BMI指数对单胎妊娠结局的影响分析
Bio Med Central
BMC Public Health
Open Access
Research article
Effect of Body Mass Index on pregnancy outcomes in nulliparous
women delivering singleton babies
Sohinee Bhattacharya*1, Doris M Campbell 2, William A Liston 3 and Siladitya Bhattacharya 2
Address: 1Dugald Baird Centre for Research on Women's Health, Aberdeen Maternity Hospital, Aberdeen, AB25 2ZD, UK, 2Department of
Obstetrics & Gynaecology, Aberdeen Maternity Hospital, Foresterhill, Aberdeen, AB25 2ZD, UK and 3The Simpson Centre for Reproductive Health, Royal Infirmary of Edinburgh – Little France, Edinburgh, EH16 4SA, UK
Email: Sohinee Bhattacharya*-sohinee.bhattacharya@https://www.sodocs.net/doc/9b17441933.html,; Doris M Campbell -d.m.campbell@https://www.sodocs.net/doc/9b17441933.html,; William A Liston -Liston@https://www.sodocs.net/doc/9b17441933.html,; Siladitya Bhattacharya -s.bhattacharya@https://www.sodocs.net/doc/9b17441933.html, * Corresponding author
Abstract
Background: The increasing prevalence of obesity in young women is a major public health concern. These trends have a major impact on pregnancy outcomes in these women, which have been documented by several researchers. In a population based cohort study, using routinely collected data, this paper examines the effect of increasing Body Mass Index (BMI) on pregnancy outcomes in nulliparous women delivering singleton babies.
Methods: This was a retrospective cohort study, based on all nulliparous women delivering singleton babies in Aberdeen between 1976 and 2005. Women were categorized into five groups – underweight (BMI < 20 Kg/m 2), normal (BMI 20 – 24.9 Kg/m 2) overweight (BMI 25 – 29.9 Kg/m 2),obese (BMI 30 – 34.9 Kg/m 2) and morbidly obese (BMI > 35 Kg/m 2). Obstetric and perinatal outcomes were compared by univariate and multivariate analyses.
Results: In comparison with women of BMI 20 – 24.9, morbidly obese women faced the highest risk of pre-eclampsia {OR 7.2 (95% CI 4.7, 11.2)} and underweight women the lowest {OR 0.6 (95%CI 0.5, 0.7)}. Induced labour was highest in the morbidly obese {OR 1.8 (95% CI 1.3, 2.5)} and lowest in underweight women {OR 0.8 (95% CI 0.8, 0.9)}. Emergency Caesarean section rates were highest in the morbidly obese {OR 2.8 (95% CI 2.0, 3.9)}, and comparable in women with normal and low BMI. Obese women were more likely to have postpartum haemorrhage {OR 1.5 (95% CI 1.3, 1.7)} and preterm delivery (< 33 weeks) {OR 2.0 (95% CI 1.3, 2.9)}. Birthweights less than 2,500g were more common in underweight women {OR 1.7 (95% OR 1.2, 2.0)}. The highest risk of birth weights > 4,000 g was in the morbidly obese {OR 2.1 (95% CI 1.3, 3.2)} and the lowest in underweight women {OR 0.5 (95% CI 0.4, 0.6)}.
Conclusion: Increasing BMI is associated with increased incidence of pre-eclampsia, gestational hypertension, macrosomia, induction of labour and caesarean delivery; while underweight women had better pregnancy outcomes than women with normal BMI.
Published: 24 July 2007BMC Public Health 2007, 7:168
doi:10.1186/1471-2458-7-168
Received: 15 March 2007Accepted: 24 July 2007
This article is available from: https://www.sodocs.net/doc/9b17441933.html,/1471-2458/7/168
? 2007 Bhattacharya et al; licensee BioMed Central Ltd.
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://www.sodocs.net/doc/9b17441933.html,/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Background
The rising rate of obesity is a major public health concern in the West, where 28% of pregnant women are over-weight and 11% are obese [1]. In the United States, the incidence of obesity in pregnancy varies from 18.5% to 38.3% according to the definition used [2-5]. In the UK, 56% of all women are over the recommended BMI, with 33% of them classified as overweight (BMI > 25) and 23% obese (BMI > 30). Although the exact incidence of obesity in pregnant women in the UK is not known, the Confi-dential Enquiry into Maternal and Child Health 2004 [6] reported that 35% of all maternal deaths occurring in the triennium 2000–2002 were in obese women with Body Mass Index > 30 Kg/m2. Pregnancy complications in over-weight women were studied as early as 1945 [7]. Since then, a number of studies have reported a clear associa-tion between maternal overweight and adverse obstetric and perinatal outcomes. Data from North America have been supported by results from Danish [8,9] and Swedish studies [10,11]. In the UK, Sebire [12] studied the effects of maternal obesity on pregnancy outcomes in a London cohort of 287,213 women. Since then, similar reports have been published from Wales [13] and Scotland [14]. The effect of maternal underweight on obstetric perform-ance is less clear. While some researchers [4,15] have found increased incidences of preterm delivery, low birth weight and increased perinatal loss in these women, oth-ers [16] have reported a protective effect of maternal underweight on certain pregnancy complications and interventions.
