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Sociodemographic, health and lifestyle predictors of poor diets

Published online by Cambridge University Press:  13 June 2011

Janas Harrington*
Affiliation:
Department of Epidemiology and Public Health, Room 2.62, Brookfield Health Sciences Complex, University College Cork, Republic of Ireland
Anthony P Fitzgerald
Affiliation:
Department of Epidemiology and Public Health, Room 2.62, Brookfield Health Sciences Complex, University College Cork, Republic of Ireland
Richard Layte
Affiliation:
Economic and Social Research Institute, Dublin, Republic of Ireland
Jennifer Lutomski
Affiliation:
Department of Epidemiology and Public Health, Room 2.62, Brookfield Health Sciences Complex, University College Cork, Republic of Ireland
Michal Molcho
Affiliation:
Department of Health Promotion, National University of Ireland, Galway, Republic of Ireland
Ivan J Perry
Affiliation:
Department of Epidemiology and Public Health, Room 2.62, Brookfield Health Sciences Complex, University College Cork, Republic of Ireland
*
*Corresponding author: Email [email protected]
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Abstract

Objective

Poor-quality diet, regarded as an important contributor to health inequalities, is linked to adverse health outcomes. We investigated sociodemographic and lifestyle predictors of poor-quality diet in a population sample.

Design

A cross-sectional analysis of the Survey of Lifestyle, Attitudes and Nutrition (SLÁN). Diet was assessed using an FFQ (n 9223, response rate = 89 %), from which a dietary score (the DASH (Dietary Approaches to Stop Hypertension) score) was constructed.

Setting

General population of the Republic of Ireland.

Subjects

The SLÁN survey is a two-stage clustered sample of 10 364 individuals aged 18 years.

Results

Adjusting for age and gender, a number of sociodemographic, lifestyle and health-related variables were associated with poor-quality diet: social class, education, marital status, social support, food poverty (FP), smoking status, alcohol consumption, underweight and self-perceived general health. These associations persisted when adjusted for age, gender and social class. They were not significantly altered in the multivariate analysis, although the association with social support was attenuated and that with FP was borderline significant (OR = 1·2, 95 % CI 1·03, 1·45). A classical U-shaped relationship between alcohol consumption and dietary quality was observed. Dietary quality was associated with social class, educational attainment, FP and related core determinants of health.

Conclusions

The extent to which social inequalities in health can be explained by socially determined differences in dietary intake is probably underestimated. The use of composite dietary quality scores such as the DASH score to address the issue of confounding by diet in the relationship between alcohol consumption and health merits further study.

Type
Research paper
Copyright
Copyright © The Authors 2011

Diets are not consumed in isolation but are the product of a complex interplay between individuals’ economic circumstances(Reference Rose1Reference Friel, Walsh and McCarthy3), their social networks(Reference Beardsworth and Keil4) and cultural beliefs(Reference Beardsworth and Keil4, Reference Johansson, Thelle and Solvoll5) against the backdrop of both their individual(Reference De Bourdeaudhuij and Van Oost6, Reference Friel, Kelleher and Nolan7) and global environments(Reference Nestle8) and broader lifestyle behaviours(Reference Caton, Bate and Hetherington9Reference Stryker, Kaplan and Stein11). The impact of poor dietary habits on health outcomes is an important focus of contemporary health promotion strategies. It is recognised that the social determinants of dietary behaviour are multifaceted. Research that clarifies the determinants of dietary behaviour should help us target health promotion initiatives more effectively.

Many indices have been developed over the past decades to assess dietary quality within specific populations on the basis of national dietary guidelines(Reference Fung, Chiuve and McCullough12Reference Franson and Ocké14). Recently, the Dietary Approaches to Stop Hypertension (DASH) score was developed to assess adherence to the ‘DASH eating plan’, which has been successfully shown to substantially reduce blood pressure among hypertensive and normotensive adults(Reference Fung, Chiuve and McCullough12) and reduce LDL cholesterol levels(Reference Obarzanek, Sacks and Vollmer15). Adherence to a DASH-style diet has also been associated with a lower risk of CHD and stroke, particularly among middle-aged women over a 24-year period(Reference Fung, Chiuve and McCullough12), highlighting the potential long-term benefits of the DASH diet in preventing CVD and other chronic diseases among healthy adults.

