The traditional Mediterranean food pattern rich in plant foods and low in saturated fat has been associated with increased longevity and lower rates of chronic disease and cardiovascular risk factors(Reference Trichopoulou, Costacou and Bamia1–Reference Estruch, Martinez-Gonzalez and Corella4). This dietary pattern is mostly preserved when meals are eaten at home. The nutritional quality of foods consumed away from home is considerably poorer than the food eaten at home(Reference Lin and Frazao5). A Spanish study found that fast-food consumption was inversely associated with compliance with dietary reference intake guidelines. In addition, participants with the highest frequency (more than once per week) of eating a product from a fast-food outlet showed the lowest adherence to a traditional Mediterranean score(Reference Schröder, Fito and Covas6).
Socio-economic changes, such as an increased female involvement in the labour force, the adoption of longer work hours, an increase in commute time and the subsequent scarcity of time, have contributed to an increase in food consumption away from home(Reference Gutierrez-Fisac, Royo-Bordonada and Rodriguez-Artalejo7, 8). Moreover, this increasing trend is very likely to continue growing in subsequent years. According to Euromonitor International, Spain is the largest consumer food-service market in the European Union in terms of value sales and has one of the highest numbers of outlets per capita in the world(Reference Becker9). In addition, the largest growth in food service in Southern Europe during 2000–5 was for fast-food restaurants(Reference Becker9).
Nowadays, obesity could be considered as one of the greatest pandemics in the world, including the Mediterranean countries(Reference Groves10). Because of the excessive portion size of energy-dense foods in meals served in restaurants, it has been hypothesized that eating away from home may lead to a positive energy balance and thereby might be contributing to the current obesity pandemic(Reference Kral, Roe and Rolls11).
Studies on the association between away-from-home eating and obesity have only been performed during the last few years and most of these studies have been conducted in the USA. As a consequence, little is known about the role of eating away from home on the growing obesity epidemic in Mediterranean countries. Nevertheless, a recent cross-sectional study(Reference Marin-Guerrero, Gutierrez-Fisac and Guallar-Castillon12) of a representative non-institutionalized Spanish population found no association between having one or more of the main meals away from home and obesity, suggesting that differences in the type of restaurants might explain this null association. No previous longitudinal study has evaluated this hypothesis in Mediterranean areas.
Our objective was to assess prospectively the association between away-from-home eating and the risk of weight gain (or becoming overweight/obese) in a Mediterranean cohort of university graduates.
Methods
Study population
The SUN Project (Seguimiento Universidad de Navarra, University of Navarra Follow-up) is a prospective cohort study designed to establish associations between diet and the occurrence of several disease and chronic conditions including obesity. Information is collected through self-administered questionnaires sent by mail every 2 years. A detailed description of the study methods has been published elsewhere(Reference Segui-Gomez, de la Fuente and Vazquez13).
The recruitment of participants, all of whom are university graduates, started in December 1999 and is permanently open, because this study was designed to be a dynamic cohort. In October 2007, the data set of the SUN Project included 18 494 participants. All participants who completed a baseline assessment before October 2004 were eligible for the analyses (n 14 106). Among them, 733 did not answer the 2-year follow-up questionnaire after five mailings. We retained 13 373 who successfully completed a follow-up questionnaire (94·8 % 2-year retention rate). Following the recommendations for conducting analyses in nutritional epidemiology(Reference Willett14), participants who reported extreme (low or high) values for total energy intake (<3349 kJ/d (<800 kcal/d) for men, <2093 kJ/d (<500 kcal/d) for women or >16 747 kJ/d (>4000 kcal/d) for men, >14 659 kJ/d (>3500 kcal/d) for women; n 1301) were excluded. Participants who reported a diagnosis of CVD, diabetes or cancer at baseline or during follow-up were also excluded (n 1085), as were female participants who were pregnant at baseline or during follow-up (n 333). Participants with biologically implausible values for weight (>170 kg) or with missing values in variables of interest were also excluded. Finally, data from 9182 participants were available for the analyses. Of these, 36 % of the population was followed up for an average of 6 years, 31 % for an average of 4 years and 33 % of the sample had on average 2 years of follow-up. Those participants excluded showed similar eating-out frequency and body-weight change (P = 0·15 and P = 0·45, respectively) to those included in the analysis.
The study was approved by the Institutional Review Board at the University of Navarra. Informed consent was implied by the voluntary completion of the baseline questionnaire.
Assessment of diet and definition of eating away-from-home meals
Dietary habits were assessed through a baseline semi-quantitative FFQ that had been validated in Spain(Reference Martin-Moreno, Boyle and Gorgojo15).
