Prevalence and correlates of excess body weight in university students

Guedes, Dartagnan Pinto; Silva, André Luís dos Santos

doi:10.1590/1980-0037.2021v23e78433

abstract –

This study aimed to identify the prevalence of excess body weight in university students from a representative state in Brazil's southern region and establish associations with the demographic, university environment, and health behavior correlates. A random sample of 5,310 university students answered an online questionnaire with demographic, university environment, and eight health behavior data. Excess body weight was identified using the body mass index (BMI ≥ 25 kg/m²). The data were processed using bivariate analysis and hierarchical multiple regression. The overall prevalence of excess body weight exposure was equivalent to 39.1% [35.7-42.6], with significantly different rates between gender, age, and marital status. Likewise, housing type and study year showed significant associations with excess body weight. Among health behavior indicators, with control of all other variables involved in the model, depressive symptoms (p = 0.031), high stress (p = 0.045), sleep duration < 6 hours/night (p < 0.001), moderate-vigorous physical activity < 150 min/week (p = 0.022) and fruit/vegetable consumption < 5 servings per day (p < 0.001) were independently associated with the outcome. However, tobacco use, binge drinking, and prescription drug misuse did not remain in the adjusted multivariate model. In conclusion, the findings emphasize the importance of proposing and implementing multifaceted preventive intervention actions to prevent health outcomes related to excess body weight, once since significant associations with modifiable factors have been identified.

Key words:
Lifestyle; Public health; Health promotion; Student health; Student health services

resumo

O objetivo do estudo foi identificar a prevalência do excesso de peso corporal em estudantes universitários de um estado representativo da região sul do Brasil e estabelecer associações com correlatos demográficos, do ambiente universitário e de condutas de saúde. Amostra aleatória de 5310 estudantes universitários respondeu questionário online com dados demográficos, do ambiente universitário e de oito condutas de saúde. O excesso de peso corporal foi identificado mediante o índice de massa corporal (IMC ≥ 25 Kg/m²). Os dados foram tratados através de análise bivariada e regressão múltipla hierarquizada. Prevalência global de exposição ao excesso de peso corporal foi equivalente a 39,1% [35,7–42,6], com taxas significativamente diferentes entre sexo, idade e situação conjugal. Da mesma forma, tipo de habitação e ano de estudo apresentaram associações significativas com o excesso de peso corporal. Entre os indicadores de conduta de saúde, com controle de todas as demais variáveis envolvidas no modelo, sintomas de depressão (p = 0,031), estresse elevado (p = 0,045), duração de sono < 6 horas/noite (p < 0,001), atividade física moderada-vigorosa < 150 min/semana (p = 0,022) e consumo de frutas/hortaliças < 5 porções/dias (p < 0,001) mostraram-se independentemente associados ao desfecho. Contudo, tabagismo, consumo nocivo de álcool e uso indevido de medicamentos controlados não permaneceram no modelo multivariado ajustado. Concluindo, os achados enfatizam a importância de propor e implementar ações de intervenção preventivas multifacetadas a fim de prevenir agravos relacionados ao excesso de peso corporal, uma vez identificada associações significativas com fatores modificáveis.

Palavras-chave:
Estilo de vida; saúde pública; promoção da saúde; saúde do estudante; serviços de saúde para universitários

introduction

The larger accumulation of body weight in the university population is one of the main challenges for public health worldwide. National surveys conducted in countries with emerging economies identified that approximately 22% of university students were overweight or obese¹1 Peltzer K, Pengpid S, Samuels TA, Özcan NK, Mantilla C, Rahamefy OH, et al. Prevalence of overweight/obesity and its associated factors among university students from 22 countries. Int J Environ Res Public Health 2014;11(7):7425-41. http://dx.doi.org/10.3390/ijerph110707425. PMid:25050651.
http://dx.doi.org/10.3390/ijerph11070742... , while the prevalence rates equivalent to excess body weight have reached rates between 30% and 45%²2 Sa J, Cho BY, Chaput JP, Chung J, Choe S, Gazmararian JA, et al. Sex and racial/ethnic differences in the prevalence of overweight and obesity among U.S. college students, 2011-2015. J Am Coll Health 2019;1-9. http://dx.doi.org/10.1080/07448481.2019.1679814. PMid:31689167.
http://dx.doi.org/10.1080/07448481.2019....

3 Plotnikoff RC, Costigan SA, Williams RL, Hutchesson MJ, Kennedy SG, Robards SL, et al. Effectiveness of interventions targeting physical activity, nutrition and healthy weight for university and college students: a systematic review and meta-analysis. Int J Behav Nutr Phys Act 2015;12(1):45. http://dx.doi.org/10.1186/s12966-015-0203-7. PMid:25890337.
http://dx.doi.org/10.1186/s12966-015-020... ^-⁴4 Whatnall MC, Patterson AJ, Brookman S, Convery P, Swan C, Pease S, et al. Lifestyle behaviors and related health risk factors in a sample of Australian university students. J Am Coll Health 2019;68(7):734-41. http://dx.doi.org/10.1080/07448481.2019.1611580. PMid:31140957.
http://dx.doi.org/10.1080/07448481.2019.... in developed countries. Specifically, in Brazil, data suggest that one in three university students is overweight⁵5 Costa LCF, Vasconcelos FAG. Prevalence and factors associated with nutritional status among female university students in Florianopolis, SC. Rev Bras Cineantropom Desempenho Hum 2013;15(3):326-37.

6 da Silva Gasparotto G, Pereira da Silva M, Miranda Medeiros Cruz R, de Campos W. Overweight and physical activity practice associated with eating behavior of Brazilian college students. Nutr Hosp 2015;32(2):616-21. PMid:26268089.^-⁷7 Sousa TF, Barbosa AR. Prevalências de excesso de peso corporal em universitários: análise de inquéritos repetidos. Rev Bras Epidemiol 2017;20(4):586-97. http://dx.doi.org/10.1590/1980-5497201700040003. PMid:29267745.
http://dx.doi.org/10.1590/1980-549720170... .

