http://orcid.org/0000-0003-2994-3240
Figures
Abstract
Objective
To describe and compare outcomes in severely obese (body mass index (BMI)>35kg/m2) women and other women admitted to alongside (co-located) midwifery units (AMU) in the United Kingdom.
Methods
We carried out a national prospective cohort study using the UK Midwifery Study System (UKMidSS) in all 122 AMUs in the UK. We identified and collected data about 1122 severely obese women admitted to an AMU, 1st January-31st December 2016, and 1949 comparison women (BMI≤35kg/m2), matched on time of admission, and used Poisson regression to calculate relative risks adjusted for maternal characteristics.
Results
92% of the severely obese cohort had BMI 35.1-40kg/m2. Severely obese multiparous women were no more likely than comparison women to experience the composite primary outcome (one or more of: augmentation, instrumental birth, Caesarean, maternal blood transfusion, 3rd/4th degree tear, maternal admission to higher level care) (5.6% vs. 8.1%, aRR = 0.68, 95% CI 0.44–1.07). For severely obese nulliparous women we found a non-significant 14% increased risk of the primary outcome (37.6% vs 34.8%, aRR = 1.14, 95% CI 0.97–1.33). High proportions of severely obese women had a ‘straightforward vaginal birth’ (nulliparous 67.9%; multiparous 96.3%). Severely obese women were more likely than comparison women to have an intrapartum Casearean section, but Caesarean section rates were low and the absolute difference small (4.7% vs 4.1%; aRR = 1.62; 95% CI 1.02–2.57). In nulliparous women, severely obese women were more likely to have an urgent Caesarean section (12.2% vs. 6.5%, aRR = 1.80, 95% CI 1.05–3.08), or a PPH≥1500ml (5.1% vs. 1.7%, aRR = 3.01, 95% CI 1.24–7.31).
Conclusions
We found no evidence of significantly increased risk associated with planning birth in an AMU for carefully selected multiparous severely obese women, with BMI 35.1-40kg/m2. Severely obese nulliparous women have a potential increased risk of having a more urgent Caesarean section or severe PPH compared with other women admitted to AMUs.
Citation: Rowe R, Knight M, Kurinczuk JJ, on behalf of the UK Midwifery Study System (UKMidSS) (2018) Outcomes for women with BMI>35kg/m2 admitted for labour care to alongside midwifery units in the UK: A national prospective cohort study using the UK Midwifery Study System (UKMidSS). PLoS ONE 13(12): e0208041. https://doi.org/10.1371/journal.pone.0208041
Editor: David N. Hackney, Case Western Reserve University, UNITED STATES
Received: July 25, 2018; Accepted: November 9, 2018; Published: December 4, 2018
Copyright: © 2018 Rowe et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Data Availability: The UKMidSS Severe Obesity dataset used for this study cannot be made publicly available because it contains information which could identify participating centres, raising confidentiality issues. Requests for access to the dataset underlying our findings will be considered by the National Perinatal Epidemiology Unit Data Sharing Committee and should be addressed to ukmidss@npeu.ox.ac.uk in the first instance.
Funding: This paper presents independent research arising from a National Institute for Health Research (NIHR) Post Doctoral Fellowship awarded to Rachel Rowe (PDF-2014-07- 006). The views expressed are those of the authors and not necessarily those of the NHS, the NIHR or the Department of Health and Social Care. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Competing interests: The authors have declared that no competing interests exist.
Introduction
The prevalence of obesity in pregnant women is increasing across the world, representing an increasing clinical and economic burden on health services.[1, 2] In the UK in 2015–16, less than half of pregnant women had a body mass index (BMI) within the normal range (18.5-25kg/m2) and around 8% of women giving birth had a BMI≥35 at booking.[3] Maternal obesity is a recognised risk factor for a range of complications and adverse outcomes of pregnancy, labour and birth.[4, 5] Some dietary and lifestyle interventions in pregnancy are effective in reducing maternal weight gain, but there is only weak evidence about their effectiveness in improving outcomes for women and their babies.[5–7] It is therefore increasingly important to identify how best to provide care and improve outcomes for obese pregnant women.