The questionnaire was based on typical portion sizes and had nine options for the average frequency of consumption in the previous year of 136 food items (ranging from ‘never/almost never’ to ‘at least six times per day’).
The FFQ included the following question: ‘With which frequency do you have meals away from home?’ with nine possible options ranging from ‘never/almost never’ to at ‘least six times per day’. According to the distribution of the answers to this question and based on categories previously used in other studies, we classified the participants into three groups according to their frequency of eating out: (i) never/almost never to 1–3 times per month; (ii) 1 time per week; and (iii) 2 or more times per week.
Nutrient intake scores were computed using an ad hoc computer program. A trained dietitian updated the nutrient databank using the most updated Spanish composition tables(Reference Mataix16, Reference Moreiras17). Fast-food group consumption was defined as the sum of sausages, hamburgers and pizza.
Assessment of non-dietary variables
The baseline assessment also included other questions (forty-six items for men and fifty-four for women) to assess medical history, health habits, and lifestyle and sociodemographic variables. Participants were classified as non-smokers, former smokers or current smokers. Physical activity was assessed through a baseline questionnaire. The metabolic equivalent (MET) index per week was computed using the time spent engaged in seventeen activities, and multiplying the time spent by the resting metabolic rate (MET score) specific for each activity(Reference Ainsworth, Haskell and Whitt18). The MET-hours for all activities were combined to obtain a value of total weekly MET-hours, which adequately correlated with energy expenditure measured by triaxial accelerometer in a validation subsample of the cohort(Reference Martinez-Gonzalez, Lopez-Fontana and Varo19).
Assessment of the outcome
Participants’ weight was recorded at baseline and every 2 years during follow-up. The reliability and validity of self-reported weight were previously assessed in a sub-sample of the cohort and was found to be highly correlated (r = 0·99), with a mean relative error in self-reported weight of 1·45 %(Reference Bes-Rastrollo, Perez and Sanchez-Villegas20).
The outcomes were: (i) change per year in body weight (and BMI) during follow-up as a continuous variable, calculated as the difference between the last answered questionnaire and the baseline questionnaire divided by the years of follow-up; (ii) a mean increment in body weight per year of at least 2 kg during follow-up; and (iii) incident overweight/obesity (participants with BMI < 25 kg/m2 at baseline and BMI ≥ 25 kg/m2 at follow-up).
Statistical analyses
Least-squares regression models were used to evaluate the association between eating out and weight change per year during follow-up. To estimate adjusted differences in weight and BMI changes per year between categories of eating out, we calculated adjusted regression coefficients (and their 95 % confidence intervals) in a multiple regression model, using non-eating-out consumers as the reference category.
Non-conditional logistic regression models were fit to assess the relationship between eating out and the risk of gaining 2 kg or more per year.
After excluding overweight/obese participants at baseline (n 2608), we assessed the hazard ratio of incident overweight/obesity (BMI ≥ 25 kg/m2) for the different categories of eating-out consumers using a Cox proportional hazards analysis.
All analyses were adjusted for age, sex, physical activity, smoking, and other potential dietary and non-dietary confounders based on the previous scientific literature such as fibre intake, alcohol intake, total energy intake, years of education, smoking during follow-up, following any special diet and baseline BMI, except when we evaluated BMI change over time.
The P for trend was calculated by introducing the categories of eating out as a continuous variable in the models. We evaluated effect modification through product terms.
All P values presented are two-tailed; P < 0·05 was considered statistically significant. Analyses were performed using the SPSS statistical software package version 15·0 (SPSS Inc., Chicago, IL, USA).
Results
The average follow-up was 4·4 (sd 1·7) years. The mean weight change during follow-up was +0·3 (sd 1·4) kg per year among 9182 participants (mean age 36·7 (sd 11·4) years) of the SUN cohort. About 27 % of participants reported eating away from home at least twice or more per week.
Eating-out consumers were younger, they were more likely to be male participants and smokers, had higher baseline weight and BMI, but were more physically active. Eating meals away from home was associated with relatively higher intakes of trans fats and alcohol, but with lower intakes of monounsaturated fats, fibre and carbohydrates. In relation to food consumption, participants who ate more frequently away from home consumed less vegetables, fruits, legumes and low-fat dairy products and more soft drinks, juices, red meat, fast food and processed meat (Table 1).
MET, metabolic equivalent task.
Continuous variables are expressed as means and standard deviations; categorical variables as n and %.
