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The safe motherhood referral system to reduce cesarean sections and perinatal mortality - a cross-sectional study [1995-2006]
© Rudge et al; licensee BioMed Central Ltd. 2011
Received: 31 August 2011
Accepted: 23 November 2011
Published: 23 November 2011
In 2000, the eight Millennium Development Goals (MDGs) set targets for reducing child mortality and improving maternal health by 2015.
To evaluate the results of a new education and referral system for antenatal/intrapartum care as a strategy to reduce the rates of Cesarean sections (C-sections) and maternal/perinatal mortality.
Design: Cross-sectional study. Setting: Department of Gynecology and Obstetrics, Botucatu Medical School, Sao Paulo State University/UNESP, Brazil. Population: 27,387 delivering women and 27,827 offspring. Data collection: maternal and perinatal data between 1995 and 2006 at the major level III and level II hospitals in Botucatu, Brazil following initiation of a safe motherhood education and referral system. Main outcome measures: Yearly rates of C-sections, maternal (/100,000 LB) and perinatal (/1000 births) mortality rates at both hospitals. Data analysis: Simple linear regression models were adjusted to estimate the referral system's annual effects on the total number of deliveries, C-section and perinatal mortality ratios in the two hospitals. The linear regression were assessed by residual analysis (Shapiro-Wilk test) and the influence of possible conflicting observations was evaluated by a diagnostic test (Leverage), with p < 0.05.
Over the time period evaluated, the overall C-section rate was 37.3%, there were 30 maternal deaths (maternal mortality ratio = 109.5/100,000 LB) and 660 perinatal deaths (perinatal mortality rate = 23.7/1000 births). The C-section rate decreased from 46.5% to 23.4% at the level II hospital while remaining unchanged at the level III hospital. The perinatal mortality rate decreased from 9.71 to 1.66/1000 births and from 60.8 to 39.6/1000 births at the level II and level III hospital, respectively. Maternal mortality ratios were 16.3/100,000 LB and 185.1/100,000 LB at the level II and level III hospitals. There was a shift from direct to indirect causes of maternal mortality.
This safe motherhood referral system was a good strategy in reducing perinatal mortality and direct causes of maternal mortality and decreasing the overall rate of C-sections.
In 2000, the eight Millennium Development Goals (MDGs)  set targets for reducing child mortality and improving maternal health by 2015. There is growing consensus that a primary bottleneck in achieving MDG is a health system that is too fragile and fragmented to deliver the appropriate volume and quality of services to those in need . Development of more responsive health systems appears to be a prerequisite to achieving health-related MDGs.
The implementation of specific new interventions would enable health systems to respond better to the MDGs and make them more attainable. The provision of high-quality pregnancy and delivery care, including emergency obstetric assistance, is central to decreasing the maternal and neonatal mortality ratios. Not only does the maternal mortality rationeed to be decreased, but also direct etiologies of maternal mortality need to be identified and addressed in order to evaluate the quality of obstetric care .
Maternal and newborn health care currently constrains the health system. Improving access to emergency obstetric care is an effective strategy to improve pregnancy safety. To increase access to and utilization of services, interventions that implement maternal and newborn health assistance programs are needed. Within this framework, a two-level referral system was established in a low-income region of Brazil with a history ofvery high hospital maternal mortality ratio (HMMR) of 422/100,000 live births .
The Referral of Maternal and Perinatal Care, a safe motherhood operational study carried out in Botucatu, Brazil, aimed to develop a health program to improve maternal and perinatal outcomes. The major goals of this program were to create a system where obstetric need was based on the severity of obstetric complications, to collect and process maternal and neonatal data to establish a new database, to train medical personnel to use this program as a model and to standardize obstetric and neonatology procedures to unify diagnoses management and clinical programs for physicians and nurses. The expected results of this program were decreases in maternal and perinatal mortality ratesand in C-section rates.
The objective of this study is to evaluate the results of this safe motherhood referral system for antenatal/intrapartum care.
