Study objective: To examine socioeconomic gradients in mortality in adult women and their husbands in Bangladesh, paying particular attention to the independent effects of the educational status of each spouse.
Design: Historical cohort study.
Setting: Matlab, a rural area 60 km south east of Dhaka, the capital of Bangladesh.
Participants: 14 803 married women aged 45 or over and their husbands who were resident in the Matlab Demographic Surveillance area between 30 June 1982 and 31 December 1998.
Main results: Mortality was lower in women with formal or Koranic education compared with those with none (adjusted rate ratio for formal education = 0.68, 95% CI 0.53 to 0.86; adjusted rate ratio for Koranic schooling = 0.82, 95% CI 0.66 to 1.00). After adjusting for her own education, the husband’s level of education or occupation did not have an independent effect on a woman’s survival. Men who had attended formal education had lower mortality than those without any education (adjusted rate ratio = 0.84, 95% CI 0.75 to 0.93), but men whose wives had been educated had an additional survival advantage independent of their own education and occupation (adjusted rate ratio = 0.76, 95% CI 0.67 to 0.87). Mortality in both sexes was also significantly associated with marital status and the percentage of surviving children, and in men was associated with the man’s occupation, religion, area of residence.
Conclusions: The data suggest that socioeconomic status has a strong influence on mortality in adults in Bangladesh. They also illustrate how important the continued promotion of education, particularly for women, may be for the survival of both women and men in rural Bangladesh.
- ICDDR, B, International Centre for Diarrhoeal Disease Research, Bangladesh: Centre for Health and Population Research
- CHRW, community health research worker
Statistics from Altmetric.com
- ICDDR, B, International Centre for Diarrhoeal Disease Research, Bangladesh: Centre for Health and Population Research
- CHRW, community health research worker
It has long been recognised that people who are socially disadvantaged have higher mortality. Social or economic gradients in adult mortality have consistently been observed in affluent societies1,2 and studies in the developing world have also found substantial inequalities.3–9 Increasing attention is now being paid to understanding the nature of such inequalities and the pathways through which they exert their effects.10
One of the critical factors in this pathway is adult education. In affluent societies, a consistent association between the educational status of adults and their mortality has been shown, independent of other social or economic factors.11–14 Effects are seen in both women and men, although they might be slightly weaker in women than in men.15,16 Factors thought to contribute to the lower mortality of educated people are improvements in their employment opportunities and material circumstances, and an increased knowledge about health matters with consequent reductions in risky health behaviours.11,13,17–20
Evidence is also accruing that educated men and women in the developing world have lower mortality, but the mechanisms underlying this association are not fully understood.7–9 Understanding social inequalities in developing countries may require looking into the independent effects of individuals within households over and above those between households, partly because women’s and men’s roles within a household are so distinct.21 Studies examining the determinants of child mortality and fertility, for example, have shown maternal education to be more decisive than the educational status of the father.22–25 In this study, we examine socioeconomic gradients in mortality in adult women and their husbands in rural Bangladesh, paying particular attention to the independent effects of the educational status of each spouse.
This historical cohort study was conducted in Matlab, a rural area 60 kilometres south east of Dhaka, the capital of Bangladesh. Matlab is typical of the delta areas of rural Bangladesh. The population is predominantly Muslim, and the main sources of income are farming and fishing. Marriage is almost universal and polygamy is rare. Women’s social status is directly tied to the institution of purdah and women have generally little control over resources other than through their association with men.26
The area is divided into an intervention area, where the International Centre for Diarrhoeal Disease Research, Bangladesh: Centre for Health and Population Research (ICDDR,B) has coordinated a variety of health initiatives, and a comparison area where health services are provided by the Bangladeshi government. Most interventions have targeted children, such as immunisation and common childhood illnesses. Interventions aimed at adults are uncommon, except for family planning and safe motherhood programmes and interventions aimed at preventing and treating diarrhoeal diseases.27
Data sources and study cohort
Since 1966, the ICDDR, B has managed a health and demographic surveillance system (HDSS) in the study area, covering a population of 200 000.28 All pregnancy outcomes, deaths, marriages, and migrations are recorded monthly, with literate female community health research workers (CHRWs) visiting every house in each village to record events. Each CHRW is resident in the area in which she works and covers a population of around 1000 people. Every two months, senior health assistants accompany the CHRWs to the villages, to verify the data collected. During these visits, specific details about each vital event are obtained through interviews with family members. Periodic censuses are used to supplement the demographic data with socioeconomic information. Data from the 1982 census were used for this study. A unique identification number is assigned to each person under surveillance. This allows for linkage of information between the demographic and socioeconomic data, and between members of the same family.