Using a DASH score as an index of dietary quality, we examined the sociodemographic predictors of a poor-quality diet with reference to social indicators (social support, food poverty (FP) and self-perceived area deprivation), lifestyle behaviours (smoking status and alcohol consumption) and health outcomes (BMI and pre-existing diabetes).

Methods

Study design

The present survey was the third Health and Lifestyle Survey in Ireland conducted in 2007(Reference Morgan, McGee and Watson16Reference Kelleher, Nic Gabhainn and Friel18) involving a nationally representative sample of 10 364 adults (62 % response rate) to whom a detailed health and lifestyle questionnaire was administered by interview. A total of 9223 (89 %) adults completed the FFQ, which was an adapted version of the one used in the European Prospective Investigation into Cancer and Nutrition(Reference Riboli and Kaaks19) validated for use in the Irish population(Reference Harrington20). Participants who did not complete the FFQ were excluded from the present analysis.

Sampling

The survey population comprised adults aged ≥18 years living in private households in Ireland. Full details of the sampling frame can be found elsewhere(Reference Morgan, McGee and Watson16). In summary, the sampling frame used was the GeoDirectory, a list of all addresses in the Republic of Ireland, distinguishing between residential and commercial establishments. It was a multistage probability sample, where each dwelling had a known probability of selection. The sample was weighted to closely approximate the Census 2006 figures for gender, age, marital status, education, occupation, region, household size and ethnicity.

FFQ

Full details of the FFQ have been documented elsewhere(Reference Harrington, Perry and Lutomski21). Participants were asked to indicate their average use of food items during the previous year. The frequency of consumption of a medium serving or a common household unit was asked for each food item and later converted into quantities using standard portion sizes. The frequency categories were ‘never or less than once a month’, ‘1–3 times/month’, ‘1 time/week’, ‘2–4 times/week’, ‘5–6 times/week’, ‘1 time/d’, ‘2–3 times/d’, ‘4–5 times/d’ and ‘≥6 times/d’. Individual food items were combined into food groups, with like-constituent foods being grouped together.

Dietary quality assessment

On the basis of a validated study by Fung et al.(Reference Fung, Chiuve and McCullough12), we constructed a DASH score for each FFQ respondent. This was a composite score derived from standard food groups within the FFQ as described by Fung et al.(Reference Fung, Chiuve and McCullough12). For each food group, consumption was divided into quintiles and participants were classified according to their intake ranking. Consumption of healthy food components was rated on a scale of 1–5: the higher the score the more frequent the consumption of that food; that is, those in quintile 1 had the lowest consumption and received a score of 1; conversely, those in quintile 5 had the highest consumption and received a score of 5. Less-healthy dietary constituents, where low consumption is desired, were scored on a reverse scale, with lower consumption receiving the higher scores. Component scores were summed up and an overall DASH score for each person was calculated; a lower score indicated a poor dietary quality.

Health and lifestyle questionnaire

Sociodemographic characteristics

The European Socio-Economic Classification (ESeC) was used to examine social class differences in dietary quality. ESeC was developed by the European Commission for comparative social analysis and is the official European social classification(Reference Rose and Harrison22). It aims to differentiate positions within labour markets and production units in terms of their typical ‘employment relations’. ESeC differentiates among employees according to their source of income, economic security and prospects of economic advancement, as well as on the basis of their location with regard to systems of authority and control at work. Data on occupational position were coded to the International Standard Classification of Occupations 1988. This information combined with employment status, supervisory or management position and number managed or employed yields the ESeC position(Reference Rose and Harrison22). In its complete form, ESeC differentiates between nine class locations. We used a collapsed form that identified four classes and an unknown/unclassified grouping. The classifications were as follows:

  • 1. Large employers/professionals/managers.

  • 2. Intermediate/lower supervisory and technicians.

  • 3. Self-employed and small employers.

  • 4. Lower sales/service/lower technical and routine occu pations.

  • 5. Unknown/unclassified.

