Socioeconomic inequality in non-communicable diseases in Europe between 2004 and 2015: evidence from the SHARE survey

Abstract

Background

The scope of this work was to investigate socioeconomic inequalities among European adults aged 50 or older in chronic diseases and behavioural risk factors for these diseases, namely, smoking habits, obesity and physical inactivity, between 2004 and 2015.

Methods

Data for this study were drawn from the Survey of Health, Ageing and Retirement (SHARE) in Europe, which is a panel database of microdata on health, socioeconomic status and social and family networks of people aged 50 years or older, covering most of the European Union. The predicted number of non-communicable diseases (NCDs) was used to estimate the concentration index and to find the contributions of determinants to socioeconomic inequalities in chronic diseases.

Results

The inequality disfavoured the poor in both years, but the effect was stable from 2004 (C = −0.071) to 2015 (C = −0.081). Inequality was shown to be attributed mostly to physical inactivity and obesity and this contribution increased during the study period. Among socioeconomic status (SES) determinants, education and marital status were the most concentrated in both years, while physical inactivity and obesity were the most concentrated behavioural risk factors in both years.

Conclusions

To prevent chronic diseases, health policy should aim not only to improve individual health behaviours in the population, but also to reduce socioeconomic inequality. Our study suggests promoting a healthy lifestyle in the most disadvantaged socioeconomic classes as a strategy to improve the health conditions of the whole population.

Introduction

In Europe, the main non-communicable diseases (NCDs), including diabetes, cardiovascular diseases, cancer, chronic respiratory diseases and mental disorders, account for an estimated 86% of the deaths and 77% of the disease burden. Of the six WHO regions, the European Region is the most affected by NCDs.¹ It has been shown that at least 80% of all heart disease, stroke and type 2 diabetes and at least one-third of cancer cases are avoidable.² The WHO NCD global surveillance strategy is based on a multidimensional view of disease determinants including physiological influences, lifestyle influences, environmental influences and social structure.³

At present, there are about 166 million people aged 60 years and older in Europe, more than double compared to the 1950s’, and one out of five is older than 80. People aged 60 or older represent 22% of all Europeans, a proportion which is double compared to the rest of the world.⁴

There is abundant literature about the prevalence of NCDs and their determinants, but the large inequalities that exist in health outcomes and in the utilization of health services between the poor and the better-off lead to questions about health inequalities in NCDs and Behavioural Risk Factors (BRFs) for NCDs.

At a global level, there is evidence that NCD rates are higher in economically disadvantaged people than in those with higher socioeconomic status, both within high-income countries⁵ and within low- and middle-income countries.⁶

At a European level, the literature on socioeconomic inequalities in self-rated health gives evidence of existing differences among countries in the association of income inequality and income-related health gradient,^7,8 of socioeconomic status and states of health as a result of contextual differences.⁹ Other studies show socioeconomic inequalities in mortality rates,^10–12 and both in mortality and self-rated health.¹³ Pasqualini et al.¹⁴ show that chronic disease is influenced by people’s circumstances (such as region of residence and parental background) and that the Gini concentration index is a statistically significant explanatory variable. Regarding BRFs for NCDs, socioeconomic inequalities have been shown in overweight/obesity,¹⁵ in alcohol-related mortality,¹⁶ in occupational, leisure-time and transport-related physical activity¹⁷ and in tobacco consumption.¹⁸ The effect of lifestyle on income-related inequality in health and the statistical significance of smoking-related and income-related inequality in self-reported and lifestyle ill-health has been demonstrated.¹⁹

The scope of this paper is to investigate socioeconomic inequalities among European adults aged 50 or older in NCDs and BRFs for NCDs, in particular tobacco consumption, obesity and physical activity, between 2004 and 2015.

Methods

The sample

This paper is based on data of the first and the sixth wave of the SHARE survey,^20,21 which is a multidisciplinary and cross-national panel database of micro data on health, socio-economic status and social and family networks. The fieldwork time of this survey is 2004 for the first wave and 2015 for the sixth wave.²² The number of European countries involved varies from 12 in 2004 to 21 in 2015, including Israel.

