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Trends in food and nutritional intakes of French adults from 1999 to 2007: results from the INCA surveys

Published online by Cambridge University Press:  23 December 2009

Carine Dubuisson*
Affiliation:
French Food Safety Agency (AFSSA), Direction of Risk Assessment for Nutrition and Food Safety, Office of Scientific Support for Risk Assessment, Dietary Survey Unit – Nutritional Epidemiology, 27–31 Avenue du Général Leclerc, 94701Maisons-Alfort Cedex, France
Sandrine Lioret
Affiliation:
French Food Safety Agency (AFSSA), Direction of Risk Assessment for Nutrition and Food Safety, Office of Scientific Support for Risk Assessment, Dietary Survey Unit – Nutritional Epidemiology, 27–31 Avenue du Général Leclerc, 94701Maisons-Alfort Cedex, France
Mathilde Touvier
Affiliation:
French Food Safety Agency (AFSSA), Direction of Risk Assessment for Nutrition and Food Safety, Office of Scientific Support for Risk Assessment, Dietary Survey Unit – Nutritional Epidemiology, 27–31 Avenue du Général Leclerc, 94701Maisons-Alfort Cedex, France
Ariane Dufour
Affiliation:
French Food Safety Agency (AFSSA), Direction of Risk Assessment for Nutrition and Food Safety, Office of Scientific Support for Risk Assessment, Dietary Survey Unit – Nutritional Epidemiology, 27–31 Avenue du Général Leclerc, 94701Maisons-Alfort Cedex, France
Gloria Calamassi-Tran
Affiliation:
French Food Safety Agency (AFSSA), Direction of Risk Assessment for Nutrition and Food Safety, Office of Scientific Support for Risk Assessment, Dietary Survey Unit – Nutritional Epidemiology, 27–31 Avenue du Général Leclerc, 94701Maisons-Alfort Cedex, France
Jean-Luc Volatier
Affiliation:
French Food Safety Agency (AFSSA), Office of Scientific Support for Risk Assessment, Maisons-Alfort, France
Lionel Lafay
Affiliation:
French Food Safety Agency (AFSSA), Direction of Risk Assessment for Nutrition and Food Safety, Office of Scientific Support for Risk Assessment, Dietary Survey Unit – Nutritional Epidemiology, 27–31 Avenue du Général Leclerc, 94701Maisons-Alfort Cedex, France
*
*Corresponding author: Carine Dubuisson, fax +33 1 49 77 38 92, email [email protected]
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Abstract

Two independent cross-sectional dietary surveys (the Individual and National Food Consumption Surveys, INCA), performed in 1998–99 (INCA1) and in 2006–07 (INCA2) on nationally representative samples of French people, were used to analyse trends in the dietary habits and nutritional intake of French adults. Food consumption was recorded through 7-d dietary records, and nutritional intakes were assessed using the French food composition database. After exclusion of under-reporters, analyses were performed on 3267 adults, aged 18–79 years: 1345 from INCA1 and 1922 from INCA2. The trends highlighted over the 8-year period showed a decrease in consumption of dairy products, meat, bread, potatoes, pastries/croissant-like pastries/cakes/biscuits and sugar/confectionery. In contrast, the consumption of fruits and vegetables, rice, ice cream and chocolate increased. Other food groups, like fish and snacking foods, remained stable. Food choices were mostly age specific. These age differences remained consistent over the years and underlined two opposite dietary trends: a ‘traditional’ one mainly followed by the elderly, and a ‘snacking and convenience’ one mainly adopted by young adults. The overall trends in food consumption did not influence the mean energy intake, but did slightly modify the contribution of each macronutrient to energy intake. These repeated surveys highlighted the fact that trends in French food habits have moved towards an average European diet at the crossroads between Mediterranean and Northern diets, and that food consumption changes impacted, to a lesser extent, nutritional intake.

Type
Full Papers
Copyright
Copyright © The Authors 2009

With the growing global concern about chronic diet-related diseases such as obesity and CVD, the WHO and the FAO have stressed the importance of a balanced diet to prevent these diseases(1). In France, a national nutrition policy was established in January 2001, through the First National Nutrition and Health Program, followed by Second National Nutrition and Health Program (2006–10)(Reference Hercberg, Chat-Yung and Chauliac2). As in many countries(Reference Prattala3Reference Kaernes5), this policy was supported by food-based dietary guidelines, available for the general population and age subgroups (adults, children, elderly, etc.), and mass media campaigns to promote healthy dietary habits and physical activity. In other respects, the food habits in Western countries have tended to converge towards a ‘Western diet’: in Europe, traditional national diets have become less distinct within the last 40 years(Reference Schmidhuber and Traill6). Indeed, the Mediterranean countries have increased their saturated fat, cholesterol and sugar intakes, whereas some Northern European countries have lowered their sugar and fat intakes(Reference Schmidhuber and Traill6, Reference Balanza, Garcia-Lorda and Perez-Rodrigo7). France is situated at the crossroads of these European diets and shows strong regional dietary behaviours that remain consistent for the generations(Reference Kesse, Boutron-Ruault and Clavel-Chapelon8).