Definitions of overweight, obesity and underweight differ in the different reports. In earlier research the relation-ships between maternal height and weight with pregnancy complications were extensively explored, but in recent times, Body Mass Index (BMI) is widely accepted as a bet-ter measure of over or underweight. More recently, the waist-hip ratio has been used to study the effects of obes-ity on pregnancy, but data relating to this parameter are seldom available. Despite the plethora of publications on obesity and obstetric outcomes, population based studies in the UK reporting on the effect of extremes of Body Mass Index (high as well as low BMI) on pregnancy outcomes are relatively few.
The Aberdeen Maternity and Neonatal Databank (AMND) has recorded information on all pregnancy related events occurring in Aberdeen city and district since 1950, and currently contains over 200,000 such records. The height and weight of women as well as the gestational weeks at the first antenatal visit have been systematically logged, thus offering a unique opportunity to study the effect of Body Mass Index (BMI) on pregnancy outcomes.The aim of this study was to examine the association between Body Mass Index (BMI) and obstetric and perina-tal outcomes in primigravid women delivering singleton babies.
Methods
This was a retrospective cohort study using data from the Aberdeen Maternity and Neonatal Databank (AMND). Ethical approval was granted by the North of Scotland Research Ethics Committee for all observational studies using routinely collected anonymised data from the AMND, provided permission was granted by the Steering Committee (Caldicott guardians) of the AMND. After obtaining permission from the Caldicott guardians, data were extracted from the Aberdeen Maternity and Neonatal Databank on all primigravid women delivering singleton babies after 24 weeks of gestation in Aberdeen city and district between 1976 and 2005. Women who booked after 16 weeks were excluded. In the dataset, 7.2% of the women did not have either their height or weight or both recorded and were excluded from the analysis. Missing data on outcome variables varied from 1.2 – 2.8%. These women were also excluded. Missing outcome data were distributed evenly among the various BMI categories. All variables recorded in the AMND are coded using the ICD-9 codes and several consistency checks are in place to ensure data quality. Opportunistic checks carried out in the past using surveys and linkages with larger databases have shown the records to be 85 to 90% complete [17]. Sociodemographic variables extracted included age at delivery, height and weight measured and recorded at antenatal booking visit, husband or partner's social class (recorded according to the Register G eneral's classifica-tion), smoking, marital status and pre-existing Type I dia-betes mellitus. Body Mass Index was calculated using the formula weight/height2. The women were then catego-rised into five groups according to their BMI as follows after Abrams [18].
Underweight: less than or equal to a BMI of 19.9 Kg/m2 Normal: BMI of 20 – 24.9 Kg/m2
Overweight: BMI of 25 – 29.9 Kg/m2
Obese: BMI of 30 – 34.9 Kg/m2
Morbidly obese: BMI greater than 35 Kg/m2
The group with BMI in the normal range (20 – 24.9 Kg/ m2) was used as the reference or comparison group for the analysis.
Obstetric outcomes included the following: pre-eclamp-sia, gestational hypertension and antepartum haemor-
rhage due to placenta praevia or abruptio placentae, type of labour (ie spontaneous or induced), the type of deliv-ery (ie spontaneous vaginal, instrumental or Caesarean section), preterm delivery (37 weeks and 34 weeks). Peri-natal outcomes included stillbirth rate and birthweight. The total number of Caesarean sections and the number of elective sections were recorded in the AMND – the number of emergency sections was calculated by subtract-ing the second from the first number. Gestational age was recorded according to the last menstrual period through-out the database and was confirmed by ultrasound ever since it became available from 1986 onwards. In case of discrepancy, the ultrasound date was taken as the actual gestational age.
Statistical analysis was conducted using Statistical Package for Social Scientists (SPSS version 14). The anonymised dataset was extracted by AMND staff and given to named researchers who conducted the analysis. Univariate analy-sis was done using ANOVA or Mann-Whitney test for con-tinuous variables and chi-square test for categorical variables. A P-value of less than 0.05 was regarded as sta-tistically significant. Potential confounders were adjusted for using logistic regression. The risks of obstetric compli-cations were presented as crude and adjusted Odds Ratios with 95% confidence intervals.