The SHARE target population consists of all persons aged 50 or older at the time of interview whose habitual residence is in the respective country involved in the SHARE survey. The SHARE sample is randomly selected to be nationally representative of the European non-institutionalized population aged 50 or older. The household response rate of the samples supported by the original funding from the European Commission’s 5th framework programme is 63.3%. The individual (i.e. within-household) response rate in the first wave varies from a minimum of 73.7% in Spain to a maximum of 93.3% in France. SHARE provides an imputation dataset that solves estimation problems with missing values in sensible variables such as income or related lifestyle variables.²³

For the purposes of the current investigation and to address health inequality and inequity, the analysis includes individuals living in 10 countries present in both waves (Austria, Germany, France, Switzerland, Belgium, Denmark, Sweden, Spain, Italy, Greece), which yields a study population of 25 016 people in 2004 and 43 916 in 2015.

Variables

SHARE provides information on a large number of indicators and measures of health. As health outcome, in this analysis we consider the number of chronic diseases diagnosed in the respondent’s lifetime. As BRFs for NCDs, we include core behavioural and physiological risk factors for NCDs that meet the criteria for surveillance.³ Specifically, we include being a current smoker (yes/no), obese (yes/no) and physically inactive (yes/no), while we do not consider drinking habits because of excessive missing data. For the purpose of this study, obese is defined by a body mass index over 30. These risk factors are included for several reasons: they have the greatest impact on NCD mortality and morbidity; there is evidence that their modification is possible and effective in primary prevention; they can be measured with validity while following appropriate ethical standards and it is possible to obtain data for meaningful comparisons across countries.³ Demographic and socioeconomic status (SES) variables include gender, age, education, marital status, working status, income and wealth. We measure educational attainment according to ISCED, the international standard classification of education; marital status as a binary variable (couple and not-in-couple) and the working status through six categories (retired, employed/self-employed, unemployed, permanently sick/disabled, homemaker and other).

Income is obtained as the sum of income from employment, self-employment, pension, regular private transfers, long-term care and capital assets income (interest from bank accounts, bonds, stocks or shares or mutual funds) at the household level. Wealth is measured as the sum of household income plus total assets (also referred to as net worth). Total assets are the sum value of the primary residence net of mortgage, value of other real estate, owned share of own business, owned cars and the value of financial assets (bank accounts, government and corporate bonds, stocks, mutual funds, individual retirement accounts and contractual savings for housing and life insurance policies owned by the household) minus financial liabilities.²⁴

Statistical methods

In this paper, we measure inequality in health using the ill-health concentration index (C),²⁵ with the number of NCDs as the ill-health indicator (illness is increasing by growing number of NCDs). We ranked adults according to their wealth, we divided the sample into quintiles and calculated the proportion of NCDs within each quintile. The concentration curve is the plot of the cumulative proportion of the number of NCDs (y-axis) against the cumulative proportion of the population ranked by wealth (x-axis), beginning from the least disadvantaged. The ill-health C is defined as twice the area between the concentration curve and the diagonal. When the concentration curve coincides with the diagonal, the ill-health C is zero and everyone enjoys the same health. When the concentration curve lies above the diagonal, there are inequalities to the disadvantage of the poorest people and the C is negative. Conversely, inequalities to the disadvantage of the richest people push the concentration curve below the diagonal and the C is then more than zero. The further the concentration curve lies from the diagonal, the greater the degree of inequality of health across wealth groups.

Following the approach used by Hosseinpoor et al.,²⁶ in a first phase a negative binomial regression (NB) model is estimated to predict the number of NCDs with regards to a set of covariates, including socio-economic determinants and BRFs; in a second phase, the C index and the decomposition of inequality in NCDs in linear scores are estimated. The C index is calculated on the basis of predicted number of NCDs to obtain a continuous response variable, which allows the fulfilment of assumptions for linear decomposition. To assess the goodness of fit of NB model, the LR test for dispersion parameter is performed.