These fast changes in dietary habits and the nutrition policies implemented to establish healthier food behaviours highlight the need for monitoring food habits and nutritional intake over time. To ensure the validity of trends observed in the period between two different studies, both should use similar methodologies (population scale, food assessment method, season, etc.); otherwise, the findings could reflect only methodological differences(Reference Champagne, Bogle and Karge9, Reference Dubuisson, Lioret and Gautier10). Some countries have already monitored dietary habits by repeating cross-sectional studies(Reference Ribas-Barba, Serra-Majem and Salvador11Reference Kant and Graubard16). However, to our knowledge, no comparable data are available at a national level in France.

In 2006–07, the French Food Safety Agency (Agence française de sécurité sanitaire des aliments, AFSSA) carried out a nationally representative food consumption survey (Individual and National Food Consumption Surveys, INCA2), with a population scale and dietary assessment methodology similar to the previous INCA1 survey conducted in 1998–99. This similarity allows monitoring of eating behaviours and food intake over time. Thus, the main objective of the present study was to investigate the trends in food consumption and nutritional intake of French adults in the period between the INCA surveys.

Materials and methods

Data from the two French national cross-sectional food consumption surveys, INCA1 (1998–99) and INCA2 (2006–07), were used in the analysis. Both surveys were performed on nationally representative samples of French people and designed to assess food intake patterns.

Subjects

The French INCA1 survey methodology has been described elsewhere(Reference Lioret, Touvier and Lafay17, Reference Volatier18). Briefly, this survey was performed between August 1998 and June 1999 by the Research Centre for the Study and the Observation of Living Conditions and the French Food Safety Agency (AFSSA). Two independent samples, composed of adults aged 15 years and over and children aged 3–14 years, were made representative of the French population through stratification (region of residence and size of urban area) and use of the quota method (age, sex, household size and socio-professional status of head of household)(Reference Deville19). Food records and questionnaires were completed by 1985 adults, of whom 1849 were aged 18–79 years.

The French INCA2 food consumption survey was carried out between December 2005 and May 2007 by AFSSA. Two independent random samples of 3- to 17-year-old children and 18- to 79-year-old adults were drawn using a multistage cluster sampling technique. The sampling frame was extracted from the national census published by French National Institute of Statistics and of Economic Studies (INSEE). First, 181 primary geographical units, stratified by region of residence and size of urban area, were randomly selected with probability proportional to size. Then, households were randomly drawn within each primary sampling unit, and two independent sampling frames were set up: the first restricted to households including at least one child and the second included households with or without children. Finally, within each household, either a child or an adult was randomly selected.

Information letters were sent to the households and were followed by a phone call when the telephone number was available (23 % for the adults' database). During this phone call, more information about the study and its objectives was provided, and the eligible person was selected. If the subject agreed to participate in the survey, an appointment at home was made. When the telephone number was not available or when the household head was 65 years old or over, trained investigators had gone directly to the households. Data on 2624 adults aged 18–79 years were thus collected, which correspond to a response rate of 63 % for the adult sample.

Under-reporters were identified in both studies by comparing the reported energy intake to the BMR as estimated from the Schofield equations(Reference Schofield20), and a cut-off value for physical activity level was fixed at 1·55(Reference Black21). This excluded 504 adults (27·3 %) and 702 adults (26·8 %) from the INCA1 and INCA2 survey datasets, respectively. These rates of under-reporting were similar to those usually observed in dietary surveys(Reference Swan22Reference Johansson, Solvoll and Bjorneboe24). Analyses were thus performed on 3267 subjects: 1345 from INCA1 and 1922 from INCA2.

Measurements

In both the INCA1 and INCA2 surveys, diet was assessed using a 7-d open-ended food record. Each day of the food record was divided into three main meals (breakfast, lunch and dinner) and three between-meals snacks. The subjects were asked to describe as precisely as possible all food and beverage intakes for seven consecutive days: food name, origin (home-made or industrial product) and features (low fat, low sugar, fortified, dietetic, as well as fresh, canned or frozen). Portion sizes were estimated using the Supplémentation en Vitamines et en Minéraux Antioxydants photographic booklet(Reference Hercberg, Deheeger and Preziosi25) or expressed by weight or household measures (spoon). In INCA2 only, table and cooking uses of salt, fat and sugar were also recorded in the self-reported questionnaire. Added fat and sugar were then integrated into the INCA2 food record, whereas salt was not. Average daily nutritional intakes were evaluated using the French food composition databases(Reference Favier, Ireland-Ripert and Toque26, 27) from each survey period (1998 and 2006, respectively). The individual behavioural, demographical and socio-economic variables were collected using self-reported and face-to-face questionnaires.

During the first face-to-face interview, the 7-d record and a self-administered questionnaire were delivered at home by a trained and certified investigator, who explained to the subjects how to complete them. Just after the survey week, the investigator came back and checked the accuracy of the information reported in both documents. The subject was included when at least 3 d of the diary were filled in, but most of the participants completed all 7 d (96 % in INCA2). An additional face-to-face questionnaire, including questions on socio-economic status, was administered. For the INCA2 survey, interviewers measured participant weight and height, but these figures were self-reported in the INCA1 survey.

The studies were approved by the French Data Protection Authority (Commission Nationale Informatique et Libertés).

Data analysis

All analyses were computed on Statistical Analysis System software version 9.1 (SAS Institute Inc., Cary, NC, USA). Age, sex and household head occupational category in the INCA1 sample compared satisfactorily with the national census for 1997 published by INSEE, despite a slight over-representation of women and young adults. INCA2 survey data were weighted for unequal sampling probabilities and for differential non-responses by region, agglomeration size, age, sex, occupation of the household head, size of the household and season. The external data used came from the INSEE national dataset for 2005.