Results
A total of 24,241 women were included in the study. Of these, 2,842 (11.7%) were underweight, 14,076 (58.1%) had normal BMI, 5,308 (21.9%) were overweight, 1,858 (7.7%) were obese and 157(0.6%) were morbidly obese. Figure 1 shows the increasing trends in the prevalence of obesity in the study population over time.
A comparison of the sociodemographic characteristics of the women in the five BMI categories is presented in Table 1. Women in the underweight category were significantly younger (mean age 24.8, SD 5.2) while those in the mor-bidly obese group were significantly older (mean age 28.3, SD 5.3) than those with normal BMI (mean age 26.4, SD 5.2). The mean ages of overweight and obese women were comparable with women with normal BMI. As we included all women who had booked at the Ante-natal Clinic up to 16 weeks of gestation, we compared the time of booking and found no differences among the dif-ferent BMI categories. Fewer women were married or cohabiting in the underweight {2201 (77.4%)} and mor-bidly obese {125 (79.6%)} groups in comparison with women with normal BMI {11848 (84.2%)}. Fewer women in the abnormal BMI categories were from higher socioeconomic groups (as indicated by their partner's social class I/II) in comparison with women with normal BMI {3771 (26.8%)}. This difference in social class was more marked in the groups of obese {358 (19.3%)} and morbidly obese {24 (15.3%)} women. The prevalence of Type I diabetes was higher in the morbidly obese group {3 (1.9%)} as compared to the normal group {27 (0.2%)}. Smoking was significantly more common in the under-weight group.
Table 2 shows the incidence of complications of preg-nancy, labour and delivery in women in the five BMI cat-egories, while Table 3 presents the risk of each complication or intervention in the abnormal BMI catego-ries in comparison with the normal. Both pre-eclampsia and gestational hypertension increased linearly with increasing BMI, resulting in an adjusted Odds Ratio of 7.2 (95% CI 4.7, 11.2) for pre-eclampsia and 3.1 (95% CI 2.0, 4.3) for gestational hypertension in the morbidly obese category when compared to those of normal BMI. Being underweight seemed to have a protective effect on the development of pregnancy induced hypertension –adjusted OR 0.6 (95% CI 0.5, 0.7) for pre-eclampsia and 0.7 (95% CI 0.6, 0.8) for gestational hypertension. A sim-ilar relationship was observed with regard to placental abruption, but as the numbers were small, the Odds Ratios had overlapping confidence intervals. The inci-dence of placenta praevia was not significantly different in the different BMI categories, with the highest proportion occurring in underweight women {10 (0.4%) vs 25 (0.2%) in the normal BMI group}.
The frequency of induced labour increased with rising BMI; the risk being lowest in underweight women {OR 0.8 (95% CI 0.8, 0.9)} and highest in the morbidly obese {OR of 1.8 (95% CI 1.3, 2.5)}. Both elective and emer-gency caesarean sections were more common in the mor-bidly obese group, but only emergency caesarean section rates were significantly different in the other BMI catego-ries. In contrast to women with normal BMI, women who were morbidly obese had a 3 times (95% CI 1.7, 6.1) higher risk of having an elective caesarean section, and 2.8 times (95% CI 2.0, 3.9) higher risk of an emergency cae-sarean section. The adjusted Odds Ratios for emergency caesarean section increased with increasing BMI, again with a protective effect seen in underweight women {OR 0.7 (95% CI 0.6,0.8)}.
The risk of postpartum haemorrhage remained statisti-cally significant only in obese women, although mean blood loss following delivery showed a linear increase with increasing BMI.
After adjusting for confounders, the odds of having a pre-term delivery, ie a delivery before 37 completed weeks were similar in the different groups. However, obese women faced an increased risk of delivery before 33 com-pleted weeks of gestation {OR 2.0 (95% CI 1.3, 2.9)}. Post term delivery, ie delivery after 41 completed weeks of
gestation was similar in the different BMI categories after adjusting for confounders. Among the women who deliv-ered before 37 weeks risk of spontaneous preterm birth was increased in the underweight {adjusted OR 1.4 (95%CI 1.1, 1.9)} and the morbidly obese groups {adjusted OR 1.2 (95% CI 1.1, 2.8)}.
Stillbirth rates were significantly higher in the obese {35(1.9%)} and morbidly obese {4 (2.5%)} groups as opposed to 131 (0.9%) in the normal BMI group. But this difference did not remain statistically significant in the morbidly obese group after adjusting for confounders.Although low birth weight (birth weight less than 2,500g) was more common at the two extreme ends of the BMI categories, this remained significant after adjusting for confounders, only in underweight women who had an Odds Ratio 1.7 (95% CI 1.2, 2.0) compared to normal.Macrosomia (birthweight > 400 g) was more common in the obese and morbidly obese groups with Odds Ratios of
1.9 (95% CI 1.6,
2.2) and 2.1 (95% CI 1.3,
3.2) respec-tively, compared to the normal BMI group.