UK national clinical guidelines recommend that women with a BMI>35 kg/m2 at booking should plan birth in a consultant-led obstetric unit (OU), rather than in a midwifery-led setting, in order to reduce the associated risks.[8] There is some evidence, however, that selected sub-groups of obese women may have lower intrapartum-related risks than previously thought.[9–11] It has been suggested that some women with BMI>35kg/m2 might be considered suitable for planning birth in a midwifery unit (MU), as one approach to improving outcomes.[9] In healthy women with straightforward pregnancies, planned birth in a MU is associated with a more positive experience and a reduced risk of medical intervention, with no difference in safety compared with planned OU birth.[8, 12] In the UK, midwifery units may be ‘freestanding’ (FMU), located on a site geographically separate from an OU, or ‘alongside’ (AMU), on the same site or in the same hospital as an OU.[13] In both types of MU, care is provided by midwives and transfer to an OU is required for obstetric, medical or anaesthetic care (including regional analgesia).[8] Since 2008–10 the number of women giving birth in MUs in the UK has increased; in 2015 14% of all births in England took place in MUs, with around 85% of those births in AMUs.[14]
In this study we aimed to explore and describe clinical characteristics, and maternal and perinatal outcomes, in women with a BMI>35kg/m2 at booking admitted for labour care to an AMU in the UK and to compare outcomes in this group with women with a booking BMI≤35kg/m2 admitted for labour care to the same AMUs.
Methods
Ethics
The UK Midwifery Study System (UKMidSS) and the UKMidSS Severe Obesity Study received ethics approval from the National Research Ethics Service (NRES) Committee South West–Frenchay (REC ref. 15/SW/0166) in May 2015.
Study design
We carried out a national prospective cohort study, identifying and collecting data about all women with a booking BMI>35kg/m2 admitted for labour care in all AMUs across the UK between 1st January and 31st December 2016, and a comparison cohort (BMI≤35kg/m2), matched on time of admission to the same AMUs.
Data collection
This study was carried out using UKMidSS, a research infrastructure covering all 122 AMUs in the UK in 2016 (101 in England, 10 in Wales, 6 in Scotland and 5 in Northern Ireland). Eligible units which opened or closed during the study period participated while they were open.
UKMidSS methods have been described elsewhere.[15] In each AMU one or more midwives were UKMidSS ‘reporters’ for that unit and, in response to monthly emails from the UKMidSS co-ordinating centre at the National Perinatal Epidemiology Unit, reported the number of women with booking BMI>35kg/m2 (referred to in this paper as ‘severely obese’ women) admitted for labour care to the AMU in the previous month (including zero if they had no severely obese women to report). They also reported ‘denominator data’ on total admissions and births in the AMU each month. On reporting a severely obese woman, electronic case report forms (CRFs) were automatically generated in a secure web-based environment to collect further detailed anonymous information confirming the eligibility of the woman, socio-demographic and clinical characteristics, pregnancy and labour care, and maternal and neonatal outcomes. Reporters were also asked to identify and enter data on two comparison women for each severely obese woman, selected as the two women, with booking BMI≤35kg/m2, who were admitted to the AMU immediately before the severely obese woman. All data were anonymous and entered directly from women’s notes and/or hospital electronic patient records.
Outcomes
The primary outcome was a composite measure of adverse maternal outcome, reflecting the need for obstetric care (i.e. that the woman could not continue to be cared for in an AMU), comprising at least one of the following: augmentation with syntocinon, instrumental delivery, intrapartum Caesarean section, general anaesthesia, maternal blood transfusion, third/fourth degree perineal tear, maternal admission for higher level care (high dependency/intensive care) in the immediate postnatal period. The use of this primary outcome, which was defined a priori before the start of data collection,[15] also facilitated comparison with Hollowell et al (2013) which investigated outcomes for ‘otherwise healthy’ obese women planning birth in OUs.[9]
We also investigated a number of secondary outcomes. While most of these are described as ‘maternal’ outcomes, several have potential implications for neonatal wellbeing, e.g. instrumental delivery, Caesarean section, shoulder dystocia. The maternal outcomes investigated were: the individual components of the composite outcome; transfer from the AMU to the care of an obstetrician during labour or within 24 hours of birth; documented shoulder dystocia; immersion in water during labour; birth in water; ‘straightforward vaginal birth’ (i.e. birth without forceps, ventouse or Caesarean, with no third/fourth degree perineal tear and no blood transfusion);[16] urgent Caesarean section (i.e. ‘category 1: immediate threat to the life of the woman or fetus’, or ‘category 2: maternal or fetal compromise which is not immediately life-threatening’;[17]) postpartum haemorrhage (PPH) ≥1500ml; maternal death.
