Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-30T19:34:17.147Z Has data issue: false hasContentIssue false

FINDIET 2007 Survey: energy and nutrient intakes

Published online by Cambridge University Press:  01 June 2010

Pirjo Pietinen*
Affiliation:
National Institute for Health and Welfare, PO Box 30, FI-00270, Helsinki, Finland
Merja Paturi
Affiliation:
National Institute for Health and Welfare, PO Box 30, FI-00270, Helsinki, Finland
Heli Reinivuo
Affiliation:
National Institute for Health and Welfare, PO Box 30, FI-00270, Helsinki, Finland
Heli Tapanainen
Affiliation:
National Institute for Health and Welfare, PO Box 30, FI-00270, Helsinki, Finland
Liisa M Valsta
Affiliation:
National Institute for Health and Welfare, PO Box 30, FI-00270, Helsinki, Finland
*
*Corresponding author: Email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Objective

The National FINDIET surveys are carried out every 5 years to monitor dietary habits and nutrient intake of the adult Finnish population. The latest survey was carried out in 2007.

Design

Cross-sectional population-based study. Dietary assessment was carried out using 48 h recall interviews. A picture book of food portions was used to estimate portion sizes and the national Food Composition Database Fineli® to calculate nutrient intakes.

Setting

A representative sample taken in five regions in Finland.

Subjects

A total of 730 men and 846 women aged 24–64 years.

Results

The percentage contribution of fat to the total energy intake was 33 % in men and 31 % in women. The respective percentages for SFA in men and women were 13 % and 12 %, respectively, and 0·4 % for trans fatty acids in both genders. The average intakes of folate, vitamin D and fibre fell below the recommended levels, whereas the average salt intake was somewhat higher than the recommendations. Women’s diet was higher in protein, dietary fibre and sucrose compared to that of men.

Conclusions

According to the FINDIET 2007 Survey, the dietary habits of the adult Finnish population have headed in a positive direction overall. However, although the quality of the fats consumed has continued to improve, and the intake of salt has decreased, they still do not meet the recommended levels of intake. Similarly, the average intakes of folate and vitamin D continue to fall below the recommendations. There is also a need to increase fibre intake and to cut down the intake of sucrose.

Type
Research paper
Copyright
Copyright © The Authors 2010

Information on the Finnish diet among adults based on representative population samples is available from 1966 to 1972, when the Social Insurance Institution carried out a large survey in the whole country(Reference Hasunen, Pekkarinen and Koskinen1). At that time the Finnish diet was quite high in total fat, which comprised 38·5 % of energy intake, and it was in particular high in saturated fat (20·5 % of energy intake). On the basis of the Seven Countries Study among middle-aged men in East and West Finland, salt intake was also very high, ∼ 13–14 g/d based on 24 h urine collections(Reference Karvonen and Punsar2). Since then, the Finnish diet has changed remarkably towards a healthier diet, and this has contributed to the decrease in CHD(Reference Pietinen, Vartiainen and Seppänen3, Reference Laatikainen, Critchley and Vartiainen4). From 1982, the main instrument for monitoring the Finnish diet has been the FINDIET surveys, which are part of the FINRISK studies carried out every 5 years. They are the most important source of information for several purposes: for judging adequacy of the diet in general, to know the differences among different population groups and for nutritional policy purposes. The main results of the FINDIET 2007 Survey are described in the present study. The full report is available on the Internet and includes for the first time features such as distribution curves of different nutrients as well as the nutrient intakes from food supplements(Reference Paturi, Tapanainen and Reinivuo5).

Subjects and methods

The National FINDIET 2007 Survey was conducted between January and March 2007, and covered five different study regions in Finland. The survey forms part of the National FINRISK 2007 Study, which is a large 5-year population survey set up by the former National Public Health Institute, KTL (since 2009 the National Institute for Health and Welfare, THL), to monitor chronic disease risk factors.