Discussion
This study adds to the increasing body of evidence which suggests that obesity, measured by BMI, predisposes women to complicated pregnancies and increased obstet-ric interventions. We found a linear relationship between increasing body mass index and the risk of developing pre-eclampsia, gestational hypertension, induction of labour and emergency caesarean section. Conversely, low BMI had a protective effect on some obstetric complica-tions.
Previous research has found a strong association between increasing BMI and pregnancy induced hypertension. A meta-analysis of the risk of pre-eclampsia associated with maternal BMI [19] showed that the risk of pre-eclampsia doubled with each 5 to 7 Kg/m 2 increase in prepregnancy BMI. We found a 3 times higher risk of pre-eclampsia in obese (BMI 30 to 39.9 Kg/m 2) and a 7 times higher risk in morbidly obese (BMI > 40 Kg/m 2) primigravid women.We also found a significantly lower risk of pre-eclampsia in underweight women {OR 0.6 (95% CI 0.5 – 0.7)}, a finding corroborated by Sebire et al [16].
Our results agree with earlier reports which have shown an association between increasing BMI and interventions like induced labour [10,13,20] and caesarean delivery [8,10,14,23]. Some previous work has also demonstrated a strong link between postpartum blood loss and BMI.Although we found a linear increase in mean postpartum blood loss with increasing BMI, the risk of postpartum haemorrhage, defined as blood loss of more than 500 ml for vaginal delivery and 1000 ml for caesarean delivery,was significantly higher only in the obese category. Other studies have reported conflicting results. While Sebire et al [12] observed a 70% increase in postpartum haemor-rhage, Bianco et al [22] found no such difference in the
Table 1: Sociodemographic characteristics of women in the different BMI groups
Characteristics
Underweight BMI < 20n = 2842Normal
BMI = 20–24.9n = 14076Overweight BMI = 25–29.9n = 5308Obese
BMI = 30–34.9n = 1858Morbidly Obese BMI > 35n = 157Age at delivery (years)24.8 (5.2)*26.4(5.2)26.8(5.2)26.8(5.1)28.3(5.3)*Height (cm)163.0(6.5)162.5(6.3)162.2(6.4)162.2(6.4)162.4(6.0)Weight (Kg)50.1(4.6)59.2(5.7)70.9(6.7)87.3(9.5)114.1(11.2)BMI (Kg/m 2)18.8 (0.9)22.4(1.3)26.9(1.4)33.2(2.5)43.3(3.7)Booking week
10.7(2.6)10.8(2.6)10.6(2.7)10.2(2.7)9.7(2.8)Married or cohabiting
2201(77.4%)*11848(84.2%)4449(83.8%)1522(81.9%)125(79.6%)*Husband/partner's social class I/II 662(23.3%)*3771(26.8%)1227(23.1%)*358(19.3%)*24(15.3%)*Smoking
1208(42.5%)*4832(34.3%)1691(31.9%)*568(30.6%)*32(20.4%)*Type I Diabetes
0(0%)
27(0.2%)
40(0.8%)*
5 (0.3%)
3(1.9%)*
Values expressed as mean (SD) median (IQR) or number (per cent)* P value less than 0.05
Figure 1
Trends in mean BMI, Aberdeen city & district 1976–2005.
incidence. As measurement of blood loss is subjective, and the definition of postpartum haemorrhage variable, it is difficult to make comparisons across studies. Intui-tively, it appears that women with higher body mass index should bleed more, but this is at least in part due to the increased incidence of induced labour and operative deliveries in these women.
In contrast to the majority of studies in the literature [21,16] our adjusted data failed to show any differences in the risk of preterm delivery (delivery before 37 completed weeks) in the different BMI categories. Cnattingius [11] found no association between preterm delivery before 37 weeks and prepregnancy weight, although the risk of very preterm delivery before 33 weeks was increased in over-weight nulliparous women. This was corroborated by our results, which showed that the risk of preterm delivery before 33 weeks was higher in the obese group, but not in the morbidly obese. On the other hand, Sebire et al [12] found that delivery before 32 weeks was significantly less likely in the obese.