This operational research was approved by the Ethics Committee of Botucatu Medical School, Sao Paulo State University-UNESP [project number 2048/2006].
Design and population study
For this cross-sectional study, all delivery outcomes between 1995 and 2006 were analyzed for two referral hospitals located in Botucatu/SP, southeastern Brazil: Botucatu University Hospital (Level III) and Sorocabana Association Hospital (Level II), which together serve a population of about 1,200,000 people. All pregnant women were followed from delivery until puerperium and all infants from birth to discharge.
Safe motherhood referral system
In 1995 a safe motherhood referral system for antenatal/intrapartum care was created to improve maternal and perinatal outcomes and to avoid overcrowding in the Level III hospital, which is the only referral center for high-risk pregnant women in the area. Thus, when risk factors were identified during labor or in the postpartum period, a woman is referred to the Level III hospital. Emergency obstetric care at the Level III hospital was always available to all high-risk pregnant women.
The strategy for this initiative was to create a health system structure based on the exchange of patients from the Level II to the Level III hospital appropriate to the level of care required, including the provision of effective transport from one hospital to the other. This strategy consisted of service availability, referral and other communication systems, transport between the Level II to the Level III hospital and additional financial support for hospital staff. As a result, all high-risk pregnant women were planned to deliver at the Level III hospital, and all low-risk pregnant women were planned to deliver at the Level II hospital.
A separate cadre of better-paid health workers with more specified responsibilities was established. The health worker cadre was comprised of obstetricians, anesthesiologists, neonatologists, residents and medical and nursing students. Supplemental compensation for this health care was provided by the Health Secretary of São Paulo State, Brazil.
Maternal and perinatal outcomes in both hospitals were analyzed according to referral status. Data were obtained using linked hospital delivery and birth logs, patient medical records and necropsy reports or death certificates. The following variables were assessed yearly: number of deliveries, delivery route, perinatal mortality rate and maternal mortality ratio. Direct and indirect causes of maternal mortality were also determined.
The regional maternal and perinatal services are essentially an institution-based hierarchical system with the Level III hospital at the top. The two hospitals involved in the present study are identified by level of care based on the complexity of the treatments they provide. The level III (higher complexity) hospital provides complete maternity and neonatal care, intrapartum and neonatal intensive care, transport services, outreach education services, maternal and perinatal collection and analysis and evaluation of new technologies. The level II (lower complexity) hospital provides 24-hour in-house anesthesia services, 24-hour clinical laboratory and radiology services and stabilization and transfer of complicated obstetric cases, including threatened preterm deliveries up to34 weeks .
HMMR was defined as the number of maternal deaths per year divided by the number of live births per year, expressed per 100,000 live births (LB). The definition of direct maternal death included death of the mother resulting from obstetrical complications of pregnancy, labor, or puerperium and from interventions, omissions, incorrect treatment, or a chain of events resulting from any of these factors. Indirect maternal death was defined as a maternal death not directly due to an obstetric cause but resulting from a previously existing disease or a disease that developed during pregnancy, labor, or puerperium that was aggravated by the maternal physiological adaptation to pregnancy.
Perinatal mortality rate (PMR) was defined as the number of deaths in the first week of life (early neonatal deaths) plus fetal deaths (stillbirths) divided by the total number of births, expressed per 1000 births .
Simple linear regression models were adjusted to estimate the referral system's annual effects on the total number of deliveries, C-section rates, and perinatal mortality rate in the two hospitals. The theoretical assumptions for the application of simple linear regression were assessed by residual analysis (Shapiro-Wilk test). In addition, the influence of possible conflicting observations on estimate accuracy was evaluated by a diagnostic test (Leverage). Effects were considered statistically significant when p < 0.05.
Between 1995 and 2006, in both hospitals, there were 27,387 deliveries with 27,827 offspring (418 twin pregnancies and 11 triple pregnancies), 30 maternal deaths and 660 perinatal deaths. Among these deliveries, 10,206 deliveries were C-sections.