The C can be decomposed in the sum of the covariates’ contributions and a residual component, which reflects the inequality in NCDs that cannot be explained by systematic variations across wealth groups in the covariates. To calculate the relative contribution of each determinant, we multiply the concentration index of each determinant C_k by its contribution weight and divide it by the overall C.²⁷ Overall inequality can be decomposed as the sum of justified inequality (arising from standardizing variables, that are beyond the control of policy makers, i.e. age and gender), unjustified inequality, also called inequity, (arising from control variables such as socioeconomic health determinants) and residual inequality. The inequity index is calculated as the overall minus the justifiable inequality. This difference corresponds to the concentration index for the indirectly standardized values of gender and age.²⁸

To capture changes in inequalities between 2004 and 2015, we apply the Oaxaca-type decomposition as suggested in ref. [29]. We denote with η_kt the relative variation of NCDs divided by the relative variation of the kth determinant at time t (estimated elasticity). The elasticity measures the sensitivity of health with respect to the corresponding determinant.²⁸ The Oaxaca-type decomposition allows us to measure to what extent changes in inequalities in NCDs are due to changes in inequality in their determinants (ΔC·η) rather than to changes in their elasticities (Δη·η).²⁹

To show the robustness of our analysis, we analyzed the sub-population aged 65 years or older, for which we expected a minor disparity of illness compared to people 50 years or older. In addition, we performed a sensitivity analysis to investigate the effects of omitting obesity and education on the inequality decomposition. We expected a great impact because only including the complete set of core risk factors can give the best model to describe inequalities in NCDs.

We performed statistical descriptive and regression analysis using STATA/SE 14.2, while we analyzed health inequality and inequity using ADEPT 5.4, freely available at http://web.worldbank.org.

Results

The mean age of the sample is 64.4 in 2004 and 67.8 in 2015, and the standard deviation is almost unchanged during the period (10.5). In both years, women represent slightly more than half of the sample and nearly two-thirds of the sample live in a couple. The proportion of retired people is over 50% in both years and the number of subjects who claim to have only one chronic illness prevails. In this period, the proportion of obese people increases in all countries, except for Spain and Italy. In almost all countries the percentage of smokers is below 50%, except for Sweden and Denmark. Finally, the proportion of physically inactive people generally increases, with the most active population in Switzerland and Sweden and the least active population in Italy (table 1).

Table 1.

Demographic variables, BRFs, SES determinants and number of NCDs: descriptive statistics by year

Variables	2004 N = 25 016	2015 N = 43 916	P*
	%	%
Gender
Male	44.31	44.53	0.581
Female	55.69	55.47
Marital statusa
Couple	72.58	71.71	0.020
Not in couple	27.42	28.29
Working status
Retired	49.95	55.5	<0.001
Employed	28.89	26.14
Unemployed	3.28	2.71
Permanently sick	2.73	2.9
Homemaker	14.73	10.95
Other	0.42	1.79
Educationb
Primary	35.62	26.76	<0.001
Lower secondary	15.81	15.31
Upper secondary	30.3	34.02
Tertiary	18.26	23.91
Obesity
No	82.71	80.58	<0.001
Yes	17.29	19.42
Currently smoking
No	54.1	53.93	0.682
Yes	45.9	46.07
Physical inactivity
No	89.63	87.84	<0.001
Yes	10.4	12.2
Number of non-communicable diseases
0	26.22	24.66	<0.001
1	32.25	28.84
>1	41.53	46.51

^aNot in couple include: single, widowed, divorced, legally separated.

^bAccording to the international standard classification we consider: ISCED 0–1, primary; ISCED 2, lower secondary; ISCED 3–4, upper secondary; ISCED 5–6, tertiary.

^*P-values are of Chi-square test.

Source: Share survey release 6.0.0, 2004 and 2015.

The average income decreases in the period (−13.6%) while the average wealth increases (+12.8%). Per capita mean annual household income deteriorates in all countries except for Switzerland and Belgium. Per capita mean net worth ameliorates in Austria, Germany, Sweden, Denmark, Switzerland and Belgium, while it worsens in Italy, France and Greece (data not shown in tables).

Among people aged 50 or older, the number of chronic diseases is significantly associated with all SES determinants and all BRFs, except for marital status, which is not statistically significant in 2015. Living in Spain, Denmark and Belgium in 2004 and living in Sweden and Switzerland in 2015 does not affect the number of NCDs of respondents (table 2). NB models for 2004 and 2015 fit data well (P < 0.001), as it is also confirmed by the comparison between observed and predicted number of NCDs by gender and age (Supplementary table S1).