Age was divided into a three-class variable (18–34, 35–54 and 55–79 years) and individual occupational status was classified in ‘high’ (executive, top-management and professional categories), ‘medium’ (employees, technicians and similar), ‘low’ (manual workers) and ‘inactive’ (retired, students, unemployed and housewives/house husbands).

The average food intake (g/d) of thirty-eight food groups was estimated in both surveys. The results were stratified by sex and age to take into account the slight over-representation of women and young adults in INCA1. To enable comparisons of the food group consumption, the INCA1 data were recoded according to the food group nomenclature used for the INCA2 survey. The consumer rate for each food group was also assessed. It represented the proportion of people who consumed at least one food (or beverage) belonging to the food group during the 7 d of the survey. The average dietary intakes in energy (MJ/d), carbohydrates (g/d and % energy), proteins (g/d and % energy), lipids (g/d and % energy), SFA (g/d), MUFA (g/d), PUFA (g/d), sugar (g/d), polysaccharides (g/d), fibre (g/d), alcohol (g/d), Na (mg/d), Ca (mg/d), Fe (mg/d), vitamin C (mg/d) and folate (μg/d) were also estimated in both surveys. Trends between the two surveys were calculated by:

The differences in means were tested with ANOVA and consumer rates were compared with χ2 tests. A P-value of 0·05 was used as the threshold for significance. Consumption of fats and beverages, as well as fatty acids, could not be compared between the two surveys because of methodological improvements in their recording in INCA2. On the contrary, since salt collected in the self-reported questionnaire in INCA2 was not taken into account, the salt intake derived from foods could be compared between the two studies.

Results

Description of the subjects

The general characteristics of the subjects are presented for each INCA survey in Table 1. The mean age of the samples increased between the two surveys from 44·6 (se 0·4) to 46·4 (se 0·4) years. The level of occupational status also increased, with more subjects in the high level of occupational status and fewer inactives. INCA2 included less households composed of five or more people than INCA1. Finally, the geographic distribution of the subjects was similar between the two surveys.

Table 1 Characteristics of adults sample in the Individual and National Food Consumption Surveys (INCA1 and INCA2) (under-reporters excluded)

(Mean values with their standard errors)

* Weighted results.

Trends in food consumption between 1998–99 and 2006–07

The thirty-eight food groups in the analysis are described in Table 2. The consumer rates and absolute amounts of food intake for these food groups are presented by sex–age subgroups for the two surveys in Table 3. Over the 8-year span, several trends in food consumption by French adults can be highlighted.

Table 2 Description of the thirty-eight food groups

Table 3 Trends in percentage of food group consumers (%) and food group consumption (g/d), by sex and age, between Individual and National Food Consumption Surveys (INCA1, 1998–99 and INCA2, 2006–07) (under-reporters excluded)

(Mean values and standard deviations)

Mean values were significantly different: *P < 0·05; **P < 0·01; ***P < 0·001.

ND, not determined because of methodological differences between the two survey.

Trends in starchy food consumption

Starchy foods included bread, potatoes, pasta, rice, wheat and pulses. Traditional starchy foods, like bread and potatoes, were partly replaced by pasta, rice and wheat. No significant trends were noted for pulses consumption. The strongest changes concerned young men and women with bread ( − 20·7 and − 13·2 %, respectively) and young men for potatoes ( − 15·8 %), as well as rice and wheat (+43·8 %). However, the overall consumption of starchy foods remained constant between the INCA1 and INCA2 survey datasets in all sex–age subgroups. Moreover, the age group preferences in starchy foods consumption observed in 1999 were reinforced in 2007: the elderly ate more bread and young people ate more pasta, rice and wheat.

Trends in sweetened food consumption

Sweetened foods consisted of croissant-like pastries/other sweetened pastries/cakes/biscuits, ice cream/frozen desserts, chocolate and sugar/confectionery. Between the two surveys, consumption of croissant-like pastries/other sweetened pastries/cakes/biscuits and sugar/confectionery decreased. Conversely, ice cream and chocolate consumption increased but still remained low. The higher consumption of chocolate was mainly due to a higher consumer rate. For ice cream, this rate strongly increased in older women (+70·8 %) and decreased in young men ( − 34·0 %). Overall, the consumption of sweetened foods tended to decrease, particularly in older men ( − 16·7 %) and young women ( − 9·8 %), but remained higher in the youngest, except for sugar/confectionery, which were still more consumed by the elderly.

Trends in dairy product consumption

Between 1999 and 2007, milk and cheese consumption strongly dropped, particularly for women ( − 21·5 to − 37·4 % for milk and − 19·1 to − 24·9 % for cheese, according to age category) and older men ( − 27·9 and − 23·8 %, respectively). It occurred along with an overall fall, up to − 30 %, of the consumer rate for milk. Conversely, the intake of other dairy products (yoghurt and cottage cheese) increased, except in the youngest adults. Overall, intake of dairy products (milk, cheese and other dairy products) in old and young women fell significantly ( − 20·3 and − 23·6 %, respectively), but remained stable in men. In 2007, as in 1999, milk was consumed in higher amounts by the youngest compared with the oldest adults, and the reverse was observed for cheese. No other age differences existed for other dairy product consumption in INCA2.