The cohort was selected as part of a study examining the association between fertility and mortality in women and men who had completed their reproductive life.29 The cohorts used here consist of ever-married women aged 45 or over and their husbands. Women were included if they were 45 to 55 on 30 June 1982 (census day), became 45 between 30 June 1982 and 31 December 1998, or were 45 to 55 when they migrated into the area during that period, and if their husbands were alive and resident in the area on the day their wives entered the cohort. The husbands of these women entered the cohort on the same day as their wives. Both the women and the men were followed up until they died, migrated, or until 31 December 1998.
We obtained indicators of social status, including religion, education, and occupation from the 1982 census. Educational status was categorised as none, Koranic, or formal (any, and one to four, or five or more years). Male occupation was grouped as skilled (such as teachers, tailors, barbers, or salesmen), unskilled (such as farm labourers or fishermen), none, or disabled (physical or mental illness that prevented them from working), in accordance with the definitions used by the ICDDR, B. Details of area of residence, marital status, age, reproductive history, migration, and mortality were obtained from the monthly surveillance records. We also computed the percentage of children born alive who were surviving at the time the woman entered the cohort, as the proportion of children surviving is thought to be an important indicator of socioeconomic status in rural Bangladesh.8,30
We calculated person years of observation from the entry date until the subject died, migrated, or the end of the study. Age, time period, and marital status were treated as time varying covariates. We used hotdeck imputation31 to control for missing data on female education in 1% of women and male education and occupation in 4% of men, and multiple imputation31,32 to control for missing reproductive histories in 6% of subjects. Sensitivity analyses showed that the conclusions did not change after imputation.29 Poisson regression was used to calculate crude and adjusted rate ratios, assessing statistical significance using the likelihood ratio test and the Wald test for linear trends. The imputations were conducted using Solas version 2.0 (Cork, Ireland), and the Poisson regression using Stata version 6.0 (College Station, TX, USA). All analyses are presented separately for women and men.
There were 14 803 women in the sample, with a mean age at entry of 46.5 (SD 2.6). They had, on average, given birth to 7.3 children (SD 2.4), and the mean number surviving was 5.5 (SD 2.0). The 14 803 men were, on average, 11 years older than their wives (mean age at entry 57.3, SD 5.5). Table 1 shows the relation between the person’s education and other socioeconomic variables, presented separately for women and men.
Most women had received no education (19%) or attended Koranic schooling (59%), and only 22% had received formal education. Women were significantly more likely to have attended formal education if their husband had done so, if their husband was in a skilled occupation, if they were Muslim, if they lived in the intervention area, or if they were still married at the end of the study period. On the other hand, more than half of the men had received some formal education. Men in skilled occupations were more likely to have received any formal education, as were men in the intervention area.
There were 146 668 person years of follow up in the female cohort (table 2). All cause mortality was 8.41 per 1000 person years. The most important determinant of adult female mortality was the woman’s own educational attainment. Mortality was substantially lower in women who had attended any formal education compared with those with none (adjusted rate ratio = 0.68, 95% CI 0.53 to 0.86) but even Koranic education conferred a substantial benefit (adjusted rate ratio = 0.82, 95% CI 0.66 to 1.00). The husband’s level of education or occupation did not have an independent effect on women’s survival. Mortality was higher in women who became widowed during the study period, and was lower in women who had a high percentage of their children surviving when they entered the cohort. Mortality rates were also higher in women who became divorced, but the wide confidence intervals around the rate ratios (because of small numbers in this category) do not allow firm conclusions to be drawn. There were no statistically significant interactions between the socioeconomic variables. Specifically, there was no significant interaction between female and male education, or between age or religion and the other socioeconomic variables (data not shown).