The neonatal outcomes investigated were: Apgar score <7 at 5 minutes; initiation of breastfeeding; neonatal unit admission; stillbirth/neonatal death.
In addition to ‘negative’ outcomes indicating potential adverse events during labour and birth we explicitly chose to investigate some ‘positive’ outcomes, e.g. straightforward vaginal birth, immersion in water during labour, birth in water and initiation of breastfeeding, because of their potential impact on women’s labour and birth experience.[18]
Data and definitions
Booking BMI>35kg/m2 was chosen as the criteria for inclusion in this study because UK national clinical guidance on planning place of birth recommends that women with a BMI>35 kg/m2 at booking should be advised to plan birth in an OU, rather than in a midwifery-led setting.[8] In the UK, BMI is determined from weight measured at ‘booking’, which is the first antenatal appointment with a midwife, at or around 8–12 weeks’ gestation. Broadly speaking BMI>35kg/m2 equates to obese class II (35–39.99kg/m2) and class III (≥40kg/m2) in the WHO BMI classification.[19] Women with BMI = 35kg/m2, considered by WHO to be obese class II, were included in our comparison group because according to national guidance they would be considered eligible for birth in a midwifery unit.
We asked UKMidSS reporters to report all women with a booking BMI>35kg/m2 who were admitted for labour care to an AMU and who went on to give birth in the same admission, irrespective of where they gave birth. Women admitted for assessment who went home before giving birth or who were seen only for obstetric triage were therefore not included.
All data were entered into electronic CRFs by UKMidSS reporters from women’s medical records. For a woman reported as having a BMI>35kg/m2 we queried any missing BMI data or data entered as ≤35, on the basis that this woman would not be eligible for inclusion in the severely obese cohort, or entered as >45, on the basis that these values were potentially implausible. Where BMI was entered as ≤35 and confirmed as correct by the reporting midwife, or missing and confirmed unavailable, the woman was excluded as ‘ineligible’. Where BMI was entered as >45, but the data query was not responded to, the BMI was regarded as ‘unconfirmed’ and the woman’s data were not included in the dataset. For a woman in the comparison group, if BMI data was missing from the electronic CRF the woman’s data were included in the dataset if the reporting midwife was able to confirm that the woman’s BMI was not >35, e.g. by checking with the midwife who looked after the woman in labour.
UK national guidelines recommend that women with specified medical or obstetric risk factors (including BMI>35kg/m2) identified prior to the start of labour are advised that planning birth in an OU would be expected to reduce their risk of adverse outcome.[8] However, local guidelines and individual care plans give scope for selected women with pre-existing risk factors to plan birth in midwifery-led settings; in 2008–10 around 4% of women admitted to AMUs in England for labour care had pre-existing risk factors.[16, 20] We therefore collected data about any medical or obstetric risk factors known prior to the start of labour care, in addition to raised BMI for the severely obese women, which were entered into the CRF as free text. These were independently coded by a research midwife and RR with reference to the risk factors listed in UK national guidelines indicating increased risk suggesting planned birth in an OU (Tables 39 and 40 [8]). Where the free text provided clear evidence of a medical or obstetric risk factor, e.g. “Asthma requiring hospitalisation during pregnancy”, this was coded as a ‘clear’ risk factor. Where there was insufficient information to confirm the risk factor, e.g. “Asthma”, this was coded as a ‘possible’ risk factor. Any discrepancies in coding were resolved by discussion.