Table 2.

Results of negative binomial regression model: coefficients and P-values, years 2004 and 2015

	2004 N = 25 016		2015 N = 43 916
	Coefficient	P-value	Coefficient	P-value
Age	0.022	0.000	0.020	<0.001
Gendera
Female	0.122	0.000	0.064	<0.001
Marital statusa
Couple	0.050	0.006	0.023	0.175
Working statusa
Retired	0.317	0.000	0.330	<0.001
Unemployed	0.202	0.000	0.203	0.001
Disabled	0.709	0.000	0.723	<0.001
Homeworker	0.264	0.000	0.299	<0.001
Other	0.349	0.000	0.411	<0.001
Educationa
Lower secondary	–0.045	0.050	–0.055	0.010
Upper secondary	–0.074	0.001	–0.088	<0.001
Tertiary	–0.058	0.028	–0.133	<0.001
Net wortha
2nd quintile	–0.063	0.006	–0.036	0.079
3rd quintile	–0.083	0.001	–0.091	<0.001
4th quintile	–0.080	0.001	–0.114	<0.001
5th quintile	–0.150	0.000	–0.179	<0.001
Incomea
2nd quintile	0.026	0.252	–0.011	0.596
3rd quintile	0.014	0.558	–0.015	0.500
4th quintile	0.015	0.565	–0.028	0.287
5th quintile	–0.035	0.232	–0.046	0.118
Smoking statusa	0.107	0.000	0.109	<0.001
Physical inactivitya	0.135	0.000	0.195	<0.001
Obesitya	0.294	0.000	0.348	<0.001
Countrya
Austria	–0.254	<0.001	0.130	<0.001
Germany	–0.060	0.031	0.311	<0.001
Sweden	–0.045	0.088	0.019	0.462
Spain	0.025	0.342	0.179	<0.001
France	–0.060	0.015	0.184	<0.001
Denmark	0.022	0.468	0.206	<0.001
Greece	–0.141	<0.001	0.107	<0.001
Switzerland	–0.338	<0.001	–0.035	0.267
Belgium	0.003	0.915	0.283	<0.001
LR test H0:α = 0b		<0.001		<0.001

^aReference categories: ‘Italy’ for country, ‘male’ for gender, ‘not-in-couple’ for marital status, ‘employed’ for working status, ‘primary’ for education, ‘1st quintile’ for income and net worth, ‘no’ for smoking status, physical inactivity and obesity.

^bα is the overdispersion parameter for negative binomial regression model.

Source: Share survey release 6.0.0, 2004 and 2015.

The inequality in the number of NCDs disfavours the poor in both years, but the effect is stable from 2004 (C = −0.071, 95%CI=[−0.075; −0.067]) to 2015 (C = −0.081, 95%CI=[−0.086; −0.077]). Conversely, the inequity at the disadvantage of the poor increases in the study period (I₂₀₀₄ = −0.045, 95%CI=[−0.047; −0.042] and I₂₀₁₅ = −0.070, 95%CI=[−0.073; −0.067]). Significant concentration increases are found in Austria, Germany and Switzerland and decreases in Italy and Denmark (table 3 and Supplementary figure).

Table 3.

Concentration and inequity by country, years 2004 and 2015: index estimates and 95%CIs