Trends in meat, fish and egg product consumption

Meat (red meat and poultry) intake strongly decreased in women, as did egg intake in men, along with a lower consumption rate. In parallel, meat product intake of young women decreased ( − 18·3 %). Only fish intake remained unchanged. Overall, the consumption of meat (all kinds), fish and sea products and egg products decreased between the two studies, particularly in women ( − 6·5 to − 14·4 % by age category) and in middle-aged men ( − 9·4 %). Most of the age-specific dietary habits observed in the INCA1 survey remained in INCA2: young adults ate more meat and less eggs and fish. But age differences in meat and meat product consumption disappeared in women.

Trends in fruit and vegetable consumption

Between the INCA1 and INCA2 studies, fresh fruit consumption remained stable in younger people but increased in middle-aged adults (+48·4 % in women and +37·8 % in men) and older women (+23·4 %). Vegetable consumption was steady in middle-aged adults and older men, increased in older women (+15·0 %), but decreased in young men ( − 13·8 %). Consequently, the overall consumption of fresh fruit and vegetables increased since the INCA1 study, particularly in the elderly (+6·4 % in men and +19·5 % in women) who had the highest intakes in 1998–99, emphasizing the age differences in consumption levels. In addition, more middle-aged (+47·3 %) and old (+37·5 %) women consumed mashed and cooked fruit in INCA2.

Trends in savoury snack food consumption

The only significant evolution observed between the two studies concerning snacking foods was the increase in pizza and savoury pastries eaten by middle-aged men (+33·0 %). The age-related trends were maintained: pizza and sandwich consumption decreased with increasing age.

Trends in nutritional intake between 1998–99 and 2006–07

Mean energy intake remained unchanged between the two studies, but macronutrient contributions to energy changed (Table 4). The energy from proteins decreased in women ( − 4·4 to − 5·1 %) and middle-aged men ( − 3·4 %). In the elderly, the carbohydrate contribution to energy decreased ( − 3·0 % in women and − 4·7 % in men) and the lipid component increased (+5·6 % in women and +6·1 % in men), while the inverse was observed in young men (+3·5 and − 4·2 %, respectively). The amounts of polysaccharides fell in every sex–age subgroup, whereas the sugar amounts rose significantly in young men (+9·8 %) and middle-aged women (+12·7 %) only.

Table 4 Trends in nutritional intakes (g/d), by sex and age, between Individual and National Food Consumption Surveys (INCA1, 1998–99 and INCA2, 2006–07) surveys (under-reporters excluded)

(Mean values and standard deviations)

Mean values were significantly different: *P < 0·05; **P < 0·01; ***P < 0·001.

ND, not determined because of methodological differences between the two surveys.

Vitamin C and folate intakes increased and Na intake was reduced in every sex–age subgroup. Some sex–age-specific trends occurred: fibre and iron intakes increased in middle-aged (+11·2 and +8·8 %, respectively) and old (+7·7 and − 7·1 %) women, and Ca intake rose in middle-aged adults (+14·2 % in women and +12·5 % in men) and young men (+8·5 %).

Discussion

In France, it is the first time that two consecutive food consumption surveys with a similar methodology enabled to monitor eating habits and nutrient intake trends at a national scale. The two samples were representative of people living in France, recorded diet with the same tools (7-d food dairy) and had annual coverage to allow comparison of food group consumption and nutritional intake(Reference Champagne, Bogle and Karge9, Reference Dubuisson, Lioret and Gautier10). Moreover, many constraints have been followed to limit methodological bias for estimating trends. First, under-reporters were identified and excluded according to the same conditions in both surveys. Then, to ensure comparison on the same food groups, the foods recorded in the INCA1 survey were recoded according to the INCA2 food group nomenclature.

Nevertheless, there are some limitations in the present study. Concerning the identification of under-reporters, height and weight were self-reported in the INCA1 survey and directly measured in INCA2. Height and weight misreporting has often been described(Reference Engstrom, Paterson and Doherty28Reference Sahyoun, Maynard and Zhang30). But further calculations to estimate the error in BMR(Reference Schofield20) resulting from weight underestimation values (as described in a recent review(Reference Gorber, Tremblay and Moher31)) led us to consider that weight misreporting in the INCA1 study should not have a significant impact on how under-reporters are identified. Concerning changes in food consumption, some improvements in the food records were introduced in the INCA2 survey: special emphasis was made on beverage, sauce and condiment intakes recording during survey-taker training, and questions on the addition of sugar and fat were included in the self-administered questionnaire and used to correct the records. Because of these improvements, comparisons of beverage and fat consumption or fatty acid intake were not possible and therefore not presented. As for nutritional intake, the food composition data came from the same source (CIQUAL database), dating back to the period of each survey (1998 and 2006). Additional nutritional analyses and data from the scientific literature have improved the accuracy of the food composition dataset between the two surveys, and this methodological issue might explain part of the nutritional trends observed. Nevertheless, these trends were consistent with those described in food intake; thus, improvement of the food composition data might have played only a slight role on nutritional intake trends. Moreover, industrial food product composition and the food supply have also evolved to meet the nutritional recommendations (salt(32), trans fatty acids(33) and sugars(34)) based on the national nutritional policy(Reference Hercberg, Chat-Yung and Chauliac2). Therefore, keeping the food composition tables related to each survey period appeared to be the best compromise to take into account changes in the food composition. Finally, the threshold value of P < 0·05 was maintained despite the number of tests performed. For a given food group, the trends shown were consistent within the sex–age subgroups (either increase or decrease). In addition, they were also observed in the children's sample(35), which supported the present findings concerning French dietary intake changes.