With regard to intrauterine growth retardation measured by the adjusted birth weight, we found a strong associa-tion with maternal BMI. While the risk of low birth weight (birth weight less than 2,500 g) was higher in under-weight women, macrosomia was much more common in the obese and morbidly obese groups. Several studies investigating the relationship of maternal obesity with fetal growth have shown that obese women have an 18 –26% increased chance of delivering large for date infants, even after controlling for maternal diabetes [12,22-24]. Yu et al [25] suggest that the rapid fetal growth induced by maternal hyperinsulinaemia coupled with placental insufficiency may result in the antepartum demise of the fetus in obese pregnant women. Indeed this hypothesis has been corroborated by several epidemiological studies [9,10]. This study found an increased risk of stillbirth in obese, but not morbidly obese women. In reality, there were too few women in the morbidly obese group to com-ment on this group's association with a rare outcome like stillbirth.
Apart from the slightly increased risk of having a baby with low birthweight, the mothers with BMI < 20 appeared to be at a lower risk of developing any other pregnancy or labour complications compared even to women with BMI in the normal range – a finding corrob-orated by Sebire et al [16]. Several complications like post-partum haemorrhage, preterm delivery and macrosomia were found to increase linearly with rising BMI, but no longer remained statistically significant in the morbidly obese women after adjusting for confounders. This can be partially explained by the smaller sample size of morbidly obese women and partially by the overwhelming effect of pre-eclampsia, gestational hypertension and interven-tions during labour and delivery in these women.
Table 2: Pregnancy, labour and delivery characteristics of women in each BMI group
Characteristics Underweight
BMI < 20
n = 2842Normal
BMI = 20–24.9
n = 14076
Overweight
BMI = 25–29.9
n = 5308
Obese
BMI = 30–34.9
n = 1858
Morbidly Obese
BMI > 35
n = 157
Pre-eclampsia*82(3.3%)572(5.0%)313(8.1%)181(14.7%)29(28.2%) Gestational hypertension*374(13.6%)2662(19.7%)1422(28.5%)624(37.2%)54(42.2%) Abruptio placentae12(0.4%)83(0.6%)31(0.6%)13(0.7%)3(1.9%)* Placenta praevia10(0.4%)25(0.2%)11(0.2%)3(0.2%)0(0%) Induced labour*683(24.0%)3832(27.2%)1771(33.4%)796(42.8%)77(49.0%) Instrumental delivery773(27.2%)4040(28.7%)1499(28.2%)465(25.0%)38(24.2%) Total C-Section*320(11.3%)2305(16.4%)1279(24.1%)573(30.8%)67(42.7%) Elective C-section73(2.6%)487(3.5%)221(4.2%)88(4.7%)*16(10.2%)* Emergency CS*247(8.7%)1818(12.9%)1058(19.9%)488(26.3%)51(32.5%) Mean blood loss (mls)*254.5 (6.9)290.4 (5.7)333.6(8.5)400.5(7.2)456.4(25.7) Postpartum haemorrhage*192(6.8%)1356(9.5%)708(13.3%)369(19.9%)37(23.6%) Preterm delivery (< 37 weeks)345(12.1%)*1537(10.9%)573(10.8%)243(13.1%)*32(20.4%)* Preterm delivery (< 33 weeks)58(2.0%)331(2.4%)122(2.3%)77(4.1%)*10(6.4%)* Spontaneous preterm(< 37 wks)244(8.5%)*964(6.8%)325(6.1%)124(6.6%)12(7.6%)* Post term delivery (> 41 weeks)108(3.8%)*773(5.5%)350 (6.6%)*136(7.3%)*7(4.5%) Stillbirth22(0.8%)131(0.9%)57(1.1%)35(1.9%)*4(2.5%)* Birth weight < 2500 g269(9.5%)*980(7.0%)327(6.2%)142(7.6%)19(12.1%)* Birth weight > 4000 g*100(3.5%)1072(7.6%)564(10.6%)255(13.7%)25(15.9%) Values expressed as number (per cent) or mean (Std. dev.)
*P value less than 0.05
The growing interest in obesity in pregnancy has prompted at least two good quality reviews [25,26] and several primary studies. Most studies have used a retro-spective cohort design using data from routinely collected hospital databases [12,21] or trial data (Weiss – FASTER trial) [24]. In neither case do the data reflect population trends. As the AMND records and stores information on all pregnancy events in a geographically defined area, our data set is truly population based. We have restricted our data between 1976 and 2005, as the principal aim of this study was to examine pregnancy outcomes while mini-mising the effects of changes in clinical practice over time. Nevertheless, even this limited dataset, shows a rising incidence of obese women booking for antenatal care. Despite restricting this study to nulliparous women deliv-ering singleton babies we achieved a sample size of 24,241 women, which to our knowledge makes it one of the largest studies of this kind. In contast with most retro-spective studies, all pregnancy events were concurrently recorded by AMND staff thereby limiting recall bias. The height and weight recorded at the booking antenatal visit were coded using stringent criteria and standard defini-tions and are subject to validity and consistency checks, making the data completely reliable. More information about coding and quality of the dataset is available at the AMND website [27].