We also collected data about ‘complicating conditions’ identified at the start of care in labour, using a list of complications, from the same UK national guideline, which indicate that transfer to obstetric-led care should be considered.[8] These are distinct from pre-existing risk factors identified during pregnancy and include, for example, maternal tachycardia or pyrexia, hypertension, proteinuria, prolonged rupture of membranes, abnormal presentation and fetal heart rate abnormalities.
The woman’s occupation (or her partner’s where the woman was out of work or where her occupation was not known) was used to derive the three-class version of the National Statistics Socio-economic Classification (NS-SEC), using the ‘simplified method’.[21] To derive a measure of area deprivation UKMidSS reporters entered women’s postcodes into a bespoke ‘look-up’ website which returned a ‘score’ for the Children in Low-income Families Local Measure, which they then entered into the CRF with other data. This score represents the proportion of children aged under 16 living in households in receipt of out of work benefits, or in receipt of tax credits where their reported income is less than 60% of UK median income.[22] Cut-offs derived using data on the number of babies in 2015 in the UK from official birth records were used to create deciles and quintiles.
Measurement of estimated blood loss (EBL) is likely to have been based on clinical estimation. We collected data on PPH≥1500ml, rather than EBL, because of well documented difficulties in estimating blood loss volume accurately, and evidence that estimations become more reliable as blood loss volume increases.[23] This enabled us to identify and quantify the risk of major haemorrhage, likely to require treatment to prevent serious morbidity.
Statistical analysis
We used Stata 13SE for all analyses. We estimated the prevalence of severe obesity in women admitted for labour care in AMUs using the total reported number of women admitted for labour care to AMUs as the denominator and the total number of confirmed severely obese women as the numerator, with 95% confidence intervals (CI).
We described the maternal socio-demographic and clinical characteristics and maternal and neonatal outcomes of the severely obese and comparison cohorts by parity using frequencies and percentages.
We used log Poisson regression to calculate the relative risk (RR) of the primary and secondary outcomes in the severely obese cohort relative to the comparison group adjusted (aRR) for maternal age, ethnic group, area deprivation quintile (Children in Low-Income Families Local Measure), gestation at admission, the presence of pre-existing medical and obstetric ‘risk factors’ in addition to raised BMI, and parity where appropriate (see S1 Table for categorisation). All analyses were carried out separately by parity and in the overall group combining nulliparous and multiparous women (adjusted for parity). We used the Wald test to investigate interaction between obesity group and parity and where no interaction was identified we report pooled estimates in addition to estimates by parity. We used robust variance estimation to allow for the clustering of women within units.
During the course of the study we became aware that in some centres comparison women had not been selected according to instructions. We contacted all centres and asked reporters to confirm the selection method used for comparison women for each severely obese woman. Where comparison women were selected using an unacceptable method (14 centres, 208 comparison women), or where the selection method was unknown (10 centres, 63 comparison women), the data for these comparison women were removed from the dataset. For the primary outcome, we carried out a sensitivity analysis restricting the study population to those severely obese women for whom comparison women were selected using the specified method.
We conducted a pre-specified sub-group analysis repeating the main analysis for the primary outcome in the sub-group of ‘otherwise healthy’ severely obese women, that is, severely obese women identified as not having any pre-existing risk factors in addition to BMI>35kg/m2 and women in the comparison cohort with no pre-existing risk factors.
Finally, we carried out a series of post hoc analyses using the Chi-squared test. We tabulated reasons for Caesarean section and reasons for transfer in severely obese women and the comparison group; explored associations between reasons for transfer, obstetric interventions and mode of birth and severe PPH in severely obese nulliparous women; and tabulated place of birth in severely obese nulliparous women who experienced a severe PPH.
For all analyses using the primary outcome we used p<0.05 to assess statistical significance and, because of multiple testing, for all secondary outcomes we used p<0.01; absolute p-values are reported throughout.