The excess body weight is recognized as a risk factor imposing immediate adverse health effects, such as high blood pressure, modified plasma lipids, altered blood glucose, insulin resistance, compromised inflammatory markers, and atherosclerosis⁸8 Guh DP, Zhang W, Bansback N, Amarsi Z, Birmingham CL, Anis AH. The incidence of co-morbidities related to obesity and overweight: a systematic review and meta-analysis. BMC Public Health 2009;9(1):88. http://dx.doi.org/10.1186/1471-2458-9-88. PMid:19320986.
http://dx.doi.org/10.1186/1471-2458-9-88... . Furthermore, its long-term persistence increases the risk of diagnosing comorbidities, including cardiovascular and respiratory diseases, diabetes, some types of cancer, musculoskeletal, neurodegenerative, and mental disorders⁹9 Dai H, Alsalhe TA, Chalghaf N, Riccò M, Bragazzi NL, Wu J. The global burden of disease attributable to high body mass index in 195 countries and territories, 1990-2017: an analysis of the Global Burden of Disease Study. PLoS Med 2020;17(7):e1003198. http://dx.doi.org/10.1371/journal.pmed.1003198. PMid:32722671.
http://dx.doi.org/10.1371/journal.pmed.1... , which causes a significant increase in the need to use medical services accompanied by a high social and economic burden to society¹⁰10 Ananthapavan J, Sacks G, Moodie M, Carter R. Economic of obesity learning from the past to contribute to a better future. Int J Environ Res Public Health 2014;11(4):4007-25. http://dx.doi.org/10.3390/ijerph110404007. PMid:24736685.
http://dx.doi.org/10.3390/ijerph11040400... .

Data available in the literature indicate that overweight is among the first five attributable burdens of premature death and is responsible for 10% of deaths occurring annually worldwide¹¹11 GBD 2019 Risk Factors Collaborators. Global burden of 87 risk factors in 204 countries and territories, 1990-2019: a systematic analysis for the Global Burden of Disease Study 2019. Lancet 2020;396(10258):1223-49. PMid:33069327.. In this context, while the outcomes associated with excess body weight are typically identified after the second half of life, they are progressive and can settle in childhood or adolescence, escalating their early adulthood deterioration¹²12 Nelson TF, Gortmaker SL, Subramanian SV, Cheung L, Wechsler H. Disparities in overweight and obesity among US college students. Am J Health Behav 2007;31(4):363-73. http://dx.doi.org/10.5993/AJHB.31.4.3. PMid:17511571.
http://dx.doi.org/10.5993/AJHB.31.4.3... .

Therefore, university students must have a particular special consideration, since the university environment can contribute decisively to a greater susceptibility of young adults to increased body weight. The transition from high school to university education is a critical period in which the achievement of autonomy for entering adult life, the feeling of freedom in decision-making, the relative distance from family surveillance, new friendships, relationships, and experiences contribute to higher exposure to obesogenic behaviors¹³13 Wengreen HJ, Moncur C. Change in diet, physical activity, and body weight among young-adults during the transition from high school to college. Nutr J 2009;8:32. http://dx.doi.org/10.1186/1475-2891-8-32. PMid:19624820.
http://dx.doi.org/10.1186/1475-2891-8-32... . However, despite the World Health Organization recognizing universities as places where prevention and control efforts should be promoted¹⁴14 WHO: World Health Organization. Obesity: Preventing and Managing the Global Epidemic. Report of a World Health Organization Consultation. Geneva: WHO; 2000. p. 256. WHO Obesity Technical Report Series, n. 284., the identification of excess body weight and the proposed intervention actions at the university level have been underestimated.

Thereby, this study aimed to identify the prevalence of excess body weight in university students from a representative state in Brazil's southern region and establish associations with the demographic, university environment and selected health behaviors’ correlates. Findings should contribute to the design and implementation of more effective interventionist actions aimed at groups with greater exposure to excess body weight and institutional policies to promote healthy lifestyles.

methods

This is a selection from the Health Promoting University Project, a cross-sectional population-based study, idealized and implemented by the Federal Technological University of Paraná (UTFPR). To illustrate the size of the addressed population universe, the UTFPR serves approximately 30 thousand university students in 105 courses spread over 13 campuses located in cities in different geographical regions of the state of Paraná, Brazil. The University’s Ethics Committee approved the study under Opinion N° 2.533.783/2018.

Sample

The sample size was established assuming an unknown prevalence of success (p = 50%), a 95% confidence level, and a sampling error of three percentage points. However, considering that the sampling planning involved a cluster, an effect of design equivalent to three was defined, and 20% was added to cater for data collection losses, resulting in 5,500 university students in the initial sample. However, the final sample was composed of 5,310 university students. The sample was achieved by random draw with a three-stage cluster, namely, campuses, course, and study year, with probability proportional to the size

Data collection

Data were collected from September to November 2018 through the online questionnaire of the Brazilian version of the National College Health Assessment II (NCHA IIc), using an electronic platform via the web, accessed through desktops, notebooks, tablets, or smartphones, at any time and place of convenience and preference of university students. Currently, NCHA IIc is widely used in international studies¹⁵15 Rahn RN, Pruitt B, Goodson P. Utilization and limitations of the American College Health Association’s National College Health Assessment instrument: a systematic review. J Am Coll Health 2016;64(3):214-37. http://dx.doi.org/10.1080/07448481.2015.1117463. PMid:26730993.
http://dx.doi.org/10.1080/07448481.2015.... whose printed format was translated and cross-culturally adapted^, and its online format validated for use by Brazilian university students¹⁶16 Guedes DP, Silva ALS. National College Health Assessment II: propriedades psicométricas e concordância dos formatos impresso e on-line. Saúde Pesqui 2020;13(1):143-56. http://dx.doi.org/10.17765/2176-9206.2020v13n1p143-156.
http://dx.doi.org/10.17765/2176-9206.202... .