*P value was calculated by ANOVA for continuous variables and the χ 2 test for categorical variables.
†Incident overweight/obesity: percentage of people with BMI < 25 kg/m2 at baseline with BMI ≥ 25 kg/m2 at follow-up.
‡Sum of hamburgers, sausages and pizza.
Eating-out consumers had a statistically significant higher average weight gain and BMI gain per year during follow-up in the multivariate-adjusted analysis (Table 2). Similarly, they had a higher risk of gaining ≥2 kg/year in the multivariate-adjusted analysis (P for trend = 0·001; Table 3). There were no significant differences in the prediction of weight gain between sexes (P value for interaction = 0·85). After excluding participants who were overweight/obese at baseline, we identified 855 new cases of overweight/obesity among 6574 participants. The habit of eating meals more frequently away from home was significantly associated with a higher risk of becoming overweight/obese during follow-up in the multivariate-adjusted analysis (Table 4).
ref, reference category.
* Multivariate models adjusted for age, sex, baseline smoking, snacking, leisure-time physical activity (quartiles), fibre intake, alcohol intake, total energy intake, years of education, smoking during follow-up, following any special diet and baseline BMI.
ref, reference category.
*Multivariate model adjusted for age, sex, baseline smoking, snacking, leisure-time physical activity (quartiles), fibre intake, alcohol intake, total energy intake, years of education, smoking during follow-up, following any special diet and baseline BMI.
ref, reference category.
*Multivariate model adjusted for age, sex, baseline smoking, snacking, leisure-time physical activity (quartiles), fibre intake, alcohol intake, total energy intake, years of education, smoking during follow-up, following any special diet and baseline BMI.
When we conducted sensitivity analyses including those participants with chronic diseases at baseline or during follow-up (n 1085), the results pointed in the same direction (data not shown).
To address the issue of the regression towards the mean we stratified the results according to previous weight change in the last 5 years before the baseline questionnaire. Those participants who gained 3 kg or more of body weight in the previous 5 years showed a statistically significant association between eating out and weight gain (adjusted difference = +242 g/year; 95 % CI +106, +379 g/year). On the contrary, those with weight losses of 3 kg or more in the previous 5 years showed a lower magnitude for the association that was not statistically significant (adjusted difference = +149 g/year; 95 % CI −24, +322 g/year; P for interaction = 0·10; data not shown).
Discussion
In the current prospective study, a higher frequency of away-from-home meals was associated with higher body-weight gain and higher risk of becoming overweight/obese during an average 4·4-year follow-up among healthy middle-aged Spanish university graduates.
This finding is consistent with previous research conducted in the USA. Several cross-sectional studies have evaluated the association between the habit of eating out and body weight. In 16 103 participants in the Continuing Survey of Food Intake by Individuals, the authors found a significant positive relationship between BMI and consumption of food away from home in the past 24 h period(Reference Binkley, Eales and Jekanowski21). McCrory and colleagues reported that the frequency of consuming food from restaurants was positively associated with body fatness measured by hydrostatic weighing among seventy-three adults(Reference McCrory, Fuss and Hays22). Regarding prospective studies, some of them have specifically assessed fast-food consumption. Among them, the Pound of Prevention Study found that the frequency of fast-food restaurant visits was associated with increases in body weight over a 3-year period in a sample of 891 adult women(Reference French, Harnack and Jeffery23). In a young population, the results from 3031 participants of the CARDIA (Coronary Artery Risk Development in Young Adults) study reported a strong positive association between frequency of fast-food consumption and weight gain during 15-year follow-up(Reference Pereira, Kartashov and Ebbeling24). Similarly, a study conducted among 101 healthy girls from two schools near Boston reported that participants who ate quick-service food with a frequency of at least once weekly were more likely to increase their relative BMI over time(Reference Thompson, Ballew and Resnicow25). Similarly, results from the Growing Up Today Study showed that, in a cohort of 7745 girls and 6610 boys aged 9 to 14 years, those who increased their consumption of fried food away from home over 1 year gained weight above the expected gain from normal growth(Reference Taveras, Berkey and Rifas-Shiman26).