Sample size and power
Within a one-year period we anticipated approximately 600 severely obese women would be admitted to AMUs for labour care, based on estimated incidence of 1% in a population of an estimated 60,000 women admitted to AMUs.[9] For an outcome with an incidence of 20% in the comparison group this would give 80% power at the 5% level of significance to detect a RR of 1.3 or greater in the severely obese group. The actual number of severely obese and comparison group women identified during the study period generated 80% power at the 5% level to detect a RR of 1.2 or greater in the severely obese group. For a less common outcome, with an incidence of 3% in the comparison group, the study had 80% power at the 5% level to detect a RR of 1.7 or greater.
Patient and public involvement (PPI)
PPI representatives advised on the development of the funding application for this study. The UKMidSS Steering Group includes two lay members who have represented the views of pregnant women and families throughout the conduct and interpretation of this study. We are also working with a wider PPI group to inform the development of user-friendly materials which will be used to disseminate the study results directly to women.
Results
Response and prevalence of severe obesity
All 122 AMUs in the UK participated in the study (100% of eligible units), with 99% response to monthly report requests.
A total of 1198 severely obese women were reported (Fig 1). We received complete data for 1126 severely obese women and 2238 comparison women. After exclusions there were 1122 confirmed severely obese women for whom we had complete data, from a total of 126,524 women admitted over the year, giving an estimated national prevalence of 0.89% (95% CI 0.84–0.94). Overall 91 AMUs (75%) admitted at least one confirmed severely obese woman for labour care in 2016. The prevalence of ‘severe obesity’ in women admitted to each AMU ranged from 0–5.2%, with a median of 0.58% (IQR 0.02%, 1.15%).
Maternal characteristics
In the severely obese women, BMI ranged from 35.1–56.7 with a median of 37kg/m2, compared with 24 kg/m2 (range 15.5–35) in the comparison group (Fig 2). Only 88 (8%) of the severely obese women had a BMI>40 kg/m2.
Compared with the comparison women, the severely obese women were more likely to be multiparous, have a gestational age of 41–42 weeks, and to live in a deprived area (Table 1). In multiparous women only, the severely obese women were younger and of lower socio-economic status than the comparison women. Both nulliparous and multiparous severely obese women were more likely to have at least one pre-existing medical or pregnancy risk factor (in addition to raised BMI) and to have a ‘complicating condition’ identified at the start of labour care (Table 2). A higher proportion of the severely obese women (2.1%) were identified as having gestational diabetes, compared with the comparison group (0.4%).
Maternal interventions and outcomes
Primary outcome.
In nulliparous women 37.6% of the severely obese group experienced our composite primary outcome, comprising at least one of augmentation, instrumental birth, Caesarean, maternal blood transfusion, 3rd/4th degree tear and maternal admission to higher level care, compared with 34.8% of the comparison group (aRR = 1.14; 95% CI 0.97–1.33) (Table 3). This difference was not statistically significant, but our analysis was almost certainly underpowered to detect a difference of this magnitude in the nulliparous group as statistically significant. Severely obese multiparous women were no more likely than comparison women to experience the primary outcome (5.6% vs. 8.1%; aRR = 0.68; 95% CI 0.44–1.07); the absolute risks of the primary outcome in multiparous women were substantially lower compared with nulliparous women (Table 3).
Our results were not materially different in the sensitivity analysis restricting the severely obese group only to those severely obese women for whom comparison women were selected using an appropriate method (S2 Table) and in our pre-specified sub-group analysis repeating the main analysis in ‘otherwise healthy’ women, that is women not identified as having any pre-existing risk factors (in addition to raised BMI for the severely obese group) (S3 Table).
Secondary maternal outcomes.
We found no statistically significant differences between the two groups for the following secondary maternal outcomes: transfer to obstetric care, shoulder dystocia, augmentation with syntocinon, general anaesthesia, vaginal birth, straightforward vaginal birth, instrumental birth, 3rd/4th degree perineal trauma, maternal blood transfusion, maternal admission for higher level care (S4 Table). High proportions of severely obese women had a ‘straightforward vaginal birth’ without instrumental assistance, with no third/fourth degree perineal trauma and no blood transfusion (nulliparous 67.9%; multiparous 96.3%) (S4 Table).