In addition to demographic data (gender, age, skin color, marital status, and paid work) and the university environment (housing type, size of campuses, year and shift of study), items stratified into eight health practices were selected: depressive symptoms, stress, sleep, physical activity, fruit/vegetable consumption, tobacco use, misuse of controlled medications and alcohol abuse. The NCHA IIc questions included in the study and the answer options are shown in Table 1.

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Table 1
Questions and answer options for health behaviors used in the study.

Concerning nutritional status, body mass index (BMI) was calculated using the ratio between body mass measurements expressed in kilograms and height expressed in meters squared (kg/m²), self-reported by university students. With BMI values, excess body weight was identified from the cut-off point suggested by the World Health Organization (BMI ≥ 25 kg/m²)¹⁷17 WHO: World Health Organization. Physical status: the use and interpretation of anthropometry. Geneva: WHO; 1995..

The classroom chosen for the study was visited, and the research objectives and the principles of secrecy, non-identification in the study, and non-influence on academic performance were explained to university students in order to complete the questionnaires. Subsequently, university students were invited to participate in the study and those who initially agreed to receive guidance and an individual password to access the electronic platform, thus confirming their anonymity. Participants were instructed to access the platform and self-complete the questionnaire within seven days after the personal password was released. All participants’ rights were safeguarded by an Informed Consent Term signed electronically before the beginning of NCHA IIc online self-completion.

The criteria adopted for the exclusion of any university student belonging to the classroom selected for the study were: (a) absence from classes on the day scheduled to effect the invitation to participate in the study and distribution of an individual password to access the electronic platform; (b) refusal to participate in the study; (c) being subjected to any specific medical treatment or diet; (d) pregnancy; (e) failure to complete the questionnaire on the electronic platform within seven days; and (f) age below 18 years or above 35 years.

Statistical analysis

The data were processed with the computerized Statistical Package for the Social Sciences (SPSS®, version 24). The prevalence estimates equivalent to excess body weight and demographic data, the university environment, and health behaviors were shown in specific proportions (%), accompanied by the respective 95% confidence intervals (95% CI). To analyze the linearity of the associations between excess body weight and potential correlates the prevalence ratio calculations were used. Statistical differences between the strata under investigation were processed by the chi-square test (χ²). Subsequently, correlates with at least marginally significant associations (p ≤ 0.20) in the bivariate analysis were included in the hierarchical multiple regression procedures. In this case, the correlates were included in blocks, and demographic data (block 1) were the first to enter the model, followed by those related to the university environment (block 2) and, finally, data equivalent to health behavior (block 3), which were of primary interest in the study. Variables with statistical significance in block 1 setting were maintained in the block model 2, and the variables with statistical significance in blocks 1 and 2 were maintained in the model adjustment of the last block. the threshold of statistical significance was equivalent to p < 0.05.

results

Of the 5,500 participants initially selected for the study, 95 refused to participate or were absence from classes on the day scheduled to carry out the invitation to participate in the study, 27 were undergoing specific medical treatment or diet, and 68 did not properly complete the questionnaire on the platform electronics. Descriptive information about the sample selected in the study is available in Table 2.

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Table 2
Descriptive information of the selected study sample (n = 5,310).

Approximately one-third of the sample consisted of women (38.2%), 39.1% were aged between 21 and 25 years, 61.5% self-reported white, and 78.2% were single. Besides the studies, 23.1% of the university students analyzed reported part-time paid work and 39.6% full-time paid work. Regarding data from the academic environment, 24.2% lived in student residence, and 52.8% with their families, 21% of university students were from smaller campuses (< 1500 students) and 37.7% from larger campuses size (≥ 3,000 students), 63.3% attended daytime classes, while the study years were distributed similarly, that is, 32.1% in the first study year and 31.5% in the last years.

Concerning health behavior, one-fourth of university students (25.1%) reported depressive symptoms, and 38.6% reported above average or high stress. Most (56.4%) showed insufficient sleep, while 75.9% and 87% of university students reported physical inactivity and inadequate fruit/vegetable consumption. Concerning substance use, 15.1% admitted having used tobacco in the last 30 days and 13.5% controlled drugs without a prescription in the last year. One in each group of three university students (35.4%) had alcohol abuse in the last two weeks (Table 2).

Overall, 39.1% [35.7 – 42.6] of university students were excess body weight. Estimates of the prevalence of excess body weight with stratification for each demographic, university environment, and health behavior correlate are described in Table 3. The bivariate analysis evidenced that prevalence varied substantially between strata. The list of potential demographic and university environment correlates, skin color, campus size, and study shift were not statistically identified. The eight health behaviors considered in the study were individually associated with the prevalence of excess body weight among university students (p < 0.20).

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Table 3
Prevalence (95% CI) of excess body weight with stratification for demographic, university environment, and health behavior correlates of university students.

Results of the hierarchical multiple regression are available in Table 4. In the case of demographic correlates, after adjusting for the other variables included in the model, the final model showed significant associations between excess body weight and gender, age, and marital status. Data stratified by the university environment's correlates showed that university students who live far from their families and have studied for four or more years at the university showed a significantly higher probability of excess body weight. By controlling all other independent variables involved in the model, we identified that the only health behavior considered in the study not significantly associated with excess body weight were tobacco use, prescription drug misuse, and binge drinking.

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Table 4
Summary of hierarchical multiple logistic regression for demographic (block 1), university environment (block 2) and health behavior (block 3) correlates associated with university students' excess body weight.

discussion

The study showed excess body weight trends in a regionally representative sample of Brazilian university students. Also, we examined associations between the outcome and demographic, university environment, and selected health behavior correlates. Although other Brazilian studies have already investigated the excess body weight of university students in particular⁵5 Costa LCF, Vasconcelos FAG. Prevalence and factors associated with nutritional status among female university students in Florianopolis, SC. Rev Bras Cineantropom Desempenho Hum 2013;15(3):326-37.