Total number of deliveries, Cesarean sections, hospital maternal mortality ratio (HMMR) and perinatal mortality rate (PMR) at the Level II and Level III hospitals between 1995 and 2006
1995 - 1998
1999 - 2002
2003 - 2006
1995 - 1998
1999 - 2002
2003 - 2006
1995 - 1998
1999 - 2002
2003 - 2006
1995 - 1998
1999 - 2002
2003 - 2006
The C-section rate at the Level II hospital decreased significantly over the study period, from 46.5% in 1995 to 23.4% in 2006 (p = 0.001) (Figure 2). An analysis conducted on data collected during this time period using simple linear regression showed a significant effect of time on the reduction in C-section rates. Every year, there was an average decrease of 1.4% (from 0.7% to 2%, 95% CI). The normality of the residual values was checked with a Shapiro-Wilk test, which yielded a p-value of 0.494.
The C-section rate at the Level III hospital remained about the same over the study period: 49.2% in 1995 and 48.4% in 2006 (p = 0.884) (Figure 2). An analysis conducted on data collected between 1995 and 2006 using simple linear regression showed no significant effect of time on the percentage of C-sections. The normality of the residual values was checked with the Shapiro-Wilk test, which yielded a p-value of 0.801.
PMR at the Level III hospital decreased significantly, from 60.8 deaths per 1000 births in 1995 to 39.6 per 1000 births in 2006 (p = 0.027) (Figure 3). A simple linear regression showed a significant effect of time on percentage reduction. Every year, there was an average decrease of 0.634 (from 0.24 to 3.27, 95% CI for the annual effect). The normality of the residual values was checked with the Shapiro-Wilk test, which yielded a p-value of 0.067. Required presuppositions as to the validity regression models were tested and no violation was identified. All requirements for validity of the model were met.
During the study period, hospital maternal mortality ratios (HMMR) were 16.3/100,000 in the Level II hospital and 185.1/100,000 in the Level III hospital, with little or no yearly variation in either hospital. In the Level III hospital, the average maternal death rate was 2.33 ± 1.96/year while in the Level II hospital, only two deaths occurred between 1995 and 2006. Data on 30 maternal deaths were included in the present study, 28 of which occurred at the Level III hospital. Maternal deaths due to indirect obstetric causes occurred in 13 cases: cardiopathy (4), cancer (4), anesthesia accident (1), chronic hypertension (1), hyperthyroidism (1), idiopathic lung interstitial disease (1) and cholangitis due to biliary lithiasis (1). Maternal deaths due to direct obstetric causes occurred in 17 cases: preeclampsia (7), puerperal infection (4), obstetric hemorrhage (4) and HELLP syndrome (2). The percent of maternal deaths due to indirect obstetric causes was 43.3%, and the percentage due to direct obstetric causes was 56.7% (95% CI: 38.9% to 74.4%). No significant difference was found between indirect and direct obstetric maternal death.
The implementation of a safe motherhood referral system for maternal and perinatal health care was shown to be associated with a decrease in C-section rate and PMR at the Level II hospital. It also decreased PMR at the Level III hospital and stabilized the C-section rate. The equalization of direct and indirect obstetric causes of maternal mortality was also a significant improvement.
The excessive use of C-sections is a serious problem in Brazil, where rates are usually above 40% . C-sections are known to be associated with a higher rate of maternal complications [9, 10]. They result in rehospitalization for wound complications and infection, and the average initial hospital cost for a C-section delivery is higher than for the average vaginal birth . The decrease in the C-section rate observed at the Level II hospital demonstrates that it is possible to reverse the rising C-section rates in developing countries and, thereby, reduce maternal morbidity .