Severely obese women were significantly less likely than the comparison group to use immersion in water during labour (aRR = 0.76; 95% CI 0.64–0.90) and to give birth in water (aRR = 0.70; 95% CI 0.55–0.89) (Table 4). Nevertheless, relatively high proportions of severely obese women used immersion in water during labour (nulliparous 32.4%; multiparous 24.0%) or for birth (nulliparous 13.2%; multiparous 15.4%).
Severely obese women were significantly more likely than the comparison group to have an intrapartum Caesarean section, although the absolute difference in the overall (combined parity) group was small (4.7% vs. 4.1%; aRR = 1.62; 95% CI 1.02–2.57) (Table 4). In nulliparous women only, the severely obese group was 80% more likely than the comparison group to have an urgent (category 1 or 2) Caesarean section (12.2% vs. 6.5%; aRR = 1.80; 95% CI 1.05–3.08) and their risk of having a PPH ≥1500ml was 3 times higher (5.1% vs. 1.7%; aRR = 3.01; 95% CI 1.24–7.31) (Table 4).
Our exploratory post hoc analyses showed that there were some differences in the reasons for transfer (S5 Table). Compared with the comparison group, slightly higher proportions of severely obese women were transferred because of concerns about maternal (18% vs 12.2%) or fetal (30.0 vs24.7%) wellbeing during labour, and lower proportions were transferred for delay in labour (24.0% vs 28.6%) and epidural/pain relief (11.2% vs 15.6%). There were no statistically significant differences in the reasons for Caesarean section between the two groups (S5 Table).
In the nulliparous severely obese group, all but three of the sixteen women who had a PPH≥1500ml gave birth in the OU, having been transferred from the AMU during labour (S6 Table). Eight of these women were transferred because of delay in labour (50%), compared with 11.5% in the nulliparous severely obese women who did not have a PPH≥1500ml (p<0.001). High proportions of those who had a PPH≥1500ml had their labour augmented (56.3% vs 18.6% in those who did not have a PPH≥1500ml; p<0.001) or had an epidural (81.3% vs 27.5%; p<0.001), and only 31.3% had a spontaneous vaginal birth (compared with 74.7%; p = 0.001) (S6 Table).
There were no maternal deaths in either group.
Neonatal outcomes
We found no statistically significant associations between severe obesity and any of the neonatal outcomes studied: Apgar<7 at 5 minutes, initiation of breastfeeding and neonatal unit admission (S7 Table). There were no intrapartum stillbirths in either group, and the one neonatal death was as a result of a congenital anomaly, and was not related to antenatal/intrapartum care.
Discussion
Main findings
Despite national guidance,[8] the admission of women with BMI>35kg/m2 to AMUs in the UK is widespread, with around 75% of units admitting at least one severely obese woman for labour care during 2016. Over 90% of these women had a BMI between 35.1-40kg/m2, so they are not representative of the general population of severely obese pregnant women.[3]
In multiparous women we found that the severely obese group were no more likely than other multiparous women admitted to AMUs to experience an obstetric intervention or adverse maternal outcome, after adjustment for maternal characteristics, and almost all (96%) had a ‘straightforward vaginal birth’. We found no evidence of increased risk in any adverse maternal or perinatal outcomes, compared with other multiparous women admitted to AMUs.
In nulliparous women we found that the severely obese group had a non-significant 14% increased risk of experiencing an obstetric intervention or adverse maternal outcome, but our analysis was underpowered to detect a difference of this magnitude as statistically significant. Severely obese nulliparous women also had an 80% higher risk of having an urgent Caesarean section and a three-fold increased risk of having a PPH ≥1500ml, compared with other nulliparous women. For other secondary maternal and neonatal outcomes we found no associations with severe obesity in nulliparous women.
Overall, we found that severely obese women were more likely than the comparison group to have an intrapartum Caesarean section, but overall rates of Caesarean were low and absolute differences small. Severely obese women were less likely than other women to use immersion in water during labour or to give birth in water, but overall proportions of severely obese women using water for labour or birth were relatively high (26% and 15% respectively).