The main findings of the present study were a decrease in the consumption of dairy products (mainly milk and cheese), meat, bread, potatoes, pastries/croissant-like pastries/cakes/biscuits and sugar/confectionery. Conversely, the consumption of fruit and vegetables, rice, ice cream and chocolate increased. Other food groups, like fish and snacking foods, remained stable. Some ‘consumer rate’ and ‘mean amounts eaten’ trends were consistent with each other (e.g. rice, ice cream, chocolate, milk and eggs), whereas other trends involved only amounts consumed (e.g. bread, cheese and sugar). These changes took place during the establishment of the French nutritional policy. Indeed, INCA1 was completed before the First National Nutrition and Health Program(Reference Hercberg, Chat-Yung and Chauliac2) was launched, whereas INCA2 was started at the end of this first program. Although some dietary changes were consistent with the food-based dietary guidelines (increased consumption of fruit and vegetables and decreased intake of sweetened foods), many were not (stability of fish consumption and decrease in dairy product intake).

Food choices are mostly age specific, and these age differences remain consistent over the years. In both studies, the elderly presented a more traditional diet composed of bread, fish, vegetables, fruit, sugar/confectionery, soups, cheese (men only) and mashed/cooked fruit (women only). Young adults preferred pasta, rice, croissant-like pastries/other sweetened pastries/cakes/biscuits, milk, chocolate, pizzas, sandwiches, mixed dishes, meat (men only), cream desserts (men only) and ice cream (women only), resulting in a diet that could be labelled ‘snacking and convenient’. This distribution by age was concordant with previous results(Reference Kesse, Boutron-Ruault and Clavel-Chapelon8). Other age-specific food habits changed during the 8 years interval (e.g. eggs, meat products, dairy products other than milk and cheese in both sexes, as well as cheese, meat, potatoes and cream desserts in women). The limitation of two time points makes it difficult to state whether these food habits were generational or simply a factor of age. The next INCA study will enable further analysis of age-specific food habits to determine those that are generational and will disappear within the French diet. The Research Centre for the Study and the Observation of Living Conditions already published a study on generational, age and period effects on French food trends(Reference Recours, Hebel and Gaignier36). Based on INSEE data, the age-specific trends in food consumption observed in that study were in accordance with the present findings. Many of them showed a generational effect (fruit, vegetables, potatoes, bread, fish and beef), meaning that their consumption decreases in later generations.

No data from national dietary surveys are available for comparison, but the present results are consistent with the French food balance sheet data published by the INSEE(37). Indeed, INSEE data showed that between 1998 and 2005, the availability of bread ( − 7 %), meat ( − 7 %), milk ( − 20 %) and sugar/confectionery ( − 12 %) decreased, while that of fruit (+10 %) and rice (+53 %) increased, and that of vegetables (+2 %) and cheese ( − 2 %) remained stable. The global coherence in trends observed from the two datasets indicates accurate prediction of changes in French dietary intake. Moreover, a study in middle-aged people(Reference Perrin, Simon and Hedelin38) in Eastern France monitoring trends in food consumption between 1987 and 1997 already showed a similar decline in the consumption of meat, eggs and high-fat dairy products (cheese). However, other trends were different: increased consumption of fish, poultry and low-fat dairy products, and stability of fruit and vegetable consumption. The different periods of study (1987–97 v. 1998–2007) or regional trends, which are very strong and persistent within France(Reference Kesse, Boutron-Ruault and Clavel-Chapelon8), could explain these differences.

Trends in other European countries require careful comparison as food survey methodologies and dietary habits diverge. Southern countries have been traditionally described as consuming mostly vegetal foods (pulses, fruit and vegetables and cereals) and fish, and Northern countries as consuming animal products (butter, milk and dairy products, eggs and meats) and soft drinks(Reference Trichopoulou, Naska and Costacou39, Reference Slimani, Fahey and Welch40). Nevertheless, the traditional diets of Mediterranean and Northern countries are converging towards a more Western diet(Reference Schmidhuber and Traill6, Reference Balanza, Garcia-Lorda and Perez-Rodrigo7, Reference Slimani, Fahey and Welch40). For example, Mediterranean countries have increased their consumption of animal products (meats, milk and dairy products) and decreased wine and cereal intakes, with some components of the traditional diet still remaining (olive oil, fruit and vegetables)(Reference Balanza, Garcia-Lorda and Perez-Rodrigo7, Reference Marques-Vidal, Ravasco and Dias12, Reference Garcia-Closas, Berenguer and Gonzalez41). Northern countries show increased intakes of fruit, vegetables and cereal-based products, and decreases in meat, meat products, eggs, potatoes and sometimes sweetened foods and soft drink(Reference Prattala3, Reference Osler, Heitmann and Schroll15). These trends toward healthier dietary habits in Northern countries and especially Scandinavian countries occurred because of strong national nutrition policies(Reference Prattala3, Reference Kaernes5). The intermediate geographical position of France within Europe is reflected in its foods habits, also intermediate between Northern and Mediterranean diets: in the INCA2 survey(35), Northern French inhabitants ate more butter, margarine, potatoes and pastries than their Southern counterparts, who preferred oils and vegetables. Consequently, the average French diet is characterised by a relatively high consumption of fruit and vegetables, wine, fish, but also of animal products (dairy products, meat and butter)(Reference Schmidhuber and Traill6, Reference Slimani, Fahey and Welch40, Reference Garcia-Closas, Berenguer and Gonzalez41). The trends in food consumption underlined in the present study were quite similar to those in Northern countries: stability of fish and cereal-based foods; increase in fruit and vegetables; decrease in meat, dairy product and sweetened food consumption. But differences in the initial amounts eaten put French dietary behaviour in an intermediate position in Europe.