Perinatal mortality is a sensitive indicator of the quality of obstetric and neonatal care . According to the World Health Organization (WHO) , 98% of perinatal deaths occur in developing countries. In Brazil, the few available studies on perinatal death report a rate two- to three-fold higher than that observed in developed countries [12–14]. Indirect obstetric causes of death are considered not preventable and are more frequent in developed countries . In Brazil, direct obstetric causes account for most maternal deaths; preeclampsia predominates, followed by obstetric hemorrhage and puerperal infection . The referral system assessed herein did not cause a reduction in the maternal mortality ratio. Nonetheless, the equalization of the direct and indirect obstetric causes of maternal mortality showed that obstetric care improved over the course of the study. To allow comparison of data during the period this fact was not described in Brazil .
This program is an effective two-level, parallel system whose focus was to improve maternal and perinatal outcomes, strengthen the healthcare system and removes the barriers between obstetric and perinatal care at Level II and Level III hospitals. This strategy could be considered for use in other regions as an intervention for improving the safety of pregnancy .
Although effective as an example to aid planning by individual governments and financial supporting agencies there are some possible limitations of this type of study. The major objection was that this is a cross-sectional study without a control group and without a baseline assessment. This allows us to conclude that there is an association between the intervention and improved outcomes. Another potential weaknesses in the study could be other effects that may have contributed to the improved outcomes over 12 years like changing economic conditions, better conditions in antenatal care and general medical care, greater access to care not ruled by the referral system. Instead of these limitations it is our aim to encourage other groups to develop similar programs.
Our results are in accordance to previous study that reorganization of health system was of great value to eliminate inequality in health assistance improving health outcomes and results in lower PMR . The political and administrative system and the organizational structure will strongly affect operations and, in turn, service outputs. Subsequently, this will have a direct effect on the health of women and newborns [19, 20]. The organizational structure of safe pregnancy services [19, 21] (including service infrastructure, sectorial integration, service delivery strategies and partners) and safe pregnancy practices (including management supervision, training, commodities acquisition/distribution, research and evaluation, and transport) are all included in our program. Thus, our referral program could be considered for use as an intervention for improving the safety of pregnancy.
Governments have a long history of announcing lofty and well-meaning pledges to make the world a healthier place. The dominant model for improving public health focuses almost exclusively on the supply side of the health equation by improving the quality of services, expanding coverage, and telling people why they should use the health service and where it is available . With our program, a two-pronged approach was used: on the supply side, the health infrastructure was upgraded, while demand was increased . There is an increasing consensus that stronger health systems are keys to improving health outcomes .
This program could be considered a Safe Motherhood Model (SMM) , i.e., a program to assist in effectively allocating the resources associated with reducing the maternal mortality ratio. The adequacy of delivery care, the access to services and the social and economic content have a direct influence on safe motherhood . National programs to improve maternal and neonatal health are wide ranging, and they involve very large investments. However, uniform, periodic measurements of the levels and types of effort being made are rare. This report uses a methodology that covers a twelve-year period by component and region, with attention to specific criteria .
Regionalization provided a framework for in uterus or postnatal transfer of high-risk mother-perinatal dyads to the level of care that offered them the best chance for survival .
In conclusion, our results demonstrate the importance of prioritizing the reorganization of referral systems and are in agreement with the conclusions of Ronsmans et al.  reductions in perinatal mortality will require strategies such as early detection and management of health problems during pregnancy. This strategy supports the hypothesis that a safe motherhood referral system for antenatal/intrapartum assistance is a tool to ensure mothers and their infants survive during these crucial periods.
These results demonstrate the importance of prioritizing the reorganization of referral systems and are in agreement with the conclusions of Ronsmans et al.  reductions in perinatal mortality will require strategies suchas early detection and management of health problems during pregnancy. This strategy supports the hypothesis that a safe motherhood referral system for antenatal/intrapartum careis associated with an increase in vaginal deliveries and a decrease in C-sections and PMR. In addition, in the present study, this system was responsible for the shift from direct to indirect causes of maternal death.