However, our results differed from those of a recent European ecological study that did not find any effect on obesity on the part of the food share expenditure spent on food eaten away from home, suggesting that the type or quality of food eaten away from home in the USA and Europe is different, as pointed out by the authors. Nevertheless, differences between study designs can contribute to obtaining different results. As the authors reported, their finding was based on rough measures and needed more research with data collected on an individual basis(Reference Michaud, van Soest and Andreyeva27). A recent cross-sectional study(Reference Marin-Guerrero, Gutierrez-Fisac and Guallar-Castillon12) conducted in Spain also did not find any positive association between away-from-home eating and obesity. However, this result could be explained by the limitations of its cross-sectional design. Subjects with higher BMI, concerned about putting on weight, may have restricted the number of meals they ate away from home. In fact, the adjusted results from our cross-sectional analyses showed no association between eating out and BMI. Moreover, a Spanish cross-sectional study(Reference Schröder, Fito and Covas6) reported that fast-food consumption was associated with higher BMI in agreement with our prospective results. The differences between the two previous cross-sectional studies can be explained by the different designs and also because they used a different definition of the exposure (eating away from home v. fast-food consumption).
The frequency of eating out in our cohort was higher than the frequency observed in the previous cross-sectional Spanish studies(Reference Schröder, Fito and Covas6, Reference Marin-Guerrero, Gutierrez-Fisac and Guallar-Castillon12), probably because our participants were younger, and in the study conducted by Schröder et al.(Reference Schröder, Fito and Covas6) only fast-food consumption was assessed. However, our frequency of consumption was in agreement with another previous study conducted in the USA. The frequency of food purchased away from home in Thompson et al.’s study(Reference Thompson, Ballew and Resnicow25) was on average 1·96 times per week in comparison with 1·68 times per week in our cohort.
The partially hydrogenated oils used in some restaurants, the large portion sizes usually served (leading to a positive energy balance) and the frequent presence of energy-dense foods (with the same effect) may be potential reasons to explain why restaurant food consumption could promote weight gain(Reference Kral, Roe and Rolls11, Reference Field, Willett and Lissner28).
In addition, restaurant meals tend to be higher in fat and lower in fibre content. Fibre intake has been shown to induce a greater sensation of satiety and increase insulin sensitivity, a response linked to decreases in hunger and subsequently energy intake. One of the salient characteristics of the traditional Mediterranean food pattern is the daily consumption of fresh fruits as the usual dessert. This characteristic is very likely to be lost when the meals are eaten in a restaurant. This is true not only for fast-food outlets but also for restaurants more in line with the Mediterranean culinary tradition.
In fact, in our cohort, consumers of away-from-home meals had not only more than one serving less of vegetables but also, more importantly, more than two servings less of fruits per week in comparison to non-eating-out consumers. It should also be noted that consumers of away-from-home meals consumed one more sugar-sweetened soft drink and two more alcoholic beverages per week in comparison with non-eating-out consumers. All of the above aspects are very plausible explanations of our findings, because they are associated with weight gain in this cohort(Reference Bes-Rastrollo, Martinez-Gonzalez and Sanchez-Villegas29, Reference Bes-Rastrollo, Sanchez-Villegas and Gomez-Gracia30) and in other populations(Reference Vioque, Weinbrenner and Castello31, Reference Malik, Schulze and Hu32). Eating-out consumers presented less healthy dietary characteristics with a more overall energy-dense dietary pattern contributing to a positive energy balance, the ultimate driver of weight gain.
Furthermore, one of the most important differences between eating-out consumers and non-eating-out consumers found in our cohort is that the former had higher alcohol intake. This result is in agreement with a Dutch study reporting that in a representative sample population from The Netherlands, 45 % of energy from alcohol was consumed out of the home(Reference Kearney, Hulshof and Gibney33). This finding indicates that not only the food eaten at restaurants is important, but also that patterns of beverage consumption related to meals eaten in restaurants might play a major role in the development of overweight/obesity.
Eating and drinking out is part of the current lifestyle of Spaniards and other Mediterranean populations. This fact explains the importance of full-service restaurants in this geographical area(Reference Becker9). In the last two decades, however, food patterns in most of the Mediterranean area have shifted to a more Westernized type, especially among the young population(Reference Garcia-Closas, Berenguer and Gonzalez34, Reference Sanchez-Villegas, Delgado-Rodriguez and Martinez-Gonzalez35). We should bear in mind that the food service with the highest growth in Southern Europe during the last years has been fast-food restaurants(Reference Becker9). In addition, full-service restaurants may lead to overconsumption not only because of the wide variety of palatable food served in large portions, but also because of the social facilitation of food intake as individuals tend to consume more food when eating in the presence of others(Reference De Castro36).
Unfortunately, we do not have data about what types of restaurant food our subjects consumed, nor could the questionnaire identify the types of foods eaten away from home, nor if participants ate away from home for lunch or for dinner. This fact could contribute to the low differences in nutrient intakes between the three categories of eating out.