Where individuals were currently not in the labour market, information on their most recent job was requested. Information on the ESeC position of the main earning member in the household was sought. This information was used to construct a household class using the dominance procedure, where the position of the individual with the highest class position in the household was taken as that of the household(Reference Erikson and Goldthorpe23).

Behavioural and lifestyle characteristics

A ‘current smoker’ was defined as one who smoked ‘every day’ or on ‘some days’ or one who stated ‘having smoked at least 100 cigarettes during my lifetime’. Respondents were classified as either current smokers or non-smokers. Average alcohol consumption was estimated as the units of alcohol consumed per week. A single question was included on self-rated health. Respondents were asked to rate their health on a 5-point scale ranging from ‘excellent’ to ‘poor’. Respondents were asked whether they had experienced any chronic illness, including diabetes, from a predefined list in the past 12 months.

International Physical Activity Questionnaire

A series of questions were asked relating to the time spent being physically active. The responses were used to calculate the International Physical Activity Questionnaire score for each respondent (http://www.ipaq.ki.se/scoring.pdf). These scores were classified as high (approximately equivalent to >10 000 steps/d), moderate (approximately equivalent to 5000–10 000 steps/d) or low (approximately equivalent to <5000 steps/d). For this analysis, a binary variable was created: ‘low’ or ‘moderate/high’, with ‘low’ defined as being physically inactive.

BMI

SLÁN 2007 respondents were asked to self-report their own height and weight. BMI was calculated as weight in kilograms divided by the square of height in metres (kg/m2) and individuals were classified as overweight or obese on the basis of a BMI ≥25·00 kg/m2 or ⩾30·00 kg/m2, respectively.

Social indicators

Food poverty

FP was assessed by asking ‘Can you afford to buy the foods you want?’ Responses permitted were ‘always’, ‘usually’, ‘sometimes’, ‘rarely’ and ‘never’. Participants were grouped as having ‘no FP’ if they responded ‘always’, ‘possible FP’ if they responded ‘usually’ and ‘probable FP’ if they responded ‘sometimes’, ‘rarely’ or ‘never’.

Social support

Three questions on social support structures were asked: ‘How many people are so close to you that you can count on them if you have serious personal problems?’ Responses permitted were ‘none’, ‘one or two’, ‘three to five’ and ‘more than five’. ‘How much friendly interest do people take in what you are doing?’ Responses permitted were ‘a lot’, ‘some’, ‘uncertain’, ‘little’ and ‘none’. ‘How easy is it to get practical help from your neighbours if you should need it?’ Permitted responses were ‘very easy’, ‘easy’, ‘possible’, ‘difficult’ and ‘very difficult’. These questions formed the Oslo Social Support Scale(Reference Brevic and Dalgard24). Details of the social support measures have been reported elsewhere(Reference Barry, Van Lente and Molcho25).

Area deprivation

Respondents were asked ‘How much of a problem are each of the following in your neighbourhood/area – rubbish or litter lying around; vandalism and deliberate damage to property; insults or attacks to do with someone's race or colour; house break-ins; poor public transport; lack of food shops/supermarkets that are easy to access; graffiti on walls or buildings; people being drunk in public; lack of open public places’. Permitted answers were ‘a big problem’, ‘a bit of a problem’ and ‘not a problem’. An area-deprivation score was calculated on the basis of responses. Scores ranged from 1 (a big problem) to 3 (no problem) for each problem, and an overall score ranged between 9 and 27. The score was collapsed into a categorical variable with four options: ‘no’, ‘low’, ‘medium’ or ‘high’ self-perceived area deprivation.

Statistical analysis

Data were analysed using the Statistical Package for the Social Sciences statistical software package version 17·0 (SPSS Inc., Chicago, IL, USA). Associations between mean DASH scores and demographic, lifestyle and behavioural characteristics have been described using ANOVA.

Relationship between dietary quality (DASH score) and hypothesised predictor variables was assessed using univariate analysis and an ordinal logistic regression. The DASH score was collapsed to an ordinal variable on the basis of DASH score quintiles and entered as the dependent variable. A poor diet was defined as a DASH score in the lowest quintile. We present results as unadjusted; gender-stratified age adjusted; age, gender and social class adjusted; and fully adjusted.