This study, like any other observational study of its kind suffers from several limitations. Firstly, the ideal time to record the baseline height and weight of a pregnant woman is before she has started gaining weight due to ges-tation. As this is seldom available on a routine database, most researchers have relied on the woman's recall of her pre-pregnancy height and weight, the reliability and standardisation of which is very doubtful [28]. In our study we have relied on height and weight recorded in early pregnancy, before any real impact of gestational weight gain. Still, values recorded in early pregnancy remain an approximation of the pre-pregnancy weight, and therefore subject to bias. Also, exclusion of all women who booked after 16 weeks of gestation could have resulted in selection bias, overweight or underweight women being systematically excluded from the dataset. However, we found an even distribution of the week of
Table 3: Crude and adjusted risks of obstetric complications in the different BMI groups compared to normal (OR 1)
Characteristics OR (95% CI)Underweight
BMI < 20
n = 2842Overweight
BM I= 25–29.9
n = 5308
Obese
BMI = 30–34.9
n = 1858
Morbidly Obese
BMI > 35
n = 157
Pre-eclampsia*Crude0.7(0.5–0.8) 1.7(1.4–1.9) 3.3(2.7–3.9)7.4(4.8–11.5)
Adjusted0.6(0.5–0.7) 1.6(1.2–1.8) 3.1(2.8–3.5)7.2(4.7–11.2) Gestational hypertension*Crude0.6(0.5–0.7) 1.6(1.5–1.8) 2.4(2.2–2.7) 3.0(2.1–4.2)
Adjusted07(0.6–0.8) 1.5(1.4–1.7) 2.2(2.1–2.6) 3.1(2.0–4.3) Induced labour*Crude0.8(0.7–0.9) 1.3(1.2–1.4) 2.0(1.8–2.2) 2.6(1.9–3.5)
Adjusted0.8(0.8–0.9) 1.3(1.2–1.4) 1.8(1.6–2.0) 1.8(1.3–2.5) Elective C-section Crude0.7(0.6–0.9)* 1.2(1.0–1.4) 1.4(1.1–1.8)* 3.2(1.9–5.3)*
Adjusted0.8(0.6–1.0) 1.1(0.9–1.3) 1.4(1.0–1.8) 3.1(1.7–6.1)* Emergency CS Crude0.9(0.9–1.0) 1.7(1.5–1.8)* 2.4(2.1–2.7)* 3.2(2.3–4.5)*
Adjusted0.9(0.8–1.1) 1.5(1.3–1.6)* 2.0(1.8–2.3)* 2.8(2.0–3.9)* Postpartum hge Crude0.7(0.6–0.8)* 1.4(1.3–1.6)* 2.3(2.1–2.6)* 2.9(2.0–4.2)*
Adjusted0.8(0.7–1.0) 1.1(1.0–1.2) 1.5(1.3–1.7)* 1.3(0.8–1.9) Preterm delivery (< 37 weeks)Crude 1.1(0.9–1.3) 1.0(0.9–1.1) 1.2(1.1–1.4)* 2.1(1.4–3.1)*
Adjusted 1.0(0.9–1.3) 1.0(0.9–1.1) 1.2(1.0–1.4) 1.6(1.0–2.7) Preterm delivery (< 33 weeks)Crude0.9(0.7–1.2) 1.0(0.8–1.2) 1.8(1.4–2.3)* 2.8(1.4–5.4)*
Adjusted0.9(0.7–1.1) 1.0(0.8–1.1) 2.0(1.3–2.9)* 2.0(0.8–4.9) Spont. Preterm (< 37 weeks)Crude 1.4(1.1–1.9)0.8(0.6–1.0)0.9(0.5–1.1) 1.3(1.1–2.8)
Adjusted 1.4(1.1–1.9)0.8(0.6–1.1) 1.0(0.5–1.2) 1.2(1.1–2.8)
Post term (> 41 weeks)Crude0.7(0.6–0.8)* 1.2(1.1–1.3)* 1.4(1.1–1.6)*0.8 (0.4–1.7)
Adjusted0.9(0.7–1.1)0.9(0.8–1.1)0.9(0.7–1.1)0.8(0.4–1.8) Stillbirth Crude0.8(0.5–1.3) 1.2(0.9–1.6) 2.0(1.4–3.0) 2.8(1.0–7.6)
Adjusted 1.0(0.6–1.6) 1.3(0.9–1.9) 1.8 (1.1–2.9)* 1.1(0.3–4.1)
Birth weight < 2500 g Crude 1.4(1.2–1.6)*0.9(0.7–1.0) 1.1(0.9–1.3) 1.8(1.1–3.0)*
Adjusted 1.7(1.2–2.0)*0.9(0.7–1.1) 1.1(0.9–1.3)0.7(0.4–1.5)
Birth weight > 4000 g*Crude0.4(0.4–0.6) 1.4(1.3–1.6) 1.9(1.7–2.2) 2.3(1.5–3.5)
Adjusted0.5(0.4–0.6) 1.4(1.3–1.6) 1.9(1.6–2.2) 2.1(1.3–3.2)
*P value less than 0.05
All variables adjusted for relevant sociodemographic characteristics and year of delivery; induced labour, preterm delivery and caesarean section also adjusted for pre-eclampsia and gestational hypertension; postpartum haemorrhage for induction of labour and caesarean section; birthweight for gestational age and sex
antenatal booking visit amongst the different BMI catego-ries, thereby minimising selection bias. Our study used data collected over 30 years, during which time there have been several changes in obstetric protocols, especially with regard to induction of labour and caesarean deliver-ies and this may have influenced some of the outcomes studied. To account for this, we included year of delivery in the logistic regression model when deriving the adjusted Odds Ratios.