A random sample of adults aged 25–74 years, stratified by sex, area and 10-year age groups, was drawn from the Finnish Population Information System. An invitation letter was sent to the eligible sample (n 9958) requesting them to attend the study centre in their area, where a group of trained FINRISK study fieldworkers had a reception point. Overall, 63 % of the eligible sample took part in the basic routine physical measurements and examinations. The participants had already filled in a general questionnaire at home, which also included questions on some dietary habits. Those belonging to the FINDIET 2007 Survey subgroup (33 % of the sample) participated also in a dietary interview. Trained interviewers carried out face-to-face 48 h dietary recall interviews and entered the data using the Finessi software program, the process resulting in 2039 acceptable interviews. A picture book of food portions was given to the respondents to estimate portion sizes(Reference Ovaskainen, Paturi and Reinivuo6). In the present study, results concerning only working-aged persons, between 25 and 64 years of age, are reported for the sake of comparison with earlier reports, and for the reason that many recommendations differ between working age and older adults. Thus, the final number of participants studied in here are 730 men (56 % of the original sample) and 846 women (64 %). In a report that can be found on the Internet, the results are also given for the oldest age group(Reference Paturi, Tapanainen and Reinivuo5). In addition to the dietary interview, every other person was asked to keep a 3 d food diary immediately after the interview in January–March and again between June and October. Altogether, 442 working age persons completed both of these diaries to an acceptable standard.

Dietary data were entered and processed on the Finessi software, an application developed at THL, which uses the Fineli® Food Composition Database. A detailed description of this metholodogy can be found in the article by Reinivuo et al.(Reference Reinivuo, Hirvonen and Ovaskainen7) in this issue. Mean intakes of nutrients were compared to the Finnish Nutritional Recommendations given by the National Nutrition Council(8) (Table 1). Because of the common problem of under-reporting, all the intakes are energy-adjusted, either as percentages of energy or per MJ. In the report, results excluding under-reporters are also presented (31 % of men and 38 % of women). The criteria used have been published previously(Reference Goldberg, Black and Jebb9). In the present study, only sodium/salt intake is reported both including and excluding under-reporters, since the recommendations are not energy-adjusted but absolute amounts. The usual intake distributions of salt were estimated using both 48 h dietary recall data and data from food diaries. The calculations were carried out with SIDE (Iowa State University, Center for Survey Statistics and Methodology, version 1.01) software, which uses the Iowa State University method to estimate the usual intakes(Reference Nusser, Carriquiry and Dodd10).

Table 1 Mean (sd) daily intakes of energy providing nutrients and fibre among men and women aged 25–64 years: FINDIET 2007 Survey

The use of food supplements was examined in conjunction with the 48 h recall. At the recall interview, the respondent was asked whether he/she had taken any food supplements during the past 48 h study period. Food supplements were identified with the help of a picture booklet containing the 100 most common food supplements available in the market. The contents of these supplements were also in the Fineli® database, and thus, the intakes of vitamins, minerals and fatty acids from supplements could be calculated and added to the dietary intakes.

The differences in nutrient intakes between men and women were tested using the ANOVA, adjusting for age and area. The intake values were log transformed in order to improve normality. The analyses were performed using the SAS statistical software package version 8·2 (SAS Institute Inc., Cary, NC, USA).

Results

The mean daily energy intake of all men was 9·2 MJ/d (2206 kcal) and that of all women 6·8 MJ (1620 kcal). However, when under-reporters were excluded, the respective numbers were 10·5 MJ (2517 kcal) and 7·9 MJ (1891 kcal). The main composition of the diet was different in men compared to women (Table 1). The percentage contribution of fat to the total energy intake was 33 % in men and 31 % in women. Women’s diets were higher in protein, dietary fibre and sucrose compared to that of men, while men consumed more alcohol. The percentages for SFA from energy were also higher in men: 12·9 % compared to 12·0 % in women (Table 2). The share of trans fatty acids was very low, at 0·4 % of energy in both genders. The majority of the trans fatty acids, 78 % in men and 77 % in women, was derived from ruminant animal fats. The intake of PUFA was 5·9 E% in men and 5·7 E% in women.