Results

We have reported previously on the overall general characteristics of the study population(Reference Morgan, McGee and Watson16, Reference Harrington, Perry and Lutomski27). In summary, the age, gender and sociodemographic profiles of respondents were comparable to the Census 2006 figures. Internal consistency of the DASH score was tested against variables not included in the original score. Respondents who rarely consumed fried food had higher mean DASH scores (26·3 (sd 4·7)) compared with those who consumed fried food daily (21·9 (sd 4·2)). Respondents who ‘rarely’ added salt to food at the table had higher mean DASH scores (26·2 (sd 4·8)) compared with those who ‘always/usually’ added salt to food (23·6 (sd 4·6)). On the basis of Cohen's standard effect size cut-off points(Reference Cohan26), changes in DASH scores of 2·42, 1·45 and 0·48 represent a large, moderate or small effect size, respectively. Using the DASH score in the way it is reported does not necessarily measure adherence to the DASH diet per se. Table 1 shows the comparison of the DASH score across quintiles with the DASH diet recommendations. Those in the highest quintile (the best-quality diet) met the recommendations for fruit, vegetables and whole grain consumption. They also had the lowest consumption of red processed meat and salty snacks and the lowest Na intake compared with those in the lowest quintile (the worst-quality diet). Table 2 shows the unadjusted mean DASH scores presented by gender for key indicators, and Figs 1a and 1b present the age-adjusted OR for the likelihood of having a poor-quality diet (a DASH score in the lowest quintile). In the age-adjusted model, education, marital status and employment group remained significant demographic factors associated with dietary quality for men and women. Lifestyle behaviours also remained significant predictors of dietary habits. Being a smoker and a non-moderate drinker was significantly associated with poor-quality diet (Figs 1a and 1b). Individual health outcomes associated with poor dietary quality differed somewhat between men and women in the age-adjusted models. Non-diabetic men had higher odds of having low DASH scores compared with diabetic respondents. Women who were classified as underweight (BMI ⩽ 18·49 kg/m2) had significantly higher odds of having low DASH scores compared with normal-weight women. BMI status did not affect the dietary quality of men. In the age-adjusted model, the impact of social indicators on dietary quality differed between men and women (Figs 1a and 1b, respectively). Men with poor social support had higher odds (borderline significant) of having poor-quality diets compared with those with strong social support. Social support did not influence dietary quality in women. The presence of FP significantly affected dietary quality in men and women. Those with probable FP had higher odds of having poor-quality diets compared with those with no FP.

Table 1 Comparison of DASH score with DASH diet recommendations: number of daily servings of food groups according to DASH score quintile

DASH, Dietary Approaches to Stop Hypertension.

Table 2 Unadjusted mean DASH scores by gender and key demographic and lifestyle factors

DASH, Dietary Approaches to Stop Hypertension.

*Results presented are stratified by gender; P values relate to overall significant difference in DASH score across the predictor indicators independent of gender.

Fig. 1a Age-adjusted prevalence OR for poor-quality diet (DASH score in the lowest quintile) for men (DASH, Dietary Approaches to Stop Hypertension; IPAQ, International Physical Activity Questionnaire)

Fig. 1b Age-adjusted prevalence OR for poor-quality diet (DASH score in the lowest quintile) for women (DASH, Dietary Approaches to Stop Hypertension; IPAQ, International Physical Activity Questionnaire)