Changes in cost constraints could also influence food choices(Reference Drewnowski and Darmon42, Reference Darmon, Ferguson and Briend43). INSEE data show that overall foodstuff costs increased by 17·3 % between 1998 and 2006, with important disparities between food categories. Thus, bread (+20·6 %) and red meat (+26·4 to +33·4 %) showed the highest increases, whereas the cost of cereal-based products (+6·8 %), dairy products (+6·7 %), eggs (+5·6 %) and ice cream (+6·8 %) remained relatively stable over the 8-year period(44). Price trends might explain some of the dietary changes observed, with decreased consumption when prices rose (e.g. bread and meats) and vice versa (e.g. cereals, dairy products and ice cream).

Differences in the distribution of occupational status could influence food consumption(Reference Irala-Estevez, Groth and Johansson45Reference Turrell and Kavanagh47). Since the samples were nationally representative, they partly reflected the socioeconomic evolution of the French population, as confirmed by the INSEE data. Nevertheless, adjusting consumption by individual occupational status did not change the overall trends (results not shown).

Changing trends in nutritional intake between the two surveys could partly be explained by several facts: (1) changes in food consumption, (2) methodological improvements in the recording of fat and sugar intakes in INCA2 and (3) improvement in composition tables between the two surveys, as well as true changes in food composition since 1999(Reference Anderson, Perloff and Ahuja48). The decrease in meat, dairy product and bread consumption in women could explain the decline in their protein intake and energy contribution. Likewise, the rise in fruit and vegetable consumption probably accounted for the increased intakes in fibre, vitamin C and folate. The overall decrease in polysaccharide intake could be related to the decrease in bread and potato intake, which was not balanced by increased consumption of rice and pasta. Decreased Na intake could be caused by decreased bread consumption, as it is the primary Na vector in the French diet(32), as well as efforts by food manufacturers to reduce the salt content of their products (soups, cheese, meat products and ready-to-eat meals) to comply with the AFSSA's recommendations(32). The increase in sugar intake was observed along with fruit and soft drink consumption increases, but methodological changes in INCA2 make a direct comparison impossible. Finally, Ca intake increased despite the drop in dairy product intake, which could be partly attributed to improvements of the nutritional composition of mineral water.

Conclusion

Several changes in the French diet have occurred since 1998–99. These changes are similar to those in Northern European countries and have tended towards an average European diet at the crossroads of Mediterranean and Northern diets. This global uniformisation towards a typical Western-type diet was more pronounced in young adults than in the elderly, who retained a more traditional French diet. Moreover, trends in food habits changed nutritional intake only slightly.

Acknowledgements

The INCA1 survey was supported by a grant from the Ministries for Health, Agriculture and Consumer Affairs and INCA2 by a grant from the French Food Safety Agency (AFSSA). The authors wish to thank the CIQUAL group for providing the national food composition tables, the Institut de Sondage Lavialle for the collection of data and all the families for their cooperation. C. D. analysed the data and drafted the paper; A. D., G. C-.T. and J-.L. V. contributed to the design and data collection of both INCA surveys; and C. D., S. L., M. T. and L. L. contributed to the design and data collection of the INCA2 survey. A. D., J-.L. V., S. L., M. T. and L. L. assisted in the drafting of the paper. All the authors reviewed the manuscript. There are no conflicts of interest in the preparation of the paper.