Strengths and limitations
The major strength of this study is its national population-based design, which reduces the risk of the biases associated with local, hospital-based studies. All eligible UK AMUs participated in the study, with a 99% response to monthly report requests and complete data returned for over 90% of the severely obese women reported, reducing the possibility of selection bias. We were dependent on data that were routinely recorded in women’s notes so did not have data on a number of factors of interest including, for example, whether the severely obese woman was admitted to the AMU in accordance with AMU admission guidance or under a specific care plan. Although we collected data on minimum and maximum weight, only 23% of women were weighed more than once during pregnancy so we were unable to investigate associations between weight gain during pregnancy and outcomes.
By engaging with UKMidSS reporters, using reminders and checking with those units who reported no severely obese women during the study, we aimed to identify all severely obese women admitted for labour care to AMUS. Some severely obese women may have been missed and we had no other sources of data against which to validate reported cases, but our prevalence estimate is similar to that derived from data from the Birthplace study in 2008–10.[20]
Our aim was to compare outcomes for severely obese women admitted for labour care in AMUs with other women admitted to AMUs. We cannot therefore compare outcomes for severely obese women directly with outcomes for similar women admitted to OUs. Nevertheless, by using the same primary outcome we can, for example, compare with findings from Hollowell et al[9] and our study provides more information to help women make informed decisions about place of birth.
Because 92% of the severely obese women admitted to AMUs had a BMI between 35.1-40kg/m2, and were otherwise ‘selected’ for admission to an AMU in ways that we could not measure, the findings of our study should not be considered generalisable to women with BMI>40kg/m2. Our study was underpowered for the primary outcome in the nulliparous group, in large part because the primary outcome was less common than we anticipated, and for uncommon adverse outcomes, so findings in relation to these should also be treated with caution.
Other evidence and clinical implications
Our findings are consistent with other evidence which suggests that selected groups of ‘lower risk’ obese and severely obese women may have lower intrapartum-related risks than previously thought.[9–11] In our severely obese cohort admitted to AMUs we observed lower rates of obstetric intervention and adverse maternal outcome overall compared with the ‘otherwise healthy’ women with BMI>35kg/m2 planning OU birth in the study by Hollowell et al[9] (37.7% vs 57.1% respectively in nulliparous women and 5.4% vs 21.0% respectively in multiparous women). We also observed substantially lower rates of augmentation (11.5% vs 27.2% respectively), instrumental delivery (4.9% vs 9.4%) and intrapartum caesarean section (4.7% vs 13.6%) in our severely obese cohort compared with the women in the study by Hollowell et al.[9] This is consistent with ‘lower risk’ severely obese women being ‘selected’ for AMU birth, for which we have some supporting evidence given that 92% of the severely obese cohort had a BMI between 35.1-40kg/m2. However, over 10% of the severely obese cohort also had one or more potential risk factor in addition to raised BMI, including 2% with gestational diabetes. It is also possible that having been admitted to the AMU, the severely obese women in our study received more attention from their carers or more individualised care, precisely because they were severely obese, but we lack the data to confirm or refute this.
Nulliparous obese women are more likely to have slow labour or ineffective uterine contractility, compared with multiparous obese women,[24, 25] with an increased risk of intrapartum Caesarean section as a consequence, which is what we observed in this study.[25, 26] Our study was underpowered for our primary outcome in nulliparous women so we are unable to say with confidence whether the nulliparous severely obese group had an increased risk of this pre-specified composite of ‘obstetric intervention or adverse maternal outcome’. We did however find that severely obese nulliparous women in the cohort were at an increased risk of severe PPH. While this was not entirely explained by their increased risk of intrapartum Caesarean section, our post hoc exploratory analyses in this small group of women are indicative of poorer uterine contractility/uterine atony, leading to delay in labour, with consequent transfer, augmentation of labour and a high chance of instrumental or operative birth. It may be reassuring that 80% of the severely obese nulliparous women who experienced a severe PPH gave birth in an OU, following transfer during labour from the AMU. Considering absolute risks in this context may also be helpful. The proportion of severely obese nulliparous women experiencing an urgent Caesarean section was not insignificant (12.3%), but compares favourably with national data from 2008–10 indicating that 16% of all nulliparous women planning OU birth had an intrapartum Caesarean section.[12] In a national audit in England and Wales in 2015–16, 2.6% of all women giving birth experienced a severe PPH, compared with 5.3% in the nulliparous severely obese women in our study.[3]
With an increasingly obese pregnant population,[3] and limited evidence about effective interventions to improve outcomes,[5–7] the findings of this study are important because they provide evidence about what is appropriate care for this group and demonstrate that selected multiparous women with BMI between 35.1-40kg/m2 can safely plan birth in an AMU. With clear admission criteria and careful care planning, access to AMU care provides an opportunity to reduce intervention and improve outcomes for substantial proportions of women with BMI between 35.1-40kg/m2. It is possible that this could also be associated with cost savings compared with planned OU birth.[27] Qualitative studies suggest that, like all women,[18] obese women want to have as normal a birth as possible[28] and that medicalisation of their pregnancy experience can leave obese women feeling negative about their carers and their experience.[29, 30] While there is relatively little evidence about obese women’s experience of care during labour and birth, providing more obese women with access to midwifery led care during labour and birth has the potential to improve their birth experience and outcomes.