Table 3 shows the regression model adjusted for age, gender and social class, as well as the fully adjusted model. In the fully adjusted model, education and social class remained significantly associated with poor-quality diet. Respondents with low educational level had twice the odds of having a DASH score in the lowest quintile compared with those with tertiary education (OR = 2·0, 95 % CI 1·69, 2·24). Lifestyle behaviours also remained significant influencing factors on dietary quality. Smokers had significantly higher odds of having poor-quality diets compared with non-smokers. A U-shaped trend was evident with alcohol consumption. Compared with moderate drinkers (1 to <7 units/week), non-drinkers had significantly higher odds of having poor-quality diets. The likelihood of having a poor-quality diet further increased with increased consumption of alcohol. Respondents who consumed more than 21 units of alcohol per week had almost twice the odds of having poor-quality diets compared with moderate drinkers. In the fully adjusted model (Table 3), health outcomes significantly affected dietary quality. Those with low levels of physical activity had higher odds of having poor-quality diets. Non-diabetic respondents had higher odds of having poor-quality diets compared with diabetic respondents. Underweight respondents had almost twice the odds of having poor-quality diets compared with normal-weight respondents. Rating one's general health as fair or poor increased the likelihood of having a poor diet compared with rating one's general health as excellent. In the fully adjusted model, the relationship between FP and dietary quality remained significant (P = 0·02), whereas the relationships between dietary quality and social support and between dietary quality and self-perceived area deprivation were attenuated.

Table 3 Sociodemographic, lifestyle and health predictors of poor-quality diet for men and women

*Linear test for trend.

†Model adjusted for age and gender, and all listed variables.

Discussion

Principal findings

The present research yielded four primary results. First, education and social class were associated with dietary quality. Second, lifestyle behaviours, in particular smoking status (being a smoker) and alcohol consumption (non-moderate consumption), significantly affected dietary quality. Third, BMI status (being underweight) and diabetes status (non-diabetic) were key indicators of poor dietary quality. Finally, adjustment at the individual level attenuated the relationship between social indicators and dietary quality.

These analyses aimed to explore the differences among predictors of dietary quality, particularly those influenced by gender and sociodemographic factors. It is well documented that men and women have different dietary patterns, and we expected differences to exist in the determinants of dietary quality. Therefore, we were surprised at the significant lack of differences in the main predictors of poor-quality diets between men and women.

Possible weaknesses

Limitations of the study include the cross-sectional design and the relatively low response rate (62 %). However, this is similar to the response rates found in other major National Health and Lifestyle Surveys(Reference Friel, Nic Gabhainn and Kelleher17, Reference Kelleher, Nic Gabhainn and Friel18). Data on non-participation were not available; however, sample weights were used, derived from the most recent Census(28). Caution had to be exercised when interpreting the results of the cross-sectional study. The exposure measurement of dietary intake could be influenced by a recall bias of the FFQ. Although the FFQ used in the present study had been validated previously for use in this population(Reference Kelleher, Nic Gabhainn and Friel18, Reference Harrington20, Reference Friel, Nic Gabhainn and Kelleher29), all measurement errors associated with this retrospective method of dietary assessment were applicable. Social class was associated with poor-quality diet. However, given the cross-sectional design of the present study, it was not possible to determine the causal pathway of this association. Smoking and alcohol status were associated with dietary quality in the present study. However, we could not dismiss the possibility of reverse causation. The determinants of food choice and dietary behaviour are multifactorial – associations found in cross-sectional studies are not, by themselves, evidence of causality. Irrespective of the direction of causation, these modifiable behaviours have the potential to reduce morbidity and mortality from CVD and type 2 diabetes.

Implications of our findings

Lower levels of education and social class are significant predictors of poor dietary quality. Level of education significantly influences occupational attainment, social class and therefore income(Reference Erikson and Goldthorpe23). Lower income is strongly associated with a less-healthy diet(Reference Friel, Walsh and McCarthy3, Reference Dowler30, Reference Friel and Conlon31). Even after controlling for social class, a more efficient measure of permanent or long-run income, level of education remains a significant predictor of dietary quality. This could suggest that education may also measure differences in levels of knowledge on health and cultural preferences that may also influence health behaviours, and diet and nutrition in particular(Reference Waijers, Feskens and Ock13).

In the battle against preventable chronic diseases, primary prevention through lifestyle and diet is essential and the present study highlights the importance of including measures of lifestyle in the interpretation of dietary quality and diet–disease relationships. We have highlighted a number of areas for further investigation. Given the U-shaped relationship between dietary quality and alcohol consumption, clarifying the causal pathway between the two is important in the study of diet–cardiovascular and alcohol–cardiovascular relationships. Further, the use of a composite dietary quality score, such as the DASH score, to address the issue of confounding by diet in the relationship between alcohol consumption and health merits further investigation. We have highlighted the fact that underweight has a more detrimental effect on dietary quality compared with overweight and obesity. It may be that these underweight individuals have lower food diversity and consume lower quantities of all foods, including healthy foods. Diet is an important component of the treatment of type 2 diabetes. Some studies suggest that individuals with diabetes may not follow the recommended dietary guidelines(Reference Toeller, Klischan and Heitkamp32, Reference Virtanen and Feskens33). As expected, in the current study, being diabetic was a significant positive influencing factor on dietary quality among men.