References

1WHO & FAO (2003) Diet, Nutrition and the Prevention of Chronic Diseases. Report of a Joint WHO/FAO Expert Consultation. Report no. 916. Geneva: WHO.Google Scholar
2Hercberg, S, Chat-Yung, S & Chauliac, M (2008) The French National Nutrition and Health Program: 2001–2006–2010. Int J Public Health 53, 6877.CrossRefGoogle ScholarPubMed
3Prattala, R (2003) Dietary changes in Finland – success stories and future challenges. Appetite 41, 245249.CrossRefGoogle ScholarPubMed
4Kennedy, E (2008) Nutrition policy in the US: 50 years in review. Asia Pac J Clin Nutr 17, Suppl. 1, 340342.Google ScholarPubMed
5Kaernes, U (2003) Experiences with the Norwegian nutrition policy. Appetite 41, 251257.CrossRefGoogle ScholarPubMed
6Schmidhuber, J & Traill, WB (2006) The changing structure of diets in the European Union in relation to healthy eating guidelines. Public Health Nutr 9, 584595.CrossRefGoogle ScholarPubMed
7Balanza, R, Garcia-Lorda, P, Perez-Rodrigo, C, et al. (2007) Trends in food availability determined by the Food and Agriculture Organization's food balance sheets in Mediterranean Europe in comparison with other European areas. Public Health Nutr 10, 168176.CrossRefGoogle ScholarPubMed
8Kesse, E, Boutron-Ruault, MC & Clavel-Chapelon, F (2005) Regional dietary habits of French women born between 1925 and 1950. Eur J Nutr 44, 285292.CrossRefGoogle ScholarPubMed
9Champagne, CM, Bogle, ML & Karge, WH (2002) Using national dietary data to measure dietary changes. Public Health Nutr 5, 985989.CrossRefGoogle ScholarPubMed
10Dubuisson, C, Lioret, S, Gautier, A, et al. (2006) Comparison of two national food surveys (INCA 1 1998–99 and Health Nutrition Barometer 2002) with regard to five food recommendations of the National Nutrition and Health Program. Rev Epidemiol Sante Publique 54, 514.CrossRefGoogle ScholarPubMed
11Ribas-Barba, L, Serra-Majem, L, Salvador, G, et al. (2007) Trends in dietary habits and food consumption in Catalonia, Spain (1992–2003). Public Health Nutr 10, 13401353.CrossRefGoogle ScholarPubMed
12Marques-Vidal, P, Ravasco, P, Dias, CM, et al. (2006) Trends of food intake in Portugal, 1987–1999: results from the National Health Surveys. Eur J Clin Nutr 60, 14141422.CrossRefGoogle ScholarPubMed
13Krachler, B, Eliasson, MC, Johansson, I, et al. (2005) Trends in food intakes in Swedish adults 1986–1999: findings from the Northern Sweden MONICA (Monitoring of Trends and Determinants in Cardiovascular Disease) Study. Public Health Nutr 8, 628635.CrossRefGoogle ScholarPubMed
14Hulshof, KF, Brussaard, JH, Kruizinga, AG, et al. (2003) Socio-economic status, dietary intake and 10 y trends: The Dutch National Food Consumption Survey. Eur J Clin Nutr 57, 128137.CrossRefGoogle ScholarPubMed
15Osler, M, Heitmann, BL & Schroll, M (1997) Ten year trends in the dietary habits of Danish men and women. Cohort and cross-sectional data. Eur J Clin Nutr 51, 535541.CrossRefGoogle ScholarPubMed
16Kant, AK & Graubard, BI (2006) Secular trends in patterns of self-reported food consumption of adult Americans: NHANES 1971–1975 to NHANES 1999–2002. Am J Clin Nutr 84, 12151223.CrossRefGoogle ScholarPubMed
17Lioret, S, Touvier, M, Lafay, L, et al. (2008) Dietary and physical activity patterns in French children are related to overweight and socioeconomic status. J Nutr 138, 101107.CrossRefGoogle ScholarPubMed
18Volatier, J-L (2000) Enquête INCA individuelle et nationale sur les consommations alimentaires. (Individual and National Food Consumption INCA Survey). Paris: Tec&Doc.Google Scholar
19Deville, J-C (1991) A theory of quota surveys. Survey Methodol 17, 163181.Google Scholar
20Schofield, WN (1985) Predicting basal metabolic rate, new standards and review of previous work. Hum Nutr Clin Nutr 39, 541.Google ScholarPubMed
21Black, AE (2000) Critical evaluation of energy intake using the Goldberg cut-off for energy intake:basal metabolic rate. A practical guide to its calculation, use and limitations. Int J Obes Relat Metab Disord 24, 11191130.CrossRefGoogle Scholar
22Swan, G (2004) Findings from the latest National Diet and Nutrition Survey. Proc Nutr Soc 63, 505512.CrossRefGoogle ScholarPubMed
23Mirmiran, P, Esmaillzadeh, A & Azizi, F (2006) Under-reporting of energy intake affects estimates of nutrient intakes. Asia Pac J Clin Nutr 15, 459464.Google ScholarPubMed
24Johansson, L, Solvoll, K, Bjorneboe, GE, et al. (1998) Under- and overreporting of energy intake related to weight status and lifestyle in a nationwide sample. Am J Clin Nutr 68, 266274.CrossRefGoogle ScholarPubMed
25Hercberg, S, Deheeger, M & Preziosi, P (editors) (1994) SU-VI-MAX. Portions alimentaires. Manuel photos pour l'estimation des quantités. (Portion Sizes: Picture Booklet for the Estimation of Quantities). Paris: Polytechnica.Google Scholar
26Favier, J-C, Ireland-Ripert, J, Toque, C, et al. (1995) Répertoire général des aliments – Table de composition. (Régal French Food Composition Table), 2nd ed.Paris: Lavoisier.Google Scholar
27Table de composition nutritionnelle des aliments Ciqual. (French Food Composition Table – CIQUAL). http://www.afssa.fr/TableCIQUAL/ (accessed January 2009).Google Scholar