Recent reviews [29] on obesity and pregnancy have high-lighted several issues relevant to research and manage-ment policy. Firstly, the lack of standard definitions of overweight and obesity makes comparison of findings across studies difficult. While most reports define obesity as an increased body mass index of greater than or equal to 30 Kg/m2 (IOM), others have defined it as increased waist circumference, increased waist – hip ratio or body weight of more than 90 Kg. This makes comparison of studies difficult and may have implications in the man-agement of normal pregnancy, as in the United States, rec-ommended gestational weight gain is dependent on women's prepregnancy BMI categories [30]. Moreover, in most clinics, pre-pregnancy BMI is not recorded routinely, thereby making extrapolation of booking weight or women's recall of prepregnancy weight unreliable. Krishnamoorthy et al [29] suggest that all pregnancies in obese women be acknowledged as high risk and managed according to strict guidelines. Management should include prepregnancy counselling to reduce weight; shared antenatal care and appropriate management of complications. The evidence for obesity as an important complication in pregnancy is mounting; it is time to inform practice based on this evidence.
Conclusion
Maternal BMI shows strong associations with pregnancy complications and outcomes. Obesity is associated with increased incidence of pre-eclampsia, gestational hyper-tension, macrosomia, stillbirth, induction of labour and caesarean delivery; while underweight women appear to have better pregnancy outcomes than even women with BMI within the normal range.
Competing interests
The author(s) declare that they have no competing inter-ests.
Authors' contributions
SB¥ was responsible for designing the study, analysing the data and writing the first and final drafts. DC and WAL conceived of the original research idea and were responsi-ble for facilitating data extraction from the Aberdeen Maternity and Neonatal Databank. SB had input into design of the study, analysis plan, interpretation of the results and editing the first draft. All four authors contrib-uted to the writing of the final draft. Acknowledgements
This research was supported by a project grant from the Chief Scientist's Office in Scotland. The authors would like to thank Mrs. Linda Murdoch for extracting the data from the Aberdeen Maternity and Neonatal Databank. References
1.COG, 5th October 2006 Press eleases[http://
https://www.sodocs.net/doc/9b17441933.html,/index.asp?PageID=97&PressReleaseID=126].
Accessed 11.12.2006.
2.Garbaciak JA, Richter MD, Miller S, Barton JJ: Maternal weight and
pregnancy complications.Am J Obstet Gynecol 1985, 152:238-245.
3.Abrams BF, Laros RK Jr: Prepregnancy weight, weight gain and
body birthweight.Am J Obstet Gynecol 1986, 154:503-509.
4.Naeye RL: Maternal body weight and pregnancy outcome.Am
J Clin Nutr 1990, 52:273-279.
5.Cogswell ME, Serdula MK, Hungerford DW, Yip R: Gestational
weight gain among average-weight and overweight women –what is excessive?Am J Obstet Gynecol 1995, 172:705-712.
6.Report of the Confidential Enquiry into Maternal and Child Health. Why
mothers die 2000–2002 Edited by: Lewis G. RCOG:London; 2004.
7.Odell LD: The overweight obstetric patient.JAMA 1945,
128:87-90.
8.Rode L, Nilas L, Wojdemann K, Tabor A: Obesity-related compli-
cations in Danish single cephalic term pregnancies.Obstet Gynecol 2005, 105:537-542.
