Mothers with diabetes during pregnancy have increased risk of eye problems: Study
- The research analysed the associations between maternal diabetes before or during pregnancy and the risk of high refractive error (RE): conditions in which there is a failure of the eye to properly focus images on the retina.
A new study lead by a team of international researchers finds that mothers who have diabetes before or during their pregnancy are more likely to have children who go on to develop eye problems.
The findings of the study were published in Diabetologia (the journal of the European Association for the Study of Diabetes [EASD])
The research is by Dr. Jiangbo Du, State Key Laboratory of Reproductive Medicine, Nanjing Medical University, Nanjing, China, and Dr. Jiong Li, Aarhus University, Aarhus, Denmark, and colleagues. It analysed the associations between maternal diabetes before or during pregnancy and the risk of high refractive error (RE): conditions in which there is a failure of the eye to properly focus images on the retina.
RE is one of the most common forms of visual impairment and includes both long and short-sightedness as well as astigmatism.
Collectively these conditions are the second most common form of disability globally, and while low-degree REs can be corrected optically using spectacles or contact lenses, more serious high-degree REs can develop into severe and irreversible visual impairment that can reduce an individual's quality of life.
In recent decades there has been a rapid increase in the prevalence of RE, indicating that non-genetic factors may play an important role in its development. An increased tendency to perform close-up work such as using computers for long periods, as well as a lack of outdoor activity, has been established as the main acquired risk factors for low and moderate RE development in school-age children and young adults. The causes of high RE defects, however, are still not fully understood.
Earlier research has shown that individuals with severe RE may have congenital eye defects before birth, suggesting that the conditions to which the fetus is exposed in the uterus may play a role in the development of more serious RE in later life. Maternal hyperglycemia (high blood sugar) during pregnancy may lead to elevated fetal blood glucose levels, which can damage the retina and optic nerve and may lead to changes in the shape of the eyes that ultimately cause RE.
The authors believed that exposure to the effects of maternal diabetes while in the uterus could negatively affect the development of the fetus and lead to high RE in later life. They also anticipated that the most pronounced associations would be observed among mothers with diabetic complications since they usually represent more severe cases of the disease.
The team conducted a population-based cohort study using several Danish national medical registers and incorporated the details of all live births in Denmark from 1977 to 2016. Follow-up began at birth and continued until the first high RE diagnosis (where applicable), the death of the subject, their emigration, their 25th birthday, or the end of the study period on 31 December 2016, whichever came first.
Mothers were considered to have diabetes if they were diagnosed with the disease either before or during pregnancy, and those with pre-gestational diabetes who had developed problems relating to their condition were grouped according to whether they had one or multiple complications.
The authors analysed both the occurrence of high RE in offspring and the specific type of eye problem. Out of 2,470,580 live births included in the study, 56,419 (2.3 per cent) were exposed to maternal diabetes with 0.9 per cent and 0.3 per cent being type 1 and type 2 pre-gestational diabetes respectively (meaning diabetes already present before pregnancy), and 1.1 per cent involving gestational diabetes.
The proportion of births to mothers with diabetes increased over the study period from 0.4 per cent in 1977 to 6.5 per cent in 2016 and diabetes was associated with the mother being older, more educated, having had more pregnancies, and being more likely to live alone.
During the follow-up period, high RE was diagnosed in 533 offspring of mothers with diabetes, and 19,695 offspring of those without the disease. Exposure to maternal diabetes was associated with a 39 per cent greater risk of high RE compared to unexposed offspring.
The researchers observed a difference in RE risk between type 1 and type 2 forms of diabetes with rates of high RE compared to unexposed individuals being 32 per cent and 68 per cent higher respectively. In addition, children of mothers with complications arising from diabetes were twice as likely to have eye problems, compared to an 18 per cent increase in high RE risk in children of mothers who had no complications from the disease.
The authors said: "It was interesting to observe that hypermetropia (long-sightedness) occurred more frequently in childhood and myopia (short-sightedness) was more frequent in adolescence and young adulthood."
They suggest that the difference might be due to the natural process of emmetropisation in which the eye changes shape during early childhood to achieve the normal vision by becoming less long-sighted, and which could correct most hyperopia in early infancy over time. In addition, they point out that the increasing number of years and intensity of school education could increase the risk of myopia from early childhood to young adulthood.
The strengths of this study are that it used high-quality data covering the whole Danish population over a long follow-up period, thus minimising the possibility of selection bias and recall bias. Availability of sociodemographic and medical information enabled the team to adjust for a wide range of factors that could influence the studied medical outcomes, and the large sample size allowed them to investigate details such as the specific types of RE involved.
The authors said: "In this nationwide population-based cohort study, we observed that children born to mothers with either pregestational or gestational diabetes were at an increased risk of developing high RE in general, as well as specific types of high RE, persisting from the neonatal period to early adulthood. Children born to mothers with diabetic complications had the highest risk of high RE."
The researchers suggested: "As many REs in young children are treatable, early identification and intervention can have a lifelong positive impact. Although the 39% increased risk is relatively low effect size, from a public health perspective, considering the high global prevalence of REs, any tiny improvement in this low-risk preventable factor will contribute to a huge reduction in absolute numbers of these eye conditions."
They advise that early screening for eye disorders in the children of mothers with diabetes may play an important role in maintaining good eyesight health.