6 da Silva Gasparotto G, Pereira da Silva M, Miranda Medeiros Cruz R, de Campos W. Overweight and physical activity practice associated with eating behavior of Brazilian college students. Nutr Hosp 2015;32(2):616-21. PMid:26268089.^-⁷7 Sousa TF, Barbosa AR. Prevalências de excesso de peso corporal em universitários: análise de inquéritos repetidos. Rev Bras Epidemiol 2017;20(4):586-97. http://dx.doi.org/10.1590/1980-5497201700040003. PMid:29267745.
http://dx.doi.org/10.1590/1980-549720170... , to the best of our knowledge, this is the first study examining the correlates through hierarchical multiple regression procedures, which allows minimizing the influence of confounding factors. Internationally, the study is also one of the few to consider variations in associations' nature in a specific context.

Based on values equivalent to BMI, the findings showed that 39.1% of university students were excess body weight. According to the most recent National Health Survey, 33.7% of the Brazilian population between 18 and 24 was reportedly overweight¹⁸18 IBGE: Instituto Brasileiros de Geografia e Estatística. Pesquisa Nacional de Saúde – 2019. Atenção Primária à Saúde e Informações Antropométricas. Coordenação de Trabalho e Rendimento. Rio de Janeiro: IBGE; 2020.. The prevalence rate identified in university students higher than observed in the general population of the same age is consistent with previous studies²2 Sa J, Cho BY, Chaput JP, Chung J, Choe S, Gazmararian JA, et al. Sex and racial/ethnic differences in the prevalence of overweight and obesity among U.S. college students, 2011-2015. J Am Coll Health 2019;1-9. http://dx.doi.org/10.1080/07448481.2019.1679814. PMid:31689167.
http://dx.doi.org/10.1080/07448481.2019....

3 Plotnikoff RC, Costigan SA, Williams RL, Hutchesson MJ, Kennedy SG, Robards SL, et al. Effectiveness of interventions targeting physical activity, nutrition and healthy weight for university and college students: a systematic review and meta-analysis. Int J Behav Nutr Phys Act 2015;12(1):45. http://dx.doi.org/10.1186/s12966-015-0203-7. PMid:25890337.
http://dx.doi.org/10.1186/s12966-015-020... ^-⁴4 Whatnall MC, Patterson AJ, Brookman S, Convery P, Swan C, Pease S, et al. Lifestyle behaviors and related health risk factors in a sample of Australian university students. J Am Coll Health 2019;68(7):734-41. http://dx.doi.org/10.1080/07448481.2019.1611580. PMid:31140957.
http://dx.doi.org/10.1080/07448481.2019.... . Compared to data collected in other countries, it appears that the prevalence identified in the current study was approximately four times higher than that found in university students in China (9.5%)¹⁹19 Yang T, Yu L, Barnett R, Jiang S, Peng S, Fan Y, et al. Contextual influences affecting patterns of overweight and obesity among university students: a 50 universities population-based study in China. Int J Health Geogr 2017;16(1):18. http://dx.doi.org/10.1186/s12942-017-0092-x. PMid:28482842.
http://dx.doi.org/10.1186/s12942-017-009... ; however, it was similar to that reported in the U.S.²2 Sa J, Cho BY, Chaput JP, Chung J, Choe S, Gazmararian JA, et al. Sex and racial/ethnic differences in the prevalence of overweight and obesity among U.S. college students, 2011-2015. J Am Coll Health 2019;1-9. http://dx.doi.org/10.1080/07448481.2019.1679814. PMid:31689167.
http://dx.doi.org/10.1080/07448481.2019.... , Australia⁴4 Whatnall MC, Patterson AJ, Brookman S, Convery P, Swan C, Pease S, et al. Lifestyle behaviors and related health risk factors in a sample of Australian university students. J Am Coll Health 2019;68(7):734-41. http://dx.doi.org/10.1080/07448481.2019.1611580. PMid:31140957.
http://dx.doi.org/10.1080/07448481.2019.... and some European countries³3 Plotnikoff RC, Costigan SA, Williams RL, Hutchesson MJ, Kennedy SG, Robards SL, et al. Effectiveness of interventions targeting physical activity, nutrition and healthy weight for university and college students: a systematic review and meta-analysis. Int J Behav Nutr Phys Act 2015;12(1):45. http://dx.doi.org/10.1186/s12966-015-0203-7. PMid:25890337.
http://dx.doi.org/10.1186/s12966-015-020... . A multicenter study showed an overall prevalence of 22%¹1 Peltzer K, Pengpid S, Samuels TA, Özcan NK, Mantilla C, Rahamefy OH, et al. Prevalence of overweight/obesity and its associated factors among university students from 22 countries. Int J Environ Res Public Health 2014;11(7):7425-41. http://dx.doi.org/10.3390/ijerph110707425. PMid:25050651.
http://dx.doi.org/10.3390/ijerph11070742... in Latin American and African university students. Specifically, in Brazil, available data have shown prevalence rates close to 28%⁵5 Costa LCF, Vasconcelos FAG. Prevalence and factors associated with nutritional status among female university students in Florianopolis, SC. Rev Bras Cineantropom Desempenho Hum 2013;15(3):326-37.

6 da Silva Gasparotto G, Pereira da Silva M, Miranda Medeiros Cruz R, de Campos W. Overweight and physical activity practice associated with eating behavior of Brazilian college students. Nutr Hosp 2015;32(2):616-21. PMid:26268089.^-⁷7 Sousa TF, Barbosa AR. Prevalências de excesso de peso corporal em universitários: análise de inquéritos repetidos. Rev Bras Epidemiol 2017;20(4):586-97. http://dx.doi.org/10.1590/1980-5497201700040003. PMid:29267745.
http://dx.doi.org/10.1590/1980-549720170... .