Table 3 shows the association between socioeconomic status and all cause mortality in the men. There were 124 498 person years of follow up in the men, and the crude mortality rate was 35.29 per 1000 person years (95% CI 34.27 to 36.35). Mortality was higher in men than in women as the men were older than their wives and age specific mortality rates in Matlab are higher in men than women after age 45.8
Men who had attended formal education had lower mortality than those without any education (adjusted rate ratio = 0.84, 95% CI 0.75 to 0.93). Koranic schooling was not independently associated with mortality. Men whose wives had been educated, on the other hand, had an additional survival advantage, both if the wife had attended Koranic or formal education (adjusted rate ratios = 0.85, 95% CI 0.76 to 0.96 and 0.76, 95% CI 0.67 to 0.87). Disabled men, though they were few, had extremely high mortality rates. Mortality was also higher for men who had become widowed during the study period, those living in the comparison area and those who had lost many children. None of the interactions between the socioeconomic variables in the male data were of statistical significance (data not shown). In particular, there was no interaction between male and female education, or between age or religion and the other socioeconomic variables.
This study shows that mortality is significantly lower in educated adults in Matlab, even after adjusting for other measures of socioeconomic status. The effects of women’s education are particularly noteworthy, as husbands with educated wives experience substantially lower mortality rates, independent of their own educational or occupational status. Male education, on the other hand, has no effect on their wife’s mortality after adjusting for the wife’s own education.
While the demographic data from the Matlab surveillance area are likely to be accurate and complete,28 caution is required in the interpretation of results. Firstly, the educational effects seen may, in part, reflect the economic advantages associated with education, rather than the effects of education in itself and the study may have been subject to residual confounding.22 Secondly, the sample consisted of a subgroup of women and their husbands and the way the samples were chosen may have affected the observed associations (selection bias).
The educational effects remained substantial even after accounting for important indicators of socioeconomic status in this population, such as religion, male occupation, and surviving children.8,33 Residual confounding is not a plausible explanation for the effects of formal education in women because in this setting formal education is unlikely to increase women’s prospects of income or employment. Women in rural Bangladesh own very few assets and their movement is restricted outside the family compound. When they marry, they move in with their husband’s family and, apart from the dowry that they bring with them, receive little financial support from their own family during their adult life.34 Elderly men, on the other hand, retain economic power either because they continue to work outside the home or by retaining ownership of household assets and there may have been some residual confounding related to formal education in men.
Selection bias may have occurred in a number of ways. Ever-married women who were widowed or divorced on entry or whose husband had migrated were not included in this sample. Women retained in the analysis were more likely to be educated (22% compared with 19%) and had slightly lower mortality.29 The results in the full cohort of women were remarkably similar to those in the sample presented here however (data not shown), and selection bias is unlikely to explain the findings in women.
Clear socioeconomic gradients in mortality have been shown in affluent societies.
Socioeconomic status, and education in particular, has a strong influence on the mortality of adults in rural Bangladesh, where the population has no obvious means by which to influence their chances of survival.
The effects of women’s education are particularly noteworthy, as husbands with educated wives experience substantially lower mortality rates, independent of their own educational status.
Male education has no effect on their wife’s mortality after adjusting for the wife’s own education.
These data provide a powerful incentive for the continued promotion of formal education of women in this setting.
Selection bias may also be a potential issue in the men. Temporary migration of men from Matlab to Dhaka, India and the Middle East for work is comparatively common and such men were excluded from our analysis. Although we did not have information on the migrant men in our cohort, other studies have shown that migrants from rural Bangladesh tend to be more educated than non-migrants.35,36 Migration of adult men may have positive effects on the decision making power and economic wellbeing of the women left behind.36,37 Land ownership is also higher in migrant households,36 the household income tends to increase over time, and mortality is lower.35 The exclusion of migrant households from our sample may have resulted in the sample being poorer and less educated than the general population of Matlab adult men. In such a sample, however, the independent effects of women’s education are even the more surprising and noteworthy, as they are unlikely to act through increased autonomy or access to financial resources as may be the case for the migrants’ wives.