28Engstrom, JL, Paterson, SA, Doherty, A, et al. (2003) Accuracy of self-reported height and weight in women: an integrative review of the literature. J Midwifery Women Health 48, 338345.CrossRefGoogle ScholarPubMed
29Niedhammer, I, Bugel, I, Bonenfant, S, et al. (2000) Validity of self-reported weight and height in the French GAZEL cohort. Int J Obes Relat Metab Disord 24, 11111118.CrossRefGoogle ScholarPubMed
30Sahyoun, NR, Maynard, LM, Zhang, XL, et al. (2008) Factors associated with errors in self-reported height and weight in older adults. J Nutr Health Aging 12, 108115.CrossRefGoogle ScholarPubMed
31Gorber, SC, Tremblay, M, Moher, D, et al. (2007) A comparison of direct vs. self-report measures for assessing height, weight and body mass index: a systematic review. Obes Rev 8, 307326.CrossRefGoogle Scholar
32AFSSA (2002) Rapport Sel: Evaluation et recommendations. (Report on Salt: Evaluation and Recommendations). Paris: Agence française de sécurité sanitaire des aliments. http://www.afssa.fr/Documents/NUT-Ra-Sel-.pdf (accessed January 2009).Google Scholar
33AFSSA (2005) Risques et bénéfices, pour la santé, des acides gras trans apportés par les aliments: recommandations. (Risks and Health Benefits of trans Fatty Acids Obtained from Foods: Recommendations). Paris: Agence française de sécurité sanitaire des aliments. http://www.afssa.fr/Documents/NUT-Ra-AGtrans.pdf (accessed June 2009).Google Scholar
34AFSSA (2004) Glucides et santé: Etat des lieux, évaluation et recommandations. (Carbohydrates and Health: Current Status, Evaluations and Recommendations). Paris: Agence française de sécurité sanitaire des aliments. http://www.afssa.fr/Documents/NUT-Ra-Glucides.pdf (accessed June 2009).Google Scholar
35AFSSA (2009) Summary of the report of the 2006/2007 Individual and National Survey on Food Consumption 2 (INCA 2). http://www.afssa.fr/Documents/PASER-Sy-INCA2EN.pdf.Google Scholar
36Recours, F, Hebel, P & Gaignier, C (2005) Exercice d'anticipation des comportements alimentaires des Français – Modèle Age – Période – Cohorte. (Exercise of Anticipation of French Eating Behaviours – Age-Period-Cohort Model). Report no. 222. Paris: CREDOC.Google Scholar
37INSEE (2007) National accounts, base 2000 (Comptabilité nationale, base 2000). In: Statistical Yearbook of France (Annuaire statistique de la France). http://www.insee.fr/fr/publications-et-services/sommaire.asp?id = 178&nivgeo = 0 (accessed January 2009). Paris: INSEE.Google Scholar
38Perrin, AE, Simon, C, Hedelin, G, et al. (2002) Ten-year trends of dietary intake in a middle-aged French population: relationship with educational level. Eur J Clin Nutr 56, 393401.CrossRefGoogle Scholar
39Trichopoulou, A, Naska, A & Costacou, T (2002) Disparities in food habits across Europe. Proc Nutr Soc 61, 553558.CrossRefGoogle ScholarPubMed
40Slimani, N, Fahey, M, Welch, AA, et al. (2002) Diversity of dietary patterns observed in the European Prospective Investigation into Cancer and Nutrition (EPIC) project. Public Health Nutr 5, 13111328.CrossRefGoogle ScholarPubMed
41Garcia-Closas, R, Berenguer, A & Gonzalez, CA (2006) Changes in food supply in Mediterranean countries from 1961 to 2001. Public Health Nutr 9, 5360.CrossRefGoogle ScholarPubMed
42Drewnowski, A & Darmon, N (2005) Food choices and diet costs: an economic analysis. J Nutr 135, 900904.CrossRefGoogle ScholarPubMed
43Darmon, N, Ferguson, EL & Briend, A (2006) Impact of a cost constraint on nutritionally adequate food choices for French women: an analysis by linear programming. J Nutr Educ Behav 38, 8290.CrossRefGoogle ScholarPubMed
45Irala-Estevez, JD, Groth, M, Johansson, L, et al. (2000) A systematic review of socio-economic differences in food habits in Europe: consumption of fruit and vegetables. Eur J Clin Nutr 54, 706714.CrossRefGoogle ScholarPubMed
46Lallukka, T, Laaksonen, M, Rahkonen, O, et al. (2007) Multiple socio-economic circumstances and healthy food habits. Eur J Clin Nutr 61, 701710.CrossRefGoogle ScholarPubMed
47Turrell, G & Kavanagh, AM (2006) Socio-economic pathways to diet: modelling the association between socio-economic position and food purchasing behaviour. Public Health Nutr 9, 375383.CrossRefGoogle ScholarPubMed
48Anderson, E, Perloff, B, Ahuja, J, et al. (2001) Tracking nutrient changes for trends analysis in the United States. Journal Food Compos Anal 14, 287294.CrossRefGoogle Scholar
Figure 0

Table 1 Characteristics of adults sample in the Individual and National Food Consumption Surveys (INCA1 and INCA2) (under-reporters excluded)(Mean values with their standard errors)

Figure 1

Table 2 Description of the thirty-eight food groups

Figure 2

Table 3 Trends in percentage of food group consumers (%) and food group consumption (g/d), by sex and age, between Individual and National Food Consumption Surveys (INCA1, 1998–99 and INCA2, 2006–07) (under-reporters excluded)(Mean values and standard deviations)

Figure 3

Table 4 Trends in nutritional intakes (g/d), by sex and age, between Individual and National Food Consumption Surveys (INCA1, 1998–99 and INCA2, 2006–07) surveys (under-reporters excluded)(Mean values and standard deviations)