Table 2 Mean (sd) intakes of fatty acids and cholesterol among men and women aged 25–64 years: FINDIET 2007 Survey

*The recommendation concerns SFA and trans fatty acids together.

On the basis of the questionnaire, 34 % of men reported usually drinking skimmed milk and 36 % low-fat milk, 4 % reported using butter and 49 % low-fat margarines (40–60 % fat) on bread, whereas 50 % reported using oil and 12 % butter in cooking. In women, 41 % reported usually drinking skimmed milk and 25 % low-fat milk, 2 % reported using butter and 51 % low-fat margarines on bread, whereas 59 % reported using oil and 11 % butter in cooking. In addition, 49 % of men and 51 % of women reported using low-fat cheeses (<17 % fat) daily.

The average intakes of folate and vitamin D fell below the recommended levels both in men and women (Figs. 1 and 2). The average iron intake was not abundant, either, and did not quite meet the recommendations. The average intakes of other vitamins and minerals met the recommendations except for sodium. The calculated sodium intake was 8·3 g in men and 6·0 g in women. However, when under-reporters were excluded, the mean intake was 9·3 g in men and 6·8 g in women. The Finnish recommendations are 7 g for men and 6 g for women. The distribution of salt intake with and without under-reporters is shown in Figs. 3 and 4. Similar distributions for other nutrients are shown in the report itself.

Fig. 1 Mean intake (% of recommended intake) of vitamins and minerals per unit of energy, for men

Fig. 2 Mean intake (% of recommended intake) of vitamins and minerals per unit of energy, for women

Fig. 3 Intake of salt (NaCl; g/d) from food, for men (—, all; - - -, under-reporters excluded)

Fig. 4 Intake of salt (NaCl; g/d) from food, for women (—, all; - - -, under-reporters excluded)

Finnish adults were found to be regular dietary supplement takers (33 % of men and 50 % of women). The most common types of dietary supplements taken were those containing both vitamins and minerals, and those containing fatty acids. Food supplements were important sources of vitamin D, thiamine, riboflavin, niacin, pyridoxine, vitamin B12, vitamin C, and iron. Dietary supplements were targeted poorly, since for almost all vitamins and minerals, the intake from food was equally high or higher among supplement takers than among the non-supplement takers. A typical dietary supplement taker is a well-educated urban woman.

Discussion

There have been favourable changes in the intakes of fatty acids even during the past 5-year period. The intake of total fats has decreased from 34·9 % of energy in 2002 to 33·1 % in men and from 32·4 % to 31·2 % in women(Reference Männistö, Ovaskainen and Valsta11). Thus, the total fat intake level meets the recommendations. The intake of SFA has decreased from 14·4 % in men to 12·9 % and from 13·6 % to 12·0 % in women, and trans fatty acids have decreased from 0·5 % to 0·4 % in both genders. The intake of PUFA has increased from 5·2 % to 5·9 % in men and from 4·9 % to 5·7 % in women. There has also been a 0·2 % unit increase in n-3 fatty acids in both genders during this time period. These favourable changes are reflected in serum cholesterol levels as has been described in another article of this supplement(Reference Valsta, Tapanainen and Laatikainen12).

The favourable changes in the fatty acid composition of the diet are a reflection of the profound changes in food consumption over many decades, particularly in the consumption of milks and fat spreads. Skimmed milk has become the most popular milk and low-fat margarines mostly based on canola oil, the most popular fat spreads. The consumption of low-fat cheeses has also become popular and their selection and availability is very high. Increased consumption of both canola oil and fish explain the increase in the intake of n-3 fatty acids.

Women consume less fat but more sucrose and dietary fibre. These gender differences have existed for a long time and can be seen even among school-aged children(Reference Hoppu, Lehtisalo and Tapanainen13). Women have a higher intake of vitamin C compared to men, which is a reflection of higher consumption of fruit and vegetables. Part of the higher sucrose intake in women is explained by the natural sucrose in fruit, which our software cannot separate from added sugars. Dietary fibre intake meets the recommendation among women aged > 45 years because of their higher consumption of whole grains, especially from rye bread.