The pathways through which the effects of education are mediated are not well understood.22,23 In developing countries, it has been argued that maternal education may reduce child mortality or fertility through increasing the prospects of income22 or employment25 but as discussed above this is unlikely in rural Bangladesh. Education may also affect preventive health behaviours including use of preventive health services, or encourage greater cooperation with curative health services.24,38 While domestic hygiene and eating practices have been shown to improve with educational status in rural Bangladesh,39,40 the use of formal health care remains restricted. Over 50% of adults live five miles or more from a health complex that provides inpatient care41 and local health care facilities tend to be inadequately staffed, with insufficient supplies of equipment and drugs.42 Educated parents may be more likely than uneducated parents to seek care outside the home when their children are sick, but care tends to be sought from traditional healers or untrained drug sellers who often provide inappropriate treatment.43 Increasing use of formal health care by the educated is thus unlikely to play an important part in reducing adult mortality. In a setting where men often consult healthcare practitioners on behalf of their wives,43 the effect of education on contact with health services may be particularly limited in women.
It has also been suggested that maternal education reduces child mortality through raising the status of women within the home.24,44 Educated women in rural Bangladesh certainly have more domestic autonomy and are accorded more prestige.43 This enhanced status may give women more access to household resources than they would otherwise have, with a corresponding benefit to their survival.21 Marriage to an educated woman may increase the husband’s survival in rural Bangladesh because women are the primary caretakers of their elderly husbands. If educated, these women may improve their husbands’ survival in the same way as they increase their children’s, for example by gaining better access to information networks or adopting healthier habits.42
To our knowledge, this is the first study in the developing world to show that educating women can have a strong and independent effect on male mortality. Literature from affluent societies is also sparse, with inconsistent effects of wife’s education seen for male mortality45,46 and cardiovascular disease.47–49 The magnitude of the independent effect of female education in this study adds support to the hypothesis that individual resources may be the most important determinant of elderly mortality in developing countries.4,21 In other words, not everyone in a richer household is necessarily better off, and the key to understanding health may be individual rather than joint assets.
The apparently beneficial effects of Koranic education on mortality in women (but not in men) are not easy to interpret. Involvement in religious activities has been associated with lower mortality in developed countries,50 but we know of no study showing an independent effect of Koranic education in developing countries. Children in Matlab attend Koranic schooling for a few hours each day for two or three years. They learn to read the Koran, and are taught the rules of prayer and moral values. Whether or how this may affect mortality in later life is uncertain. Children who do not attend any schooling (that is, not even Koranic schooling) are also likely to be from the most deprived families, and we may have failed to fully account for this.
The higher mortality among the widowed, divorced, and Hindus is consistent with previous research, and is thought to be attributable in part to the social exclusion faced by these minority groups.3,8,30 However, the higher mortality of men in the comparison areas after accounting for differentials in socioeconomic status is unexpected, although consistent with one previous study.8 Interventions in Matlab have never explicitly targeted subjects older than those of reproductive age, and the free access to treatment for diarrhoeal diseases at the Matlab clinic is open to all members of the community, whether they live in the intervention or comparison areas.27 This finding is difficult to interpret, but may suggest that there is a benefit to the whole population of intensive surveillance and research attention despite the focus of interventions on small sections of the community.
The educational and other social differentials in mortality were substantial given the apparent homogeneity of this poor rural agrarian population, none of whom have obvious means by which to influence their chances of survival. Our data also support the finding that primary education is sufficient to improve health status in developing countries,22,23 despite recent arguments that primary education alone would not have an impact.51 This study highlights the difficulties in understanding the pathways to survival, and the need for further research into the nature of social and economic gradients in adult mortality in poor countries. Our results do show, however, that education is an important predictor of mortality in its own right, as has also been found in Eastern Europe.52 Increasing the numbers in education still further is therefore important for the survival of adults in rural Bangladesh. In particular, these data provide a powerful incentive for the continued promotion of formal education of women in this setting.
Funding: LSH was funded by a studentship from the Medical Research Council, UK during this work, and is currently funded by the Wellcome Trust.
If you wish to reuse any or all of this article please use the link below which will take you to the Copyright Clearance Center’s RightsLink service. You will be able to get a quick price and instant permission to reuse the content in many different ways.