Details of ethics approval
This study was approved by the Ethics Committee of Botucatu Medical School, Sao Paulo State University-UNESP (project number 2048/2006).
The Safe Motherhood Referral System for antenatal/intrapartum care was founded by the Department of Gynecology and Obstetrics, Botucatu Medical School, São Paulo State University, UNESP, in 1995, with grants from the Kellogg Foundation to establish the program and grants from the São Paulo State Health Secretary for maintenance from 1997 to the present). The authors wish to thank Dr. Luiz Roberto Barradas Barata (in memorian) and Prof. José da Silva Guedes (São Paulo State Health Secretary), and to the Collaborative group, obstetricians, anesthesiologists, neonatologists and residents who participated in the program: Marcos Consonni, Vera TM Borges, Luciane TR. Lima Kerche, Juliana MS Villas Boas, Anice VC Martins, Claudia G Magalhães, Juliane R Poiati, Ligia MSS Rugolo, Maria R Bentlin, Ana Karina C De Luca, Grasiela Bossolan, Léia R Rodrigues, João C Lyra, Geraldo HS Silva, Alice Kiy, Glauce Fernandes, Simone M Carvalho, Saskia MW Fekete and Adriana Saito.
- United Nations: United Nations Millennium Declaration. 2000, New York: General Assembly, Resolution adapted by the General Assembly, 55th Session of the United Nations General Assembly. Sept 18, 2000.Google Scholar
- Travis P, Bennett S, Haines A, Pang T, Bhutta Z, Hyder AA: Overcoming health-systems constraints to achieve the Millennium Development Goals. Lancet. 2004, 364 (9437): 900-6. 10.1016/S0140-6736(04)16987-0.View ArticlePubMedGoogle Scholar
- Hill K, Thomas K, AbouZahr C, Walker N, Say L, Inoue M: Estimates of maternal mortality worldwide between 1990 and 2005: an assessment of available data. Lancet. 2007, 370 (9595): 1311-9. 10.1016/S0140-6736(07)61572-4.View ArticlePubMedGoogle Scholar
- Berezowski AT, Suetake H, Missiato M, Rudge MVC: Mortalidade materna - Análise dos últimos dez anos do Centro Médico-Universitário de Botucatu - UNESP. Rev Bras Ginecol Obstet. 1995, 17 (10): 1001-7.Google Scholar
- Yeast JD, Poskin M, Stockbauer JW, Shaffer S: Changing patterns in regionalization of perinatal care and the impact on neonatal mortality. Am J Obstet Gynecol. 1998, 178 (1 Pt 1): 131-5.View ArticlePubMedGoogle Scholar
- World Health Organization: Neonatal and perinatal mortality: country, regional and global estimates. 2006, Geneva: World Health OrganizationGoogle Scholar
- OPAS/OMS: Evaluacion del Plan de Acción Regional para la Reducción de la Mortalidad Materna. 1996, Washington:OPAS/OMSGoogle Scholar
- Rebelo F, da Rocha CM, Cortes TR, Dutra CL, Kac G: High cesarean prevalence in a national population-based study in Brazil: the role of private practice. Acta Obstet Gynecol Scand. 2010, 89 (7): 903-8. 10.3109/00016349.2010.484044.View ArticlePubMedGoogle Scholar
- Burrows LJ, Meyn LA, Weber AM: Maternal morbidity associated with vaginal versus cesarean delivery. Obstet Gynecol. 2004, 103 (5 Pt 1): 907-12.View ArticlePubMedGoogle Scholar
- Declercq E, Barger M, Cabral HJ, Evans SR, Kotelchuck M, Simon C: Maternal outcomes associated with planned primary cesarean births compared with planned vaginal births. Obstet Gynecol. 2007, 109 (3): 669-77. 10.1097/01.AOG.0000255668.20639.40.View ArticlePubMedGoogle Scholar