Intakes of folate and vitamin D are inadequate in both genders. Folate intake could be increased by greater consumption of whole-grain products, especially with increased rye bread consumption. Vitamin D intake is mostly dependent on the consumption of fish and is highest among older persons because of their higher fish consumption. In Finland, fat spreads have been fortified with vitamin D since the 1950s and liquid milk products since 2003. Although this procedure has increased vitamin D intake, the situation is still not adequately judged by this report as well as studies on the vitamin D status in different population groups(Reference Laaksi, Ruohola and Ylikomi14, Reference Välimäki, Löyttyniemi and Välimäki15). Currently, an expert group nominated by the National Nutrition Council is trying to find new solutions to improve the situation.

Salt intake has decreased gradually since the late 1970s(Reference Laatikainen, Pietinen and Valsta16, Reference Reinivuo, Valsta and Laatikainen17). Salt intake in the population has been monitored in connection with the FINRISK surveys by 24 h urine collections, and also in the FINDIET surveys by calculating sodium intake, as in the survey of 2007. Although salt intake was about 13 g/d in men and 11 g/d in women in 1979, it is now about 8–9 g/d in men and about 7 g/d in women. Systematic work has been carried out to lower salt intake by educating the public and by working with the food industry to reduce the salt content of processed food. In addition, national legislation was revised to enable the labelling of products with a reduced salt content, such as bread, sausages, other meat products, cheese, breakfast cereals, soups and other prepared foods, having food-specific criteria. This labelling system also forces the producers to label heavily salted products, which has made them almost disappear from the market. This can be used as a model in other countries also, since it has been shown to be a powerful way to influence salt intake in the population(Reference Pietinen, Valsta and Hirvonen18).

In conclusion, according to the FINDIET 2007 Survey, the dietary habits of the adult Finnish population have headed in a positive direction overall. However, in certain areas, there is still room for improvement. For instance, although the quality of the fats consumed has continued to improve and the average intake of salt has decreased, they still do not quite meet the recommended levels of intake. Similarly, the average intakes of folate and vitamin D fall below the recommendations. There is also a need to increase fibre intake and to cut down the intake of sucrose. A diet comprised of more unrefined cereals, fish, vegetables, fruit and berries, as well as unsaturated fats and less of foods containing high levels of added sugar would help achieve this goal.