In this context, finding that more than one-third of the university students selected in the study were overweight is a significant concern with notable public health implications. As previous studies suggest³3 Plotnikoff RC, Costigan SA, Williams RL, Hutchesson MJ, Kennedy SG, Robards SL, et al. Effectiveness of interventions targeting physical activity, nutrition and healthy weight for university and college students: a systematic review and meta-analysis. Int J Behav Nutr Phys Act 2015;12(1):45. http://dx.doi.org/10.1186/s12966-015-0203-7. PMid:25890337.
http://dx.doi.org/10.1186/s12966-015-020... , monitoring body weight in the university environment is essential to containing the obesity epidemic in current society, considering that overweight in early adulthood is a significant predictor of progression to more severe degrees of overweight or obesity in more advanced life stages¹²12 Nelson TF, Gortmaker SL, Subramanian SV, Cheung L, Wechsler H. Disparities in overweight and obesity among US college students. Am J Health Behav 2007;31(4):363-73. http://dx.doi.org/10.5993/AJHB.31.4.3. PMid:17511571.
http://dx.doi.org/10.5993/AJHB.31.4.3... . Evidence has shown that girls and boys with overweight in their late teens are 70% to 80% more likely to become obese in later adulthood²⁰20 Gordon-Larsen P, Adair LS, Nelson MC, Popkin BM. Five-year obesity incidence in the transition period between adolescence and adulthood: The National Longitudinal Study of Adolescent Health. Am J Clin Nutr 2004;80(3):569-75. PMid:15321794..

Regarding the associations between excess body weight and demographic correlates, similar to what was found in previous studies¹1 Peltzer K, Pengpid S, Samuels TA, Özcan NK, Mantilla C, Rahamefy OH, et al. Prevalence of overweight/obesity and its associated factors among university students from 22 countries. Int J Environ Res Public Health 2014;11(7):7425-41. http://dx.doi.org/10.3390/ijerph110707425. PMid:25050651.
http://dx.doi.org/10.3390/ijerph11070742...

2 Sa J, Cho BY, Chaput JP, Chung J, Choe S, Gazmararian JA, et al. Sex and racial/ethnic differences in the prevalence of overweight and obesity among U.S. college students, 2011-2015. J Am Coll Health 2019;1-9. http://dx.doi.org/10.1080/07448481.2019.1679814. PMid:31689167.
http://dx.doi.org/10.1080/07448481.2019....

3 Plotnikoff RC, Costigan SA, Williams RL, Hutchesson MJ, Kennedy SG, Robards SL, et al. Effectiveness of interventions targeting physical activity, nutrition and healthy weight for university and college students: a systematic review and meta-analysis. Int J Behav Nutr Phys Act 2015;12(1):45. http://dx.doi.org/10.1186/s12966-015-0203-7. PMid:25890337.
http://dx.doi.org/10.1186/s12966-015-020...

4 Whatnall MC, Patterson AJ, Brookman S, Convery P, Swan C, Pease S, et al. Lifestyle behaviors and related health risk factors in a sample of Australian university students. J Am Coll Health 2019;68(7):734-41. http://dx.doi.org/10.1080/07448481.2019.1611580. PMid:31140957.
http://dx.doi.org/10.1080/07448481.2019....

5 Costa LCF, Vasconcelos FAG. Prevalence and factors associated with nutritional status among female university students in Florianopolis, SC. Rev Bras Cineantropom Desempenho Hum 2013;15(3):326-37.

6 da Silva Gasparotto G, Pereira da Silva M, Miranda Medeiros Cruz R, de Campos W. Overweight and physical activity practice associated with eating behavior of Brazilian college students. Nutr Hosp 2015;32(2):616-21. PMid:26268089.^-⁷7 Sousa TF, Barbosa AR. Prevalências de excesso de peso corporal em universitários: análise de inquéritos repetidos. Rev Bras Epidemiol 2017;20(4):586-97. http://dx.doi.org/10.1590/1980-5497201700040003. PMid:29267745.
http://dx.doi.org/10.1590/1980-549720170... , the prevalence rates of excess body weight were higher in men and older university students, especially in those aged ≥ 26 years. University students who reported being married also showed a greater propensity to excess body weight, which confirms the hypothesis that men and women tend to be more exposed to environmental factors and social support that favor more significant body weight accumulation after marriage²¹21 Janghorbani M, Amini M, Rezvanian H, Gouya MM, Delavari A, Alikhani S, et al. Association of body mass index and abdominal obesity with marital status in adults. Arch Iran Med 2008;11(3):274-81. PMid:18426318.. Initially, paid work was a possible correlate of excess body weight (bivariate analysis); however, the association did not remain significant when processed in the multivariate model by adjusting for confounding variables. The lack of association with skin color is not an unexpected finding. Previous studies have also observed similar prevalence rates of excess body weight in white and black university students²2 Sa J, Cho BY, Chaput JP, Chung J, Choe S, Gazmararian JA, et al. Sex and racial/ethnic differences in the prevalence of overweight and obesity among U.S. college students, 2011-2015. J Am Coll Health 2019;1-9. http://dx.doi.org/10.1080/07448481.2019.1679814. PMid:31689167.
http://dx.doi.org/10.1080/07448481.2019.... .

Data stratified by the university environment's correlates showed that housing type and study year were also important mediators for excess body weight. University students who reported living with their families showed less risk of exposure to overweight than their peers who lived far from the family. In this sense, a previous study on the impact of the perceived family style on obesogenic habits revealed that few university students maintained the same habits before entering university and started to live far from the family. Most of them reported that they started to adopt more compromising habits²²22 Barnes S, Brown K, McDermott R, Bryant CA, Kromrey J. Perceived parenting style and the eating practices of college freshmen. Am J Health Educ 2012;43(1):8-17. http://dx.doi.org/10.1080/19325037.2012.10599213.
http://dx.doi.org/10.1080/19325037.2012.... to face the new routine and study environment. The highest prevalence rates with advancing study years are consistent with previous studies²2 Sa J, Cho BY, Chaput JP, Chung J, Choe S, Gazmararian JA, et al. Sex and racial/ethnic differences in the prevalence of overweight and obesity among U.S. college students, 2011-2015. J Am Coll Health 2019;1-9. http://dx.doi.org/10.1080/07448481.2019.1679814. PMid:31689167.
http://dx.doi.org/10.1080/07448481.2019.... ^-³3 Plotnikoff RC, Costigan SA, Williams RL, Hutchesson MJ, Kennedy SG, Robards SL, et al. Effectiveness of interventions targeting physical activity, nutrition and healthy weight for university and college students: a systematic review and meta-analysis. Int J Behav Nutr Phys Act 2015;12(1):45. http://dx.doi.org/10.1186/s12966-015-0203-7. PMid:25890337.
http://dx.doi.org/10.1186/s12966-015-020... . They may result from the progressive adaptation and integration of students to the university context that does not favor policies and actions to maintain healthy body weight.