- Brennan DJ, Robson MS, Murphy M, O'Herlihy C: Comparative analysis of international cesarean delivery rates using 10-group classification identifies significant variation in spontaneous labor. Am J Obstet Gynecol. 2009, 201 (3): 308.e1-8. 10.1016/j.ajog.2009.06.021.View ArticleGoogle Scholar
- Lansky S, França E, Leal MC: Mortes perinatais evitáveis em Belo Horizonte, Minas Gerais, 1999. Cad Saúde Pública. 2002, 18: 1389-400.View ArticlePubMedGoogle Scholar
- Victora CG, Barros FC: Infant mortality due to perinatal causes in Brazil: trends, regional patterns and possible interventions. Sao Paulo Med J. 2001, 119: 33-42.View ArticlePubMedGoogle Scholar
- Lansky S, França E, César CC, Monteiro Neto LC, Leal MC: Mortes perinatais e avaliação da assistência ao parto em maternidades do Sistema Único de Saúde em Belo Horizonte, Minas Gerais, Brasil, 1999. Cad Saúde Pública. 2006, 22: 117-30.View ArticlePubMedGoogle Scholar
- Clark SL, Belfort MA, Dildy GA, Herbst MA, Meyers JA, Hankins GD: Maternal death in the 21st century: causes, prevention, and relationship to cesarean delivery. Am J Obstet Gynecol. 2008, 199 (1): 36.e1-5. 10.1016/j.ajog.2008.03.007. discussion 91-2. e7-11.View ArticleGoogle Scholar
- Ministério da Saúde (BR): Urgências e emergências maternas. Guia para diagnóstico e conduta em situações de risco de morte materna. 2003, Brasília: Ministério da Saúde, 7-12. 2a ed rev. Manual Técnico.Google Scholar
- Hanson K, Ranson MK, Oliveira-Cruz V, Mills A: Expanding access to priority health interventions: a framework for understanding the constraints to scaling-up. J Int Dev. 2003, 15: 1-14. 10.1002/jid.963.View ArticleGoogle Scholar
- Aguilera N, Marrufo GM: Can better infrastructure and quality reduce hospital infant mortality rates in Mexico?. Health Policy. 2007, 80 (2): 239-52. 10.1016/j.healthpol.2006.03.003.View ArticlePubMedGoogle Scholar
- Ross JA, Begala JE: Measures of strength for maternal health programs in 55 developing countries: the MNPI study. Matern Child Health J. 2005, 9 (1): 59-70. 10.1007/s10995-005-2548-z.View ArticlePubMedGoogle Scholar
- Ross JA, Adelaja D, Bollinger L: Effort levels of national maternal and neonatal health programs: 2005 measures and six year trends. Matern Child Health J. 2008, 12 (5): 586-98. 10.1007/s10995-007-0266-4.View ArticlePubMedGoogle Scholar
- Bulatao RA, Ross JA: Which health services reduce maternal mortality? Evidence from ratings of maternal health services. Trop Med Int Health. 2003, 8 (8): 710-21. 10.1046/j.1365-3156.2003.01083.x.View ArticlePubMedGoogle Scholar
- Gillespie D: Buying health in Honduras. Lancet. 2004, 364 (9450): 1996-7. 10.1016/S0140-6736(04)17524-7.View ArticlePubMedGoogle Scholar
- Bollinger L, Sonneveldt E: Safe motherhood model. 2006, Version 1. [accessed 2010 Aug 29]., [http://www.constellafutures.com/software/Spectrum/SafeMoME.pdf]Google Scholar
- Paul VK, Singh M: Regionalized perinatal care in developing countries. SeminNeonatol. 2004, 9 (2): 117-24.Google Scholar
- Ronsmans C, Chowdhury ME, Koblinsky M, Ahmed A: Care seeking at time of childbirth, and maternal and perinatal mortality in Matlab, Bangladesh. Bull World Health Organ. 2010, 88 (4): 289-96. 10.2471/BLT.09.069385.View ArticlePubMedGoogle Scholar
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