References

1.Hasunen, K, Pekkarinen, M, Koskinen, Eet al. (1976) The Food Consumption and Nutrient Intake in Finland from 1966 to 1972 (In Finnish, summary in English). Report of the Social Insurance Institution ML9, Helsinki.Google Scholar
2.Karvonen, MJ & Punsar, S (1977) Sodium excretion and blood pressure of west and east Finns. Acta Med Scand 202, 501507.CrossRefGoogle Scholar
3.Pietinen, P, Vartiainen, E, Seppänen, R et al. (1996) Changes in diet in Finland from 1972 to 1992: impact on coronary heart disease. Prev Med 25, 243250.CrossRefGoogle ScholarPubMed
4.Laatikainen, T, Critchley, J, Vartiainen, E et al. (2005) Explaining the decline in coronary heart disease mortality in Finland between 1982 and 1997. Am J Epidemiol 162, 764773.CrossRefGoogle ScholarPubMed
5.Paturi, M, Tapanainen, H, Reinivuo, H et al. (editors) (2008) The National FINDIET 2007 Survey (In Finnish, tables, figures and summary in English). Publications of the National Public Health Institute B23/2008. Helsinki: Yliopistopaino; available at http://www.ktl.fi/attachments/suomi/julkaisut/julkaisusarja_b/2008/2008b23.pdfGoogle Scholar
6.Ovaskainen, M-L, Paturi, M, Reinivuo, H et al. (2008) Accuracy on the estimation of food servings against the portions in food photographs. Eur J Clin Nutr 62, 674681.CrossRefGoogle ScholarPubMed
7.Reinivuo, H, Hirvonen, T, Ovaskainen, M-L et al. (2009) Dietary survey methodology of Findiet 2007 Survey with a risk assessment perspective. Public Health Nutr (in this issue).Google Scholar
8.National Nutrition Council (2005) Suomalaiset ravitsemussuositukset (In Finnish, title in English: Finnish Nutrition Recommendations – Diet and physical activity in balance). Committee report. Helsinki: Edita Publishing Oy; available at http://www.evira.fi/portal/vrn/en/nutrition_recommendations/Google Scholar
9.Goldberg, GR, Black, AE, Jebb, SA et al. (1991) Critical evaluation of energy intake using fundamental principles of energy physiology: 1. Derivation of cut-off limits to identify under-recording. Eur J Clin Nutr 45, 569581.Google ScholarPubMed
10.Nusser, SM, Carriquiry, AL, Dodd, KW et al. (1996) A semiparametric transformation approach to estimating usual daily intake distributions. J Am Statist Assoc 91, 14401449.CrossRefGoogle Scholar
11.Männistö, S, Ovaskainen, M-L & Valsta, L (editors) (2003) The National FINDIET 2002 Study (In Finnish, tables, figures and chapter summaries in English). Publications of the National Public Health Institute B3/2003. Helsinki: Hakapaino Oy; available at http://www.ktl.fi/portal/suomi/osastot/eteo/yksikot/ravitsemusyksikko/julkaisut/finravinto_2002_-tutkimuksen_raportti/Google Scholar
12.Valsta, LM, Tapanainen, H, Laatikainen, T et al. (2009) Explaining the 25-year decline of serum cholesterol by changes in food consumption and use of medication in Finland. Public Health Nutr (in this issue).Google Scholar
13.Hoppu, U, Lehtisalo, J, Tapanainen, H et al. (2009) Dietary habits and nutrient intake of Finnish adolescents. Public Health Nutr (in this issue).Google Scholar
14.Laaksi, IT, Ruohola, J-PS, Ylikomi, TJ et al. (2006) Vitamin D fortification as public health policy: significant improvement in vitamin D status in young Finnish men. Eur J Clin Nutr 60, 10351038.CrossRefGoogle ScholarPubMed
15.Välimäki, V-V, Löyttyniemi, E & Välimäki, MJ (2007) Vitamin D fortification of milk products does not resolve hypovitaminosis D in young Finnish men. Eur J Clin Nutr 61, 493497.CrossRefGoogle Scholar
16.Laatikainen, T, Pietinen, P, Valsta, L et al. (2006) Sodium in the Finnish diet: 20-year trends in urinary sodium excretion among the adult population. Eur J Clin Nutr 60, 965970.CrossRefGoogle ScholarPubMed
17.Reinivuo, H, Valsta, LM, Laatikainen, T et al. (2006) Sodium in the Finnish diet: trends in dietary sodium intake and comparison between intake and 24-hour excretion of sodium. Eur J Clin Nutr 60, 11601167.CrossRefGoogle Scholar
18.Pietinen, P, Valsta, LM, Hirvonen, T et al. (2008) Labelling the salt content in foods: a useful tool in reducing sodium intake in Finland. Public Health Nutr 11, 335340.CrossRefGoogle Scholar
Figure 0

Table 1 Mean (sd) daily intakes of energy providing nutrients and fibre among men and women aged 25–64 years: FINDIET 2007 Survey

Figure 1

Table 2 Mean (sd) intakes of fatty acids and cholesterol among men and women aged 25–64 years: FINDIET 2007 Survey

Figure 2

Fig. 1 Mean intake (% of recommended intake) of vitamins and minerals per unit of energy, for men

Figure 3

Fig. 2 Mean intake (% of recommended intake) of vitamins and minerals per unit of energy, for women

Figure 4

Fig. 3 Intake of salt (NaCl; g/d) from food, for men (—, all; - - -, under-reporters excluded)

Figure 5

Fig. 4 Intake of salt (NaCl; g/d) from food, for women (—, all; - - -, under-reporters excluded)