Conclusion

Our findings emphasise the fact that dietary quality is strongly associated with social class and educational attainment and is influenced by core lifestyle behaviours. Results from prospective cohort studies confirm the importance of dietary and nutritional behaviours in preventing and reducing the risk of mortality(Reference Kant34, Reference Khaw, Wareham and Bingham35) and morbidity(Reference Villegas36Reference Villegas, Salim and Flynn40). However, lifestyle behaviours are not always included in studies that explore dietary quality and diet–disease relationships. Given the unequivocal diet–disease relationship, it is essential to explore the determinants of low-quality diet and contribute to the evidence base for public policy, health promotion and clinical practice on the prevention and management of chronic diseases. The present study highlights the importance of including measures of lifestyle in the interpretation of dietary quality and diet–disease relationships. It also highlights the need for a greater emphasis on health protection as opposed to traditional health educational measures in approaches to tackling chronic diseases.

Acknowledgements

The present study was funded through the HRB Centre for Diet and Health Research. SLÁN was funded by the Department of Health and Children. The authors have no conflict of interest to declare. SLÁN 2007 was approved by the Ethics Committee of the Royal College of Surgeons of Ireland. J.H. worked as a senior researcher on the SLÁN 2007 study, is one of the authors of the main SLÁN 2007 report and had a major role in data analysis and interpretation; she worked on the statistical analysis and had primary responsibility for the final content of the paper; she is the guarantor. I.J.P. was the principal investigator of SLÁN 2007 and contributed to study design, data analysis and interpretation; he co-wrote the paper. J.L. is one of the authors of the main SLÁN 2007 report and had a major role in data analysis and interpretation and made revisions to the paper. A.P.F. was the statistical consultant for this paper. R.L. was a senior research and economic analyst on SLÁN 2007; he provided statistical advice and made revisions to the paper. M.M. was a senior researcher on SLÁN 2007; she made revisions to the paper. All authors approved the final version of the paper for publication. The authors thank other SLÁN 2007 Consortium members for their contribution to this research. Consortium members: Professor Hannah McGee (Project Director, RCSI), Professor Ivan Perry (Principal Investigator (PI), UCC), Professor Margaret Barry (PI, NUIG), Dr Dorothy Watson (PI, ESRI), Dr Karen Morgan (Research Manager, RCSI), Dr Emer Shelley (RCSI), Professor Ronan Conroy (RCSI), Professor Ruairí Brugha (RCSI), Dr Michal Molcho (NUIG), Ms Janas Harrington (UCC), Professor Richard Layte (ESRI), Ms Nuala Tully (RCSI), Ms Jennifer Lutomski (UCC), Mr Mark Ward (RCSI) and Mr Eric Van Lente (NUIG).