Regardless of the simultaneous participation of demographic correlates and the university environment, several health behaviors considered in the study were associated with excess body weight. However, it is noteworthy that, while tobacco use, binge drinking, and prescription drug misuse were associated with excess body weight in the bivariate analysis, these health behaviors did not remain in the adjusted multivariate model. The finding that tobacco use and binge drinking did not affect excess body weight predisposition is consistent with previous findings²³23 Dare S, Mackay DF, Pell JP. Relationship between smoking and obesity: a cross-sectional study of 499,504 middle-aged adults in the UK general population. PLoS One 2015;10(4):e0123579. http://dx.doi.org/10.1371/journal.pone.0123579. PMid:25886648.
http://dx.doi.org/10.1371/journal.pone.0... ^,²⁴24 Traversy G, Chaput JP. Alcohol consumption and obesity: an update. Curr Obes Rep 2015;4(1):122-30. http://dx.doi.org/10.1007/s13679-014-0129-4. PMid:25741455.
http://dx.doi.org/10.1007/s13679-014-012... . However, as far as is known, an eventual attempt at an association between prescription drug misuse and excess body weight in university students has not yet been identified in the literature.

On the other hand, it was identified that reports of depressive symptoms and a higher perception of stress enhanced university students’ exposure to overweight, which coincides with previous findings²⁵25 Rajan TM, Menon V. Psychiatric disorders and obesity: a review of association studies. J Postgrad Med 2017;63(3):182-90. http://dx.doi.org/10.4103/jpgm.JPGM_712_16. PMid:28695871.
http://dx.doi.org/10.4103/jpgm.JPGM_712_... . In this regard, there are potential behavioral and physiological mechanisms by which excess body weight can contribute to compromised mental health. The social stigma associated with accumulated weight gain can harm body image, self-esteem, and social interactions, supporting the onset of depressive symptoms. Also, there may be physiological factors common to depression and excess body weight, including higher serotonin levels in the central nervous system and biochemical changes in the pituitary-adrenal axis, which increase the risk of developing both conditions²⁵25 Rajan TM, Menon V. Psychiatric disorders and obesity: a review of association studies. J Postgrad Med 2017;63(3):182-90. http://dx.doi.org/10.4103/jpgm.JPGM_712_16. PMid:28695871.
http://dx.doi.org/10.4103/jpgm.JPGM_712_... . Furthermore, higher levels of chronic stress can alter the adrenal hypothalamic-pituitary axis activity, increasing cortisol secretion, which, in turn, stimulates the consumption of high-energy-density, sugar- and fat-rich foods, governed by neuroendocrine adaptations predisposing for body weight gain²⁶26 Tomiyama AJ. Stress and obesity. Annu Rev Psychol 2019;70(1):703-18. http://dx.doi.org/10.1146/annurev-psych-010418-102936. PMid:29927688.
http://dx.doi.org/10.1146/annurev-psych-... .

Our findings are in line with evidence that suggests a higher risk of excess body weight for a habitual sleep time of fewer than six hours a night. Sleep is an important neuroendocrine function modulator, including decreased glucose tolerance and insulin sensitivity, increased nighttime concentrations of ghrelin levels, and reduced leptin levels, which increases the perception of hunger and, consequently, food intake²⁷27 Beccuti G, Pannain S. Sleep and obesity. Curr Opin Clin Nutr Metab Care 2011;14(4):402-12. http://dx.doi.org/10.1097/MCO.0b013e3283479109. PMid:21659802.
http://dx.doi.org/10.1097/MCO.0b013e3283... . Concerning physical activity, the multivariate model showed that the likelihood of university students who reported being less active to be excess body weight was significantly higher than their more active peers. This finding corroborates previous studies’ results and points to physical activity as an essential component to control body weight²⁸28 Dankel SJ, Loenneke JP, Loprinzi PD. Health outcomes in relation to physical activity status, overweight/obesity, and history of overweight/Obesity: a review of the WATCH paradigm. Sports Med 2017;47(6):1029-34. http://dx.doi.org/10.1007/s40279-016-0641-7. PMid:27807719.
http://dx.doi.org/10.1007/s40279-016-064... .

Another health behavior associated with excess body weight was the fruits/vegetables consumption. In this case, university students who reported lower consumption had higher exposure to excess body weight. The fruits/vegetables consumption at an appropriate frequency influences excess body weight prevention through a specific effect on the higher proportion of complex carbohydrates and insoluble fibers found in plant-derived foods, causing an increase in satiety and a reduced caloric intake of food consumption²⁹29 Kalmpourtzidou A, Eilander A, Talsma EF. Global vegetable intake and supply compared to recommendations: a systematic review. Nutrients 2020;12(6):1558. http://dx.doi.org/10.3390/nu12061558. PMid:32471188.
http://dx.doi.org/10.3390/nu12061558... .

While this study provides a broad view of the demographic, university environment, and health behavior correlates associated with university students' excess body weight exposure, some limitations require consideration. Immediately, the cross-sectional approach of the data increases the risk of reverse causality bias in the association between correlates and excess body weight. Also, although several potential confounding factors have been controlled, other factors not considered can affect associations. Artificial groups may have arisen due to the dichotomization of health behaviors. Still, although at first the use of self-reported measures of height and body weight to calculate BMI can be seen as a possible limitation, the evidence available in previous studies has shown the possibility of using this procedure with acceptable validity in epidemiological survey with university students³⁰30 Sousa TF, Barbosa AR. Validade das medidas referidas de massa corporal e estatura em universitários. ABCS Health Sci 2016;41(2):71-7. http://dx.doi.org/10.7322/abcshs.v41i2.872.
http://dx.doi.org/10.7322/abcshs.v41i2.8... .