9.Kristensen J, Vestergaard M, Wisborg K, Kesmodel U, Secher NJ:
Pre-pregnancy weight and the risk of stillbirth and neonatal death.BJOG 2005, 112:403-408.
10.Cedergren MI: Maternal morbid obesity and the risk of
adverse pregnancy outcome.Obstet Gynecol 2004, 103:219-224.
https://www.sodocs.net/doc/9b17441933.html,attingius S, Berfstrom R, Lipworth L, Kramer MS: Prepregnancy
weight and the risk of adverse pregnancy outcomes.N Engl J Med 1998, 338:147-152.
12.Sebire NJ, Jolly M, Harris JP, Wadsworth J, Joffe M, Beard RW, Regan
L, Robinson S: Maternal obesity and pregnancy outcome: a study of 287,213 pregnancies in London.Int J of Obesity 2001, 25:1175-1182.
13.Kiran UTS, Hemmadi S, Bethel J, Evans J: Outcome of pregnancy
in a woman with an increased body mass index.BJOG 2005, 112:768-772.
14.Smith GCS, Shah I, Pell JP, Crossley JA, Dobbie R: Maternal obesity
in early pregnancy and risk of spontaneous and elective pre-term deliveries: A retrospective cohort study.Am J Public Health 2007, 97(1):157-162.
15.Spinillo A, Capuzzo E, Piazzi G, Ferrari A, Morales V, DiMario M: Risk
for spontaneous preterm delivery by combined body mass index and gestational weight gain patterns.Acta Obstet Gynecol Scand 1998, 77:32-36.
16.Sebire NJ, Jolly M, Harris JP, Regan L, Robinson S: Is maternal
underweight really a risk factor for adverse pregnancy out-come? A population based study in London.BJOG 2001, 108:61-66.
17.Samphier M, Thomson B: The Aberdeen Maternity and Neona-
tal Databank. In Prospective longitudinal research: an empirical basis for the primary prevention of psychological disorders 1st edition. Edited by: Mednick SA, Baert AE. Oxford (UK): Oxford University Press;
1981:61-65.
18.Abrams B, Parker J: Overweight and pregnancy complications.
Int J Obesity 1988, 12:293-303.
19.O'Brien TE, Ray JG, Chan WS: Maternal body mass index and
the risk of preeclampsia: a systematic review.Epidemiology 2003, 14:368-374.
20.Kabiru W, Raynor BD: Obstetric outcomes associated with
increase in BMI category during pregnancy.Am J Obstet Gynecol 2004, 191:928-932.
21.Abenheim HA, Kinch RA, Morin L, Benjamin A, Usher R: Effect of
prepregnancy body mass index categories on obstetrical and neonatal outcomes.Arch Gynecol Obstet 2007, 275:39-43.
22.Bianco AT, Smilen SW, Davis Y, Lopez S, Lapinski R, Lockwood CJ:
Pregnancy outcome and weight gain recommendations for the morbidly obese woman.Obstet Gynecol 1998, 91:97-102.
23.Baeten JM, Bukusi EA, Lambe M: Pregnancy complications and
outcomes among overweight and obese nulliparous women.
Am J Public Health 2001, 91:436-440.
24.Weiss JL, Malone FD, Emig D, Ball RH, Nyberg DA, Comstock CH,
Saade G, Eddleman K, Carter SM, Craigo SD, Carr SR, D'Alton ME, FASTER Research Consortium: Obesity, obstetric complications and caesarean delivery rate – a population based screening study.Am J Obstet Gynecol 2004, 190:1091-1097.
25.Yu CKH, Teoh TG, Robinson S: Obesity in pregnancy.BJOG 2006,
113:1117-1125.
26.Castro LC, Avina RL: Maternal obesity and pregnancy out-
comes.Curr Opin Obstet Gynecol 2002, 14:601-606.
27. [https://www.sodocs.net/doc/9b17441933.html,/dugaldbairdcentre/databank]. Accessed on
01.06.07.
28.Lederman SA, Paxton A: Maternal reporting of prepregnancy
weight and birth outcome: Consistency and completeness compared with the clinical record.Matern Child Health J 1998, 2(2):123-126.
29.Krishnamoorthy U, Schram CMH, Hill SR: Maternal obesity in
pregnancy: is time for meaningful research to inform pre-ventive and management strategies?BJOG 2006, 113:1134-1140.
30.Institute of Medicine: Nutrition during pregnancy: part I:
Weight gain. Washington DC. The National Academy of Sciences;
1990.
Pre-publication history
The pre-publication history for this paper can be accessed here:
https://www.sodocs.net/doc/9b17441933.html,/1471-2458/7/168/pre pub