	2004		2015
	Concentration indexa	Inequity indexb	Concentration indexa	Inequity indexb
Austria	−0.070 (−0.081; −0.059)	−0.047 (−0.054; −0.040)	−0.114 (−0.125; −0.103)	−0.076 (−0.083; −0.070)
Germany	−0.085 (−0.094; −0.075)	−0.051 (−0.056; −0.046)	−0.108 (−0.116; −0.100)	−0.095 (−0.102; −0.089)
Sweden	−0.082 (−0.092; −0.073)	−0.055 (−0.060; −0.050)	−0.091 (−0.102; −0.081)	−0.064 (−0.070; −0.057)
Spain	−0.046 (−0.056; −0.036)	−0.019 (−0.025; −0.013)	−0.041 (−0.055; −0.027)	−0.025 (−0.032; −0.018)
Italy	−0.150 (−0.171; −0.129)	−0.095 (−0.107; −0.083)	−0.052 (−0.063; −0.041)	−0.047 (−0.052; −0.041)
France	−0.063 (−0.072; −0.054)	−0.043 (−0.049; −0.038)	−0.068 (−0.077; −0.059)	−0.067 (−0.073; −0.061)
Denmark	−0.235 (−0.265; −0.206)	–0.173 (–0.191; –0.155)	–0.124 (–0.132; –0.117)	–0.097 (–0.103; –0.091)
Greece	–0.107 (–0.118; –0.095)	–0.040 (–0.046; 0.033)	–0.055 (–0.065; –0.045)	–0.031 (–0.037; –0.026)
Switzerland	–0.033 (–0.054; –0.012)	–0.024 (–0.039; –0.009)	–0.078 (–0.091; –0.065)	–0.065 (–0.076; –0.055)
Belgium	–0.096 (–0.104; –0.088)	–0.070 (–0.076; –0.064)	–0.089 (–0.097; –0.081)	–0.076 (–0.082; –0.071)
Total	–0.071 (–0.075; –0.067)	–0.045 (–0.047; –0.042)	–0.081 (–0.086; –0.077)	–0.070 (–0.073; –0.067)

^aUnstandardized.

^bConcentration index with indirect standardization.

Source: Share survey release 6.0.0, 2004 and 2015.

Inequality can be mostly attributed to physical inactivity and obesity and their contribution increases in 2015 compared to 2004 (Co₂₀₀₄ = −0.007 and Co₂₀₁₅ = −0.010). Inequalities in all determinants disfavour the poor in both years. Among SES determinants, the most concentrated in both years are education (C₂₀₀₄ = 0.055 and C₂₀₁₅ = −0.059) and marital status (C₂₀₀₄ = −0.055 and C₂₀₁₅ = −0.045). Among BRFs, the most concentrated are physical inactivity in both years (C₂₀₀₄ = −0.224 and C₂₀₁₅ = −0.227) and obesity (C₂₀₀₄ = −0.124 and C₂₀₁₅ = −0.114).

The sub-population aged 65 years or older showed lower levels of disparity (C₂₀₀₄ = −0.053, 95%CI=[−0.057; −0.049] and C₂₀₁₅ = −0.077, 95%CI=[−0.081; −0.074]) compared with those found for the full study population. The contributions to inequality were stable for both obesity (Co₂₀₀₄ = −0.002 and Co₂₀₁₅ = −0.008) and physical inactivity (Co₂₀₀₄ = −0.007 and Co₂₀₁₅ = −0.010). Furthermore, our model was sensitive to the omission of obesity, with important changes of both concentration indices and contributions of smoking (0.043 in 2015 and 0.10 in 2004, after removing obesity). Omitting education caused no substantive changes in the contributions of other determinants, while only the concentration index of working status changed substantially (−0.27 in 2015 and −0.068 in 2004, after removing education).

Results of the Oaxaca decomposition are remarkable only for changes in inequalities in obesity, for which changes in inequalities (ΔC·η = −0.108) appear to be more important than changes in elasticity (Δη·C = 0.009) (table 4).

Table 4.

Concentration, elasticity, coefficients and contributions to health inequality, years 2004 and 2015

Variables	Concentration index		Contributions		Elasticities		Coefficients		Oaxaca decomposition
	2004	2015	2004	2015	2004	2015	2004	2015	ΔC·η	Δη·C	Total
Standardizing variables
Age	–0.013	–0.005	–0.023	–0.01	1.769	1.839	0.043	0.047	0.034	0.029	0.063
Gender	–0.015	–0.010	–0.003	–0.001	0.187	0.129	0.187	0.198	0.002	0.006	0.008
BRFs
Smoking	0.029	–0.022	0.001	–0.001	0.045	0.054	0.167	0.203	0.000	–0.006	–0.006
Physically inactivity	–0.224	–0.227	–0.007	–0.01	0.032	0.042	0.387	0.52	0.001	0.001	0.001
Obesity	–0.124	–0.114	–0.007	–0.01	0.06	0.091	0.544	0.766	–0.108	0.009	–0.100
SES determinants Education	0.055	–0.059	–0.007	–0.004	–0.119	–0.071	–0.081	–0.047	–0.003	–0.039	–0.042
Marital status	–0.055	–0.045	0.001	–0.002	–0.017	0.036	–0.021	0.047	–0.002	0.000	–0.002
Working status	0.008	–0.074	0.000	0.000	0.003	0.004	0.002	0.002	0.000	0.000	0.000
Residual Concentration	–0.026	–0.043
Concentration indexa	–0.071	–0.081
Inequity indexb	–0.045	–0.070

^aUnstandardized.

