Abstract
RationaleThe lifecycle perspective reminds us that the roots of adult ill-health may start in-utero or in early childhood. Nutritional and infectious disease insults in early life, the critical first 1000 days, are associated with stunting in childhood, and subsequent short adult stature. There is limited or no opportunity for stunted children above 2 years of age to experience catch-up growth. Some previous research has shown short maternal height to lead to adverse birth outcomes. In this paper, we document the association between maternal height and caesarean section, and between maternal height and neonatal mortality in 34 sub-Saharan African countries. We also explore the appropriate height cut-offs to use. Our paper contributes arguments to support a focus on preventing non-communicable risk factors, namely early childhood under-nutrition, as part of the fight to reduce caesarean section rates and other adverse maternal and newborn health outcomes, particularly neonatal mortality. We focus on the Sub-Saharan Africa region because it carries the highest burden of maternal and neonatal ill-health.MethodsWe used the most recent Demographic and Health Survey for 34 sub-Saharan African countries. The distribution of heights of women who had given birth in the 5 years before the survey was explored. We adopted the following cut-offs: Very Short (<145.0cm), Short (145.0–149.9cm), Short-average (150.0–154.9cm), Average (155.0–159.9cm), Average-tall (160.0–169.9cm) and Tall (≥170.0cm). Multivariate logistic regression was used to assess the contribution of maternal stature to the odds ratio of caesarean section delivery, adjusting for other exposures, such as age at index birth, residence, maternal BMI, maternal education, wealth index quintile, previous caesarean section, multiple birth, birth order and country of survey. We also look at its contribution to neonatal mortality adjusting for age at index birth, residence, maternal BMI, maternal education, wealth index quintile, multiple birth, birth order and country of survey.ResultsThere was a gradual increase in the rate of caesarean section with decreasing maternal height. Compared to women of Average height (155.0–159.9cm), taller women were protected. The adjusted odds ratio (aOR) for Tall women was 0.67 (95% CI:0.52–0.87) and for Average-tall women was 0.78 (95% CI:0.69–0.89). Compared to women of Average height, shorter women were at increased risk. The aOR for Short-average women was 1.19 (95% CI:1.03–1.37), for Short women was 2.06 (95% CI:1.71–2.48), and for Very Short women was 2.50 (95% CI:1.85–3.38). There was evidence that compared to Average height women, Very Short and Short women had increased odds of experiencing a neonatal death aOR = 1.95 (95% CI 1.17–3.25) and aOR = 1.66 (95% CI 1.20–2.28) respectively. When we focused on the period of highest risk, the day of delivery and first postnatal day, these aORs increased to 2.36 (95% CI 1.57–3.55) and 2.34 (95% CI 1.19–4.60) respectively. The aORs for the first week of life (early neonatal mortality) were 1.90 (95% CI 1.07–3.36) and 1.83 (95% CI 1.30–2.59) respectively.ConclusionsShort stature is associated with an increased prevalence of caesarean section and neonatal mortality, particularly on the newborn’s first days. These results are even more striking because we know that caesarean section rates tend to be higher among wealthier and more educated women, who are often taller and that the same patterns may hold for neonatal survival; in such cases, adjusting for wealth, education and urban residence would attenuate these associations. Caesarean sections can be lifesaving operations; however, they cost the health system and families more, and are associated with worse health outcomes. We suggest that our findings be used to argue for policies targeting stunting in infant girls and potential catch-up growth in adolescence and early adulthood, aiming to increase their adult height and thus decrease their subsequent risk of experiencing caesarean section and adverse birth outcomes.
Highlights
The lifecycle perspective reminds us that the roots of adult ill-health can start in-utero or in early childhood [1, 2]
The adjusted odds ratio for Tall women was 0.67 and for Average-tall women was 0.78
When we focused on the period of highest risk, the day of delivery and first postnatal day, these adjusted odds ratio (aOR) increased to 2.36 and 2.34 respectively
Summary
The lifecycle perspective reminds us that the roots of adult ill-health can start in-utero or in early childhood [1, 2]. Nutritional, infectious disease, and other poverty related insults in early life, the critical first 1000 days, are associated with stunting in childhood, and subsequent short adult stature. Consistent evidence shows adult height is a good indicator of population health [4], and that the association between short stature and adverse mortality and morbidity outcomes persists even after adjusting for education, occupation and income [4]. An analysis of the Demographic and Health Surveys (DHS) for 54 low- and middle-income countries found that environmental differences dominate over genetic factors in determining average adult height [5], except for the Pygmy populations of Africa [6], suggesting that height is amenable to intervention. Over the last century, sub-Saharan Africa [4] has experienced the smallest gains, and in some cases even losses, in average adult height [5]
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