Despite its limitations, the study has important strengths. The main ones are related to the conception, design, and conduction of the Health Promoting University project. The project serves a vast cultural and geographic diversity. It provides robust and updated data on the epidemiology of university students' exposure to excess body weight in a state representative of Brazil's southern region, which allows the generalization of its results to a larger population universe. Its findings may add new evidence to the scarce body of knowledge, considering that studies on the subject involving Brazilian university students and other world regions are rare. As this population consists of young adults, it is essential to identify excess body weight early and invest in preventing its progression.

In conclusion, the prevalence rate of excess body weight identified in the study was similar to the higher rates found in university populations in other world regions. Specific correlates related to demographic, university environment, and health behavior characteristics were associated with excess body weight. The findings emphasize the importance of proposing and implementing preventive intervention actions in order to prevent harm related to excess body weight, since associations between modifiable factors and the prevalence of the outcome have been identified. In this scenario, it is believe that interventionist actions should be guided in a multifaceted perspective for health promotion and education in the university context.

How to cite this articleGuedes DP, Silva ALS. Prevalence and correlates of excess body weight in university students. Rev Bras Cineantropom Desempenho Hum 2021, 23:e78433. DOI: http://doi.org/10.1590/1980-0037.2021v23e78433
Funding This research received no external funding. D.P.G is a Research Productivity Fellow at Brazilian National Board for Scientific and Technological Development – CNPq.

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» http://dx.doi.org/10.7322/abcshs.v41i2.872

Publication Dates

Publication in this collection
21 June 2021
Date of issue
2021

History

Received
24 Nov 2020
Accepted
23 Mar 2021

This work is licensed under a Creative Commons Attribution 4.0 International License.Prevalence and correlates of excess body weight in university students

[1] How to cite this articleGuedes DP, Silva ALS. Prevalence and correlates of excess body weight in university students. Rev Bras Cineantropom Desempenho Hum 2021, 23:e78433. DOI: http://doi.org/10.1590/1980-0037.2021v23e78433

[2] Funding This research received no external funding. D.P.G is a Research Productivity Fellow at Brazilian National Board for Scientific and Technological Development – CNPq.

Questions	Answer options
Depressive Symptoms
Have you ever felt so depressed that it was difficult to function?	“No, never”, “No, not in last 12 months”, Yes, in the last 2 weeks”, Yes, in the last 30 days”, “Yes, in the last 12 months”.
Stress
In the last 12 months, how would you rate the overall level of stress you have experienced?	“No stress”, “Less than average stress”, “Average stress”, “More than average stress”, “Tremendous stress”.
Sleep
On how many of the past seven nights did you get enough sleep so that you felt rested when you woke up in the morning?	“None”, “1 night”, “2 nights”, “3 nights”, “4 nights”, “5 nights”, “6 nights” and “7 nights”.
Physical activity
On how many of the past 7 days did you do moderate-vigorous-intensity cardio or aerobic exercise (caused a noticeable or large increase in breathing or heart rate, such as a brisk walk or jogging) for at least 30 minutes?	“None”, “1 day”, “2 days”, “3 days”, “4 days”, “5 days”, “6 days” and “daily”.
Fruit/vegetable consumption
How many servings of fruits and vegetables do you usually have per day? (1 serving = medium piece of fruit; ½ cup fresh, frozen, or canned fruits/vegetables; ¾ cup fruit/vegetable juice; 1 cup salad greens; or ¼ cup dried fruit).	“None”, “1-2 servings per day”, “3-4 servings per day, “≥ 5 servings per day”.
Tobacco use
In the last 30 days, on how many days did you use tobacco and tobacco products (for example, cigarettes, e-cigarettes, hookah, cigarillo, little cigars, clove cigarettes, or smokeless tobacco)?	“None”, “1-2 days”, “3-5 days”, “6-9 days”, “10-19 days”, “20-29 days” and “Used daily”.
Binge drinking
Over the last two weeks, how many times have you had five or more drinks of alcohol at a sitting?	“None”, “1 time”, “2 times”, “3 times”, “4 times”, “5 times”, and “6 or more times”.
Prescription drug misuse
In the last 12 months, have you taken any of the following prescription drugs that were not prescribed to you (antidepressants, erectile dysfunction drugs, pain killers, sedatives, or stimulants)?	“No” and “Yes”.

Indicators	n (%)	Indicators	n (%)
Demographic data		University environment data
Gender		Housing type
Female	2,029 (38.2%)	Students’ residence	1,285 (24.2%)
Male	3,281 (61.8%)	Parents’ home	2,804 (52.8%)
Age		Homestay	1,094 (20.6%)
≤ 20 years	1,543 (29.1%)	Alone	127 (2.4%)
21-25 years	2,078 (39.1%)	Campus size
≥ 26 years	1,689 (31.8%)	< 1,500 students	1,113 (21,0%)
Skin color		1,500 – 3,000 students	2,195 (41.3%)
White	3,266 (61.5%)	> 3,000 students	2,002 (37.7%)
Black	2,044 (38.5%)	Year of study
Marital status		1^st	1,714 (32.1%)
Single	4,152 (78.2%)	2^nd-3^rd	1,933 (36.4%)
Married/Common law marriage	1,158 (21.8%)	4^th or more	1,673 (31.5%)
Paid work		Study shift
No work	1,980 (37.3%)	Day	3,362 (63.3%)
Part time	1,227 (23.1%)	Night	1,948 (36.7%)
Full time	2,103 (39.6%)
Health behavior data
Depression (last 12 months)		Fruit and vegetable consumption
Never or not in the last 12 months	3,978 (74.9%)	≥ 5 servings per day	690 (13.0%)
Yes	1,332 (25.1%)	0–4 servings per day	4,620 (87.0%)
Stress (last 12 months)		Tobacco use
None, less than average, or average	3,260 (61.4%)	Never used or not used in the last 30 days	4,508 (84.9%)
More than average or tremendous	2,050 (38.6%)	Used 1-2 times/day to used daily	802 (15.1%)
Enough sleep (past 7 nights)		Prescription drug misuse (last 12 months)
≥ 4 nights	2,315 (43.6%)	No	4,593 (86.5%)
0–3 nights	2,995 (56.4%)	Yes	717 (13.5%)
Physical activity		Binge drinking (last 2 weeks)
≥ 5 days/week	1,280 (24,1%)	No	3,430 (64.6%)
0–4 days/week	4,030 (75,9%)	Yes	1,880 (35.4%)