References

1.Rose, D (1999) Economic determinants and dietary consequences of food insecurity in the United States. J Nutr 129, 2S Suppl., 517S520S.CrossRefGoogle ScholarPubMed
2.Ludwig, DS & Pollack, HA (2009) Obesity and the economy: from crisis to opportunity. JAMA 301, 533535.CrossRefGoogle ScholarPubMed
3.Friel, S, Walsh, O & McCarthy, D (2006) The irony of a rich country: issues of financial access to and availability of healthy food in the Republic of Ireland. J Epidemiol Community Health 60, 10131019.CrossRefGoogle ScholarPubMed
4.Beardsworth, A & Keil, T (1997) Sociology on the Menu. New York: Routledge.Google Scholar
5.Johansson, L, Thelle, DS, Solvoll, K et al. (1999) Healthy dietary habits in relation to social determinants and lifestyle factors. Br J Nutr 81, 211220.CrossRefGoogle ScholarPubMed
6.De Bourdeaudhuij, I & Van Oost, P (2000) Personal and family determinants of dietary behaviour in adolescents and their parents. Psychol Health 15, 751770.CrossRefGoogle Scholar
7.Friel, S, Kelleher, CC, Nolan, G et al. (2003) Social diversity of Irish adults nutritional status. Eur J Clin Nutr 57, 865875.CrossRefGoogle Scholar
8.Nestle, M (2007) Food Politics: How the Food Industry Influences Nutrition and Health, 3rd ed. Berkeley, CA: University of California Press.CrossRefGoogle Scholar
9.Caton, SJ, Bate, L & Hetherington, MM (2007) Acute effects of an alcohol drink on food intake: aperitif versus co-ingestion. Physiol Behav 90, 368375.CrossRefGoogle ScholarPubMed
10.Ma, J, Hampl, JS & Betts, NM (2000) Antioxidant intakes and smoking status: data from the continuing survey of food intakes by individuals 1994–1996. Am J Clin Nutr 71, 774780.CrossRefGoogle ScholarPubMed
11.Stryker, WS, Kaplan, LA, Stein, EA et al. (1998) The relationship of diet, cigarette smoking and alcohol consumption to plasma beta-catorene and alpha-tocopherol levels. Am J Epidemiol 127, 283296.CrossRefGoogle Scholar
12.Fung, TT, Chiuve, SE, McCullough, ML et al. (2008) Adherence to a DASH-style diet and risk of coronary heart disease and stroke in women. Arch Intern Med 168, 713720.CrossRefGoogle ScholarPubMed
13.Waijers, P, Feskens, E & Ock, M (2007) A critical review of predefined diet quality scores. Br J Nutr 97, 219231.CrossRefGoogle ScholarPubMed
14.Franson, H & Ocké, M (2008) Indeces of diet quality. Curr Opin Clin Nutr Metab Care 11, 559565.CrossRefGoogle Scholar
15.Obarzanek, E, Sacks, FM, Vollmer, WM et al. (2001) Effects on blood lipids of a blood pressure-lowering diet: the Dietary Approaches to Stop Hypertension (DASH) trial. Am J Clin Nutr 74, 8089.CrossRefGoogle ScholarPubMed
16.Morgan, K, McGee, H, Watson, D et al. (2008) SLÁN 2007: Survey of Lifestyles, Attitudes and Nutrition in Ireland. Main Report. Dublin: Department of Health and Children.Google Scholar
17.Friel, S, Nic Gabhainn, S & Kelleher, C (1999) The National Lifestyle Surveys: Survey of Lifestyle, Attitudes and Nutrition (SLÁN) and the Irish Health Behaviour in School-Aged Children Survey (HBSC). Dublin: Department of Health and Children.Google Scholar
18.Kelleher, C, Nic Gabhainn, S, Friel, Set al. (2003) The National Health and Lifestyle Surveys: Survey of Lifestyle, Attitudes and Nutrition (SLÁN) and The Irish Health Behaviour in School-Aged Children Survey (HBSC). Dublin: Department of Health and Children.Google Scholar
19.Riboli, E & Kaaks, R (1997) The EPIC Project: rationale and study design. Int J Epidemiol 26, Suppl. 1, S6S13.CrossRefGoogle ScholarPubMed
20.Harrington, J (1997) Validation of a Food Frequency Questionnaire as a Tool for Assessing Nutrient Intake. Galway: NUI, Galway.Google Scholar
21.Harrington, J, Perry, IJ, Lutomski, J et al. (2008) SLAN 2007: Survey of Lifestyles, Attitudes and Nutrition in Ireland. Dietary Habits of the Irish Population. Dublin: The Stationery Office.Google Scholar