^aConcentration index with indirect standardization.

Source: Share survey release 6.0.0, 2004 and 2015.

Discussion

Many studies showed that NCD rates are higher in socioeconomically disadvantaged people than in groups with a higher socioeconomic position, but little is known about income and education inequalities in NCDs. One finding of this study is that NCDs are unequally distributed to the disadvantage of poor people and that this inequality can be related to differences in education and wealth more than income. People further down the social strata have less access to NCD care and treatment, especially to primary care, which can effectively reduce the exposure to some important risk factors and prevent advanced stage disease and complications.³⁰ We found that inequality in NCDs increases among European adults, aged 50 or older, living in richer countries (Austria, Germany, Sweden and Switzerland), while it decreases for those living in lower income countries (Greece, Italy, Spain). After standardizing by age and gender, the inequity analysis confirms this change for all countries except for Spain. Differences in within-country patterns depend on the stage of economic development and especially on social, economic and health policies.⁵ The economic recession has hit living standards deeply, affecting the consumption behaviour related to basic needs³¹ and determining low-quality health care and less funds allocated for disease prevention for the whole population. However, results about the impact of the current economic recession on health equity are still inconsistent because changes in health inequality can be explained by the role of welfare state policies and by changes in the socioeconomic profile of the groups under comparison in times of crisis.³²

We found education to be the main determinant of both the average number of NCDs and of socioeconomic inequalities in NCDs. European countries with higher welfare spending have lower educational inequalities in health.³³ More educated individuals have superior information acquisition skills, which increase the likelihood that they recognise and report symptoms of disease, and are quicker in accessing healthcare services for prompt treatment.³⁴

Another important result of our study relates to the role of wealth more than income to analyze inequality in NCDs, in line with another study about Mediterranean adults aged 50 or older.³⁵ In fact, income and wealth are positively related but income reflects a flow of resources which are available over a period, while wealth reflects the accumulation of resources over the life span of a person. Among adults aged 50 or older, income variability is far less than wealth variability, so wealth allows a more accurate measurement of SES differences in health and healthcare utilization in this population. Other studies also showed that wealth is a significant predictor of the use of health care services, especially those based heavily on service users’ own payments.²⁴

To explain the number of NCDs among European adults aged 50 or older, the effect of physical inactivity and obesity was found to have increased between 2004 and 2015, while the effect of smoking status remained stable. Our study confirms the findings of a previous piece of research on European adults aged 50 or higher,³⁶ where being overweight or obese was the most prevalent BRF in men and physical inactivity in women.

Our study showed that obesity, physical activity and education are the main contributors to socioeconomic inequalities in NCDs and that obesity and physical activity are the most unequally distributed to the disadvantage of poor people. This is in line with the positive association between body mass index and education in low-income countries and the inverse association in high-income countries.³⁷

An interesting review⁵ reports that the changes of risk factor inequalities over time in the same community or country have varied by risk factor and study. Nonetheless, except for some risk factors for which inequalities decrease in some studies, socioeconomic gradients in risk factors have persisted or even increased, irrespective of whether overall risk factors increased or decreased. The existence of socioeconomic gradients for weight status and sedentariness has been established also for single countries.^35,38–40

One limitation of our study concerns the use of imputed data, which was due to numerous missing data in some variables, mainly economic and financial. Some countries had a high rate of missing values or were not included in both waves, so we restricted our analysis to only 10 countries. In addition, information about the drinking habits of the people interviewed was not reliable, so this very important risk factor for NCDs was excluded from the analysis.

The detection and control of physiological factors and preventive actions against physiological and behavioural risk factors remain the essential preventive strategy to counteract NCDs. Our study suggests strengthening prevention in the most disadvantaged socioeconomic classes to contain healthcare expenditure for adults aged 50 or older, by improving their living conditions and overall health.