Although we found a significant association between eating away from home and weight gain, we observed modest differences in nutrient intakes and consumption of food groups between eating-out consumers and non-eating-out consumers. There are several possible explanations for this finding. First, it has been proposed that small changes in behaviour such as eating a few less bites at each meal can be the key for the prevention of weight gain(Reference Hill, Wyatt and Reed37). Low amounts of positive energy imbalance every day or every week can have a great impact on long-term weight gain(Reference Hill38). Second, we have to take into account that an FFQ presents some degree of measurement error, especially for total energy intake, inherent to the methods of nutritional epidemiology(Reference Kristal, Peters and Potter39). In addition, among those participants who ate away from home, since they probably did not prepare their food, their measurement error (under-reporting) in answering the FFQ may be greater. In addition, the standard serving sizes used in the FFQ might underestimate portions provided when eating out. In this context, there are data from the USA showing an increase in portion sizes over time(Reference Young and Nestle40). This issue may explain that the small differences, although significant, in total energy intake and food group intakes between groups have resulted in differences in weight gain (positive energy balance), due to the fact that the real differences between groups were probably larger than observed.
The present study was observational, and the possibility of residual confounding or collinearity among variables may limit the inference of causality. The consumption of meals in restaurants may be one in a cluster of other interrelated behaviours that may contribute to excess weight gain and obesity. Nevertheless, our results might underestimate the true magnitude of the effect through adjustment for some covariates that might be on the causal pathway(Reference Shrier and Platt41). The possibility of a measurement error would also lead to an underestimation of the true effects. Another aspect to address is the possible existence of regression to the mean: in the likelihood of higher weight gains in those participants who had decreased their weight before the follow-up and vice versa, it could be thought greater losses in those participants who had increased their weight before starting the follow-up could be a consequence of regression to the mean. However, the results from the stratified analyses for previous weight gain did not support this possibility because those who gained weight in the previous 5 years, before the baseline questionnaire, presented the highest weight gain during follow-up. Similar results were observed in the Danish MONICA (Monitoring Trends and Determinants in Cardiovascular Disease) project when weight gain was independent of the weight changes in the previous 5 years(Reference Glanz, Resnicow and Seymour42).
In spite of these potential limitations, the evidence derived from our results should be helpful for health policy makers in their efforts to tackle the growing obesity epidemic in Europe, especially in the Mediterranean countries. Profit margins were found to be a key driver of decisions to offer healthier food options to consumers after interviewing senior menu development and marketing executives at leading full-service and limited-service chain restaurants in the USA(Reference Glanz, Resnicow and Seymour42). A recent article found that fast-food chains have responded little or not at all to calls to voluntarily reduce the portion size of their products in the USA(Reference Young and Nestle43). Therefore, without an increase in consumer demand, it seems unlikely that the restaurant industry will foster the offering of healthy food choices unless different approaches through legal measures and consumers’ efforts are applied, as has happened in New York City(44). Meanwhile, the general population should be aware of the potential problems of eating out for maintaining a healthy weight and take into account possible alternatives such as the habit of splitting an entrée with a friend or eating half of the meal and asking for a carry-out container for the rest.
In conclusion, a high frequency of eating away-from-home meals has been associated with a higher subsequent body weight, and with an increase in the risk of becoming overweight/obese. This emerging trend is thus a potential risk factor to be considered in the battle against obesity in Europe.
However, more research is needed to better classify the restaurant types, and better data are required on the effect of food that is home prepared or prepared out of home, independently of the place where it is eaten. At the same time, it would be important to evaluate if incentive measures for promoting a healthier menu in food establishments would lead to better health outcomes and prevent further weight gain.
Acknowledgements
The SUN Study has received funding from the Spanish Ministry of Health (Grants PI030678, PI040233, PI070240, PI081943, RD06/0045 and G03/140), the Navarra Regional Government (PI41/2005, PI36/2008) and the University of Navarra. There are no conflicts of interests. M.B.-R. participated in the conception and design, statistical analyses and data interpretation, manuscript drafting and critical revision of the manuscript. F.J.B.-G. and A.S.-V. participated in the statistical analyses, data interpretation and critical revision. A.M. and J.A.M. participated in the data interpretation and critical revision. M.A.M.-G. participated in the funding, concept and design, data interpretation and critical revision. All authors contributed to the final version of the article. We thank participants of the SUN Project for their continued cooperation and participation. The scientific, administrative, technical and material support of other members of the SUN Study Group is acknowledged.