22.Rose, D & Harrison, E (2007) The European socio-economic classification: a new social class schema for European research. Eur Soc 9, 459490.CrossRefGoogle Scholar
23.Erikson, R & Goldthorpe, J (1992) The Constant Flux: A Study of Class Mobility in Industrial Societies. Oxford: Clarendon Press.Google Scholar
24.Brevic, J & Dalgard, O (1996) The Health Profile Inventory. Oslo: University of Oslo.Google Scholar
25.Barry, MM, Van Lente, E, Molcho, M et al. (2009) SLÁN 2007: Survey of Lifestyle, Attitudes and Nutrition in Ireland. Mental Health and Social Well-being Report. Dublin: The Stationery Office.Google Scholar
26.Cohan, J (1998) Power Analysis for the Behavioural Sciences. Mahwah, NJ: Lawrence Applebaum Associates.Google Scholar
27.Harrington, J, Perry, IJ, Lutomski, J et al. (2008) SLAN 2007: Survey of Lifestyles, Attitudes and Nutrition in Ireland. Dietary Habits of the Irish Population. Dublin: The Stationery Office.Google Scholar
28.Central Statistics Office (2007) Census 2006. vol. 8: Occupations. Dublin: The Stationery Office.Google Scholar
29.Friel, S, Nic Gabhainn, S & Kelleher, C (1999) The National Lifestyle Surveys: Survey of Lifestyle, Attitudes and Nutrition (SLÁN) and the Irish Health Behaviour in School-Aged Children Survey (HBSC). Dublin: Department of Health and Children.Google Scholar
30.Dowler, E (1998) Food poverty and food policy. IDS Bull 29, 5865.CrossRefGoogle Scholar
31.Friel, S & Conlon, C (2004) Food Poverty and Policy. Ireland: Combat Poverty Agency.Google Scholar
32.Toeller, M, Klischan, A, Heitkamp, G et al. (1996) Nutritional intake of 2868 IDDM patients from 30 centres in Europe. Diabetologia 39, 929939.CrossRefGoogle ScholarPubMed
33.Virtanen, SM & Feskens, EJM (2000) Comparison of diets of diabetic and non-diabetic elderly men in Finland, The Netherlands and Italy. Eur J Clin Nutr 54, 181186.CrossRefGoogle ScholarPubMed
34.Kant, AK (2004) Dietary patterns and health outcomes. J Am Diet Assoc 104, 615635.CrossRefGoogle ScholarPubMed
35.Khaw, KT, Wareham, N, Bingham, S et al. (2008) Combined impact of health behaviours and mortality in men and women: the EPIC-Norfolk prospective population study. PLoS Med 5, e12.CrossRefGoogle ScholarPubMed
36.Villegas, R (2002) The role of diet and other environmental modifiable risk factors in the development of type 2 diabetes. PhD Thesis, University College Cork.Google Scholar
37.Villegas, R, Creagh, D, Hinchion, R et al. (2004) Prevalence and lifestyle determinants of the metabolic syndrome. Ir Med J 97, 300303.Google ScholarPubMed
38.Villegas, R, Kearney, PM & Perry, IJ (2008) The cumulative effect of core lifestyle behaviours on the prevalence of hypertension and dyslipidemia. BMC Public Health 8, 210.CrossRefGoogle ScholarPubMed
39.Villegas, R, Perry, IJ, Creagh, D et al. (2003) Prevalence of the metabolic syndrome in middle-aged men and women. Diabetes Care 26, 31983199.CrossRefGoogle ScholarPubMed
40.Villegas, R, Salim, A, Flynn, A et al. (2004) Prudent diet and the risk of insulin resistance. Nutr Metab Cardiovasc Dis 14, 334343.CrossRefGoogle ScholarPubMed
Figure 0

Table 1 Comparison of DASH score with DASH diet recommendations: number of daily servings of food groups according to DASH score quintile

Figure 1

Table 2 Unadjusted mean DASH scores by gender and key demographic and lifestyle factors

Figure 2

Fig. 1a Age-adjusted prevalence OR for poor-quality diet (DASH score in the lowest quintile) for men (DASH, Dietary Approaches to Stop Hypertension; IPAQ, International Physical Activity Questionnaire)

Figure 3

Fig. 1b Age-adjusted prevalence OR for poor-quality diet (DASH score in the lowest quintile) for women (DASH, Dietary Approaches to Stop Hypertension; IPAQ, International Physical Activity Questionnaire)

Figure 4

Table 3 Sociodemographic, lifestyle and health predictors of poor-quality diet for men and women