Introduction

Obesity is common among women of childbearing age. Recent estimates of the prevalence of obesity in adults approach a quarter of the population [1, 2]. Some other work puts the prevalence of obesity in pregnancy at about 10–11% [3, 4].

The consequences of obesity in pregnancy include a number of adverse outcomes for mother and child. A large retrospective cohort study from UK found that gestational diabetes, preeclampsia, delivery by emergency Caesarean section, postpartum haemorrhage, urinary tract infection, wound infection, birth weight above the 90th centile, and intrauterine death were more common in the obese [3]. An analysis of German perinatal statistics demonstrated higher rates of hypertension, preeclampsia, gestational diabetes, Caesarean section, fetal macrosomia, fetal structural anomalies, and low neonatal Apgar score for obese compared to normal weight women [4, 5]. The adverse health effects of maternal obesity extend beyond pregnancy. In women as in men, obesity is a risk factor for the development of hypertension, diabetes, and dyslipidaemia. Maternal obesity also influences offspring outcomes well beyond the neonatal period. For example, a recent study observed a correlation between obesity in 9-year-olds and maternal pregestational weight [6].

Perinatal outcomes are often influenced by parity and for this reason we wanted to examine the effects of obesity in pregnancy separately for women who experience their first pregnancy. In this study, we therefore set out to analyse the prevalence of pregnancy and birth risks in obese primiparous women compared to primiparous women of normal weight based on a large set of data from German perinatal statistics.

Materials and methods

Data for this study were taken from the German perinatal statistics of 1998–2000. Collection of perinatal statistics is mandatory in Germany. The German federal states Bavaria, Brandenburg, Hamburg, Mecklenburg-Western Pomerania, Lower Saxony, Saxony, Saxony-Anhalt, and Thuringia contributed data. Our database contains 508,926 datasets from singleton pregnancies in total. Among these were 243,571 datasets from primiparous women, i.e. data collected during the first pregnancy. These data formed the basis of the present analysis.

By convention, obesity was defined by a body mass index (BMI) ≥30 and normal weight by a BMI between 18.5 and 24.99. We compared obese primiparae to normal weight primiparae with regard to the following pregnancy risks that are coded for in German perinatal statistics: coagulopathies, diabetes mellitus (known before pregnancy), small stature, previous infertility treatment, hypertension, proteinuria (>1‰), moderate to severe edema, gestational diabetes, cervical incompetence, preterm labour, anaemia, hypotension. Furthermore, we investigated these birth risks: premature rupture of membranes, postterm birth, in utero fetal demise, preterm birth, preeclampsia/eclampsia, intraamniotic infection, pyrexia during delivery, occurrence of an abnormal cardiotocogram (CTG) or concerning fetal heart sounds, occurrence of green amniotic fluid, occurrence of fetal acidosis during delivery (as evidenced by fetal blood sampling), prolonged first stage of labour, prolonged second stage of labour, cephalopelvic disproportion, transverse presentation, high fetal head station, birth weight ≥4,000 g, and the rate of Caesarean sections.

Nominal data are expressed as percent values. For bivariate analyses the chi-squared test was used. Multivariable logistic regression models were used to assess the association between risks of pregnancy or birth and BMI. The models were adjusted for age, smoking status, single mother status, and maternal education. Age was categorised into three groups: ≤22, 23–31, and ≥32 years. Smoking status was categorised into non-smokers, smokers consuming ≤10 cigarettes/day, and smokers consuming ≥11 cigarettes/day. Regarding maternal education, women were either “without qualification”, i.e. classified as “unskilled labourers” in German perinatal statistics or were “others” when they were given an occupational classification other than “unskilled labourer”. Odds ratios (ORs) with 95% confidence intervals (CIs) were calculated. A value of p < 0.05 was considered statistically significant. All statistical analyse were performed with SPSS software, version 15.0.

Results

Figure 1 shows the distribution of BMI among primiparous women. Of all cases, 68.4% were of normal weight (n = 166,675) and 7.9% were obese (n = 19,130). The analyses described below are a comparison between these two groups. Table 1 summarises some characteristics of the two groups that we expected to be confounding factors. It can be seen that obese and normal weight primiparae differed significantly with regard to age, smoking status, single mother status, and maternal education. Because these parameters can also be expected to influence the prevalences of the pregnancy and birth risks that form the focus of this study, it was necessary to adjust for these as confounding factors in our analyses.