Conclusions and implications for policy and practice
Admission of severely obese women to AMUs in the UK is widespread, but there is evidence of ‘selection’, for example of women with BMI between 35.1-40kg/m2. Because of this apparent selection the results of our study should not be considered applicable to women with BMI>40kg/m2.
Our results indicate no evidence of increased risk associated with planning birth in an AMU for carefully selected multiparous women with BMI between 35.1-40kg/m2, and rates of vaginal birth were high. This is likely to bring significant benefits in terms of their likelihood of giving birth without intervention, compared with planning birth in an OU.
Nulliparous women with BMI between 35.1-40kg/m2 should be advised that they may have an increased risk of having an obstetric intervention or adverse maternal outcome, as defined in our study, and that, in particular, they have a potential increased risk of having a more urgent Caesarean section or a severe PPH compared with other women admitted to AMUs. The absolute risks of these adverse outcomes can also be used to inform women’s decision-making in consultation with their care providers.
Supporting information
S1 Table. Categorisation of potential confounders.
https://doi.org/10.1371/journal.pone.0208041.s001
(DOCX)
S2 Table. Sensitivity analysis: Primary outcome in restricted population (including only those severely obese women for which comparison women were appropriately selected).
https://doi.org/10.1371/journal.pone.0208041.s002
(DOCX)
S3 Table. Primary outcome in ‘otherwise healthy’ women.
https://doi.org/10.1371/journal.pone.0208041.s003
(DOCX)
S4 Table. Secondary maternal outcomes in severely obese and comparison women.
https://doi.org/10.1371/journal.pone.0208041.s004
(DOCX)
S5 Table. Reasons for transfer and reasons for intrapartum Caesarean section in severely obese and comparison women.
https://doi.org/10.1371/journal.pone.0208041.s005
(DOCX)
S6 Table. Reasons for transfer, obstetric interventions, mode of birth and place of birth by postpartum haemorrhage ≥1500ml in nulliparous severely obese women (n = 312).
https://doi.org/10.1371/journal.pone.0208041.s006
(DOCX)
S7 Table. Neonatal outcomes in babies of severely obese and comparison women.
https://doi.org/10.1371/journal.pone.0208041.s007
(DOCX)
Acknowledgments
The authors would like to thank all the UKMidSS reporting midwives across the UK who responded to monthly report requests and entered data.
UK Midwifery Study System Steering Group (in addition to RR, MK and JJK): Mervi Jokinen (Chair), Royal College of Midwives; Catherine Williams (Vice Chair), lay member; Jan Butler, Cambridge University Hospitals NHS Foundation Trust; Abi Holmes, Cardiff & Vale University Health Board; Eddie Morris, Royal College of Obstetricians and Gynaecologists; Dharmintra Pasupathy, Guy’s & St Thomas’ NHS Foundation Trust; Rachel Plachcinski, lay member; Jane Rogers, University Hospitals Southampton NHS Foundation Trust; Julia Sanders, Cardiff & Vale University Health Board; Aung Soe, Medway NHS Foundation Trust; Phyllis Winters, NHS Tayside.
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