Indicators	% (95% CI)	Indicators	% (95% CI)
Demographic data		University environment data
Gender	χ² = 23.726; p < 0.001	Housing type	χ² = 10.158; p < 0.001
Female	25.2 (22.4 – 28.1)	Students’ residence	45.3 (41.4 – 49.3)
Male	47.6 (43.5 – 51.8)	Parents’ home	34.9 (31.8 – 38.0)
Age	χ² = 10.827; p < 0.001	Homestay	42.2 (38.5 – 46.1)
≤ 20 years	34.7 (31.6 – 37.9)	Alone	42.9 (39.1 – 46.9)
21-25 years	37.5 (34.2 – 40.8)	Campus size	χ² = 2.083; p = 0.217
≥ 26 years	45.1 (41.2 – 49.1)	< 1,500 students	37.1 (33.9 – 40.4)
Skin color	χ² = 1.924; p = 0.235	1,500 – 3,000 students	38.9 (35.5 – 42.4)
White	38.2 (34.9 – 41.6)	> 3,000 students	40.5 (36.9 – 44.2)
Black	40.5 (36.9 – 44.2)	Year of study	χ² = 11.429; p < 0.001
Marital status	χ² = 11.682; p < 0.001	1^st	34.2 (31.2 – 37.3)
Single	36.8 (33.6 – 40.1)	2^nd-3^rd	38.7 (35.3 – 42.2)
Married/Common law marriage	47.3 (43.3 – 51.5)	4^th or more	44.4 (40.6 – 48.3)
Work for pay	χ² = 8.836; p = 0.025	Study shift	χ² = 2.395; p = 0.209
No work	35.0 (31.9 – 38.2)	Day	37.7 (34.4 – 41.1)
Part time	39.4 (36.0 – 42.9)	Night	41.6 (37.9 – 45.4)
Full time	42.8 (39.0 – 46.7)
Health behavior data
Depression	χ² = 9.262; p = 0.024	Fruit and vegetable consumption	χ² = 11.047; p < 0.001
Never or not in last 12 months	37.1 (33.9 – 40.4)	≥ 5 servings per day	30.5 (27.6 – 33.6)
Yes	45.2 (41.3 – 49.3)	0–4 servings per day	40.4 (36.9 – 44.1)
Stress	χ² = 6.873; p = 0.049	Tobacco use	χ² = 5,174; p = 0.071
None, less than average	36.5 (33.3 – 39.80	Not used in last 30 days	38.4 (35.1 – 41.8)
More than average	43.2 (39.4 – 47.2)	Used 1-2 times/day to used daily	43.1 (39.3 – 47.0)
Enough sleep	χ² = 11.836; p < 0.001	Prescription drug misuse	χ² = 5.672; p = 0.064
≥ 4 nights	33.8 (30.8 – 36.9)	No	39.0 (35.6 – 42.5)
0–3 nights	44.1 (40.3 – 48.1)	Yes	43.8 (40.0 – 47.8)
Physical activity	χ² = 8.493; p = 0.031	Binge drinking	χ² = 3.638; p = 0.128
≥ 5 days/week	33.4 (30.4 – 36.6)	No	37.8 (34.5 – 41.2)
0–4 days/week	40.9 (37.3 – 44.7)	Yes	41.5 (37.8 – 45.4)

Correlates	OR _Adjusted (CI_95%) ^a a Odds ratio adjusted for the other variables included in the model.	p-value
Block 1 - Demographic data
Gender
Female	Reference
Male	2.19 (1.52 – 3.68)	< 0.001
Age
≤ 20 years	Reference
21-25 years	1.24 (0.86 – 2.12)	0.106
≥ 26 years	1.81 (1.28 – 2.93)	0.003
Marital status
Single	Reference
Married/Common law marriage	1.87 (1.33 – 3.07)	0.001
Block 2 - University environment data
Housing type
Students’ residence	1.74 (1.22 – 2.91)	0.009
Parents’ home	Reference
Homestay	1.58 (1.08 – 2.69)	0.025
Alone	1.52 (1.03 – 2.84)	0.038
Year of study
1^st	Reference
2^nd-3^rd	1.23 (0.86 – 2.11)	0.110
4^th or more	1.64 (1.13 – 2.79)	0.019
Block 3 - Health behavior data
Depression
Never or not in last 12 months	Reference
Yes	1.53 (1.06 – 2.71)	0.031
Stress
None, less than average	Reference
More than average	1.48 (1.02 – 2.64)	0.045
Enough sleep
≥ 4 nights	Reference
0–3 nights	1.94 (1.35 – 3.27)	< 0.001
Physical activity
≥ 5 days/week	Reference
0–4 days/week	1.59 (1.11 – 2.71)	0.022
Fruit and vegetable consumption
≥ 5 servings per day	Reference
0–4 servings per day	2.08 (1.46 – 3.57)	< 0.001

Brasil

Brasil

Prevalence and correlates of excess body weight in university students

Prevalência e correlatos do excesso de peso corporal em estudantes universitários

abstract –

resumo

introduction

methods

Sample

Data collection

Statistical analysis

results

discussion

references

Publication Dates

History