A. Hausenblas.
Correlates of drive for muscularity: the role of anthropometric measures and psychological factors.
J Health Psychol, 14 (2009), pp. 872-877
[29]
G. Cafri, P. Van den Berg, J.K. Thompson.
Pursuit of muscularity in adolescent boys: relations among biopsychosocial variables and clinical outcomes.
J Clin Child Adolesc Psychol, 35 (2006), pp. 283-291
[30]
I. Hatoum, D. Belle.
Mags and abs: media consumption and bodily concerns in men.
Sex Roles, 51 (2004), pp. 397-407
[31]
A. Field, K. Sonneville, R. Crosby, S. Swanson, K. Eddy, C. Camargo, et al.
Prospective associations of concerns about physique and the development of obesity, binge drinking, and drug use among adolescent boys and young adult men.
JAMA Pediatr, 168 (2014), pp. 34-39
[32]
T. Dodge, D. Litt, A. Seitchik, S. Bennett.
Drive for muscularity and beliefs about legal performance enhancing substances as predictors of current use and willingness to use.
J Health Psychol, 13 (2008), pp. 1173-1179
[33]
B. Babusa, F. Túry.
Muscle dysmorphia in Hungarian non-competitive male bodybuilders.
Eat Weight Disord, 17 (2012), pp. 49-53
[34]
G. Kanayama, S. Barry, J.I. Hudson, H.G. Pope Jr..
Body image and attitudes toward male roles in anabolic-androgenic steroid users.
Am J Psychiatry, 163 (2006), pp. 697-703
[35]
M. Parent, B. Moradi.
His biceps become him: a test of objectification theory's application to drive for muscularity and propensity for steroid use in college men.
J Couns Psychol, 58 (2011), pp. 246-256
[36]
M.T. Suffolk, T.M. Dovey, H. Goodwinn, C. Meyer.
Muscle dysmorphia: methodological issues, implications for research.
Eat Disord, 21 (2013), pp. 437-457
[37]
C. Colls, J.L. Gómez-Urquiza, G.A. Cañadas-De la Fuente, R. Fernández-Castillo.
Uso, efectos y conocimientos de los suplementos nutricionales para el deporte en estudiantes universitarios.
Nutr Hosp, 32 (2015), pp. 837-844
[38]
A. Campana, M.C. Tavares, V. Swami, D. Da Silva.
An examination of the psychometric properties of Brazilian Portuguese translations of the Drive for Muscularity Scale, the Swansea Muscularity Attitudes Questionnaire, and the Masculine Body Ideal Distress Scale.
Psychol Men Masc, 14 (2013), pp. 376-388
[39]
C. Escoto, G. Alvarez-Rayón, J.M. Mancilla-Díaz, E.J. Camacho, K. Paredes, C.S.J. Lugo.
Psychometric properties of the Drive for Muscularity Scale in Mexican males.
Eat Weight Disord, 18 (2013), pp. 23-28
[40]
K.E. McPherson, P. McCarthy, D.R. McCreary, S. McMillan.
Psychometric evaluation of the Drive for Muscularity Scale in a community-based sample of Scottish men participating in an organized sporting event.
Body Image, 7 (2010), pp. 368-371
[41]
A.R. Sepulveda, M. Parks, Y. De Pellegrin, D. Anastasiadou, M. Blanco.
Validation of the Spanish version of the Drive for Muscularity Scale (DMS) among males: confirmatory factor analysis.
Eat Behav, 21 (2016), pp. 116-122
[42]
H.E. Joubert, S. Melluish.
Considering anabolic androgenic steroid use in relation to non-substance related diagnostic categories with special emphasis on eating disorders: a systematic review.
J Subst Use, 21 (2016), pp. 210-216
[43]
C. Edwards, D. Tod, G. Molnar.
A systematic review of the drive for muscularity research area.
Int Rev Sport Exerc Psychol, 7 (2014), pp. 18-41
[44]
S.B. Mayville, D.A. Williamson, M.A. White, R.G. Netemeyer, D.L. Drab.
Development of the Muscle Appearance Satisfaction Scale: a self-report measure for the assessment of muscle dysmorphia symptoms.
Assessment, 9 (2002), pp. 351-360

Please cite this article as: García-Rodríguez J, Alvarez-Rayón G, Camacho-Ruíz J, Amaya-Hernández A, Mancilla-Díaz JM. Dismorfia muscular y uso de sustancias ergogénicas. Una revisión sistemática. Rev Colomb Psiquiat. 2017;46:168–177.

Copyright © 2016. Asociación Colombiana de Psiquiatría
Descargar PDF
Opciones de artículo
Quizás le interese:
10.1016/j.rcpeng.2018.09.002
No mostrar más