Fig. 1
figure 1

Distribution of BMI in the study population

Table 1 Characteristics of the study population

Table 2 illustrates some risks of pregnancy coded for in German perinatal statistics. From the adjusted OR, it is apparent that obese primiparous women have higher odds of coagulopathies, diabetes, hypertension, proteinuria, and edema but lower odds of cervical incompetence, preterm labour, anaemia, and hypotension. In all cases the differences were statistically highly significant (p < 0.001). The highest odds increases associated with obesity could be observed for hypertension (adjusted OR 8.44), moderate to severe edema (adjusted OR 6.11), gestational diabetes (adjusted OR 4.55), proteinuria (adjusted OR 4.41), and diabetes known before pregnancy (adjusted OR 3.71).

Table 2 ORs for pregnancy risks in obese compared to normal weight primiparous women

Table 3 compares the prevalences of birth risks between obese and normal weight primiparae. With the exception of a prolonged second stage of labour, all investigated birth risks were significantly more common in the obese; and except for in utero fetal demise the level of significance was always high (p < 0.001). The odds increases were highest for preeclampsia/eclampsia (adjusted OR 6.72), cephalopelvic disproportion (adjusted OR 2.41), and intraamniotic infection (adjusted OR 2.33). Neonates with high birth weight (adjusted OR 2.16) and Caesarean sections (adjusted OR 2.23) were also more than twice as likely in obese women. A steep increase in the rate of Caesarean sections (45.7%) was observed in obese women older than 32 years (data not shown).

Table 3 ORs for birth risks in obese compared to normal weight primiparous women

Discussion

The present study demonstrates that obesity during pregnancy is common in primiparous women and that it is associated with a number of risks of pregnancy and birth, including diabetes, hypertension, preecalmpsia, intraamniotic infection, fetal macrosomia, and an increased rate of Caesarean sections. This work builds on previous analyses of German perinatal statistics but for the first time focuses on obese primiparous women and analyses pregnancy and birth risks associated with obesity in this group of patients.

Our results are in agreement with other work on pregnancy and birth risks among women who deliver their first child. A study from UK of 1,858 obese and 14,076 normal weight women found that preecalmpsia (adjusted OR 3.1), gestational hypertension (adjusted OR 2.2), emergency Caesarean section (adjusted OR 2.0), preterm delivery at less than 33 weeks of gestation (adjusted OR 2.0), and birth weight >4,000 g (adjusted OR 1.9) were significantly more common in the obese [7]. A retrospective cohort study from Scotland demonstrated that the risk of elective preterm delivery increased with increasing BMI, while the risk of spontaneous preterm labour decreased [8]. This is in agreement with the lower risk of preterm labour found in obese women in the present study. In several other studies, rates of Caesarean section were increased in obese women [911]. Women, who are overweight or obese before pregnancy, have an increased risk of Caesarean section, particularly if they are also short [12].

The association between maternal obesity and delivery by Caesarean section is also confirmed after controlling for possible confounders in other recent retrospective and prospective analyses that were not restricted to primiparous women [13, 14].

There are some limitations to our study. For our statistical analysis, we used patient self-reporting of smoking status, single mother status, and maternal education. We have no way of verifying this information. Regarding smoking, a description of smoking status according to pregnancy trimester was not possible with our data. There is evidence that smoking has different effects at different times during the pregnancy [15]. The decision when a certain risk factor or disease was present in a given case was made by the obstetrician who filled in the data collection form (standard data collection form used in German perinatal statistics, “Perinatologischer Basis-Erhebungbogen”). The terms used in this form to describe pregnancy and birth risks may possibly be applied differently by different clinicians. We do not think that this is a significant limitation; however, because in most instances, the terms used in the data collection form are unambiguous.

Despite these limitations and predominantly due to the large number of cases included and the rigorous statistical analysis performed, we were able to provide a detailed description of pregnancy and birth risks in obese compared to normal weight primiparous women.

In conclusion, obesity during pregnancy is an important clinical problem in primiparous women because it is common and it is associated with a number of risks of pregnancy and birth. Because of these risks obese women need special attention clinically during the course of their first pregnancy. It follows that weight reduction before the first pregnancy is generally indicated in obese women as a preventive measure.