s12939-014-0112-4 1475-9276 Research <p>Using the unmet obstetric needs indicator to map inequities in life-saving obstetric interventions at the local health care system in Kenya</p> Echoka Elizabeth lizechokah@gmail.com Dubourg Dominique ddubourg@itg.be Makokha Anselimo anmakokha@yahoo.com Kombe Yeri yerikom@yahoo.com Olsen Evjen Øystein oysteineo@gmail.com Mwangi Moses rewelmwangi@yahoo.com Evjen-Olsen Bjorg bjorg.olsen@cih.uib.no Byskov Jens jby@sund.ku.dk

Centre for Public Health Research Institute, Kenya Medical Research Institute (KEMRI), Nairobi, Kenya

Woman and Child Health Research Center, Department of Public Health, Institute of Tropical Medicine Nationalestraat 155, 2000, Antwerpen, Belgium

Department of Food Science, Jomo Kenyatta University of Agriculture and Technology, Nairobi, Kenya

Centre for International Health, University of Bergen, Bergen, 5020, Norway

Stavanger University Hospital, Stavanger, 4068, Norway

Department of Obstetrics and Gynaecology, Sørlandet Hospital, Flekkefjord, Norway

Centre for Health Research and Development, Faculty of Health and Medical Sciences, University of Copenhagen, Thorvaldsensvej 57, Frederiksberg 1871, DK, Denmark

International Journal for Equity in Health 1475-9276 2014 13 1 112 http://www.equityhealthj.com/content/13/1/112 10.1186/s12939-014-0112-4
10 12 2013 5 11 2014 12 12 2014 2014 Echoka et al.; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. Kenya Life-saving Pregnancy Unmet Obstetric Needs Emergency Obstetric Care

Abstract

Background

Developing countries with high maternal mortality need to invest in indicators that not only provide information about how many women are dying, but also where, and what can be done to prevent these deaths. The unmet Obstetric Needs (UONs) concept provides this information. This concept was applied at district level in Kenya to assess how many women had UONs and where the women with unmet needs were located.

Methods

A facility based retrospective study was conducted in 2010 in Malindi District, Kenya. Data on pregnant women who underwent a major obstetric intervention (MOI) or died in facilities that provide comprehensive Emergency Obstetric Care (EmOC) services in 2008 and 2009 were collected. The difference between the number of women who experienced life threatening obstetric complications and those who received care was quantified. The main outcome measures in the study were the magnitude of UONs and their geographical distribution.

Results

566 women in 2008 and 724 in 2009 underwent MOI. Of these, 185 (32.7%) in 2008 and 204 (28.1%) in 2009 were for Absolute Maternal Indications (AMI). The most common MOI was caesarean section (90%), commonly indicated by Cephalopelvic Disproportion (CPD)–narrow pelvis (27.6% in 2008; 26.1% in 2009). Based on a reference rate of 1.4%, the overall MOI for AMI rate was 1.25% in 2008 and 1.3% in 2009. In absolute terms, 22 (11%) women in 2008 and 12 (6%) in 2009, who required a life saving intervention failed to get it. Deficits in terms of unmet needs were identified in rural areas only while urban areas had rates higher than the reference rate (0.8% vs. 2.2% in 2008; 0.8% vs. 2.1% in 2009).

Conclusions

The findings, if used as a proxy to maternal mortality, suggest that rural women face higher risks of dying during pregnancy and childbirth. This indicates the need to improve priority setting towards ensuring equity in access to life saving interventions for pregnant women in underserved areas.

Introduction

Maternal mortality ratio (MMR) that is, number of maternal deaths per 100,000 live births, is a mandatory indicator for measuring progress towards Millennium Development Goal (MDG) five in many countries. Recent global estimates indicate that MMR was highest in sub-Saharan Africa (640), followed by South Asia (280), Oceania (230) and South-Eastern Asia (160) 1 . These estimates underscore the consensus that maternal mortality remains a major challenge to health systems around the globe 1 , 2 . There is evidence, however, that this burden could be reduced if all women had access to life saving obstetric interventions 3 - 12 , even in low income countries. A systematic review of trends in MMRs showed huge disparities even among countries with similar low economic status. As examples, Lesotho and Ivory Coast, with Gross National Income per capita of 1,000 US$ recorded an increase in MMR from 590/100,000 to 964 - 994/100,000 between 1980 and 2008. Over the same period, Bangladesh with even less income (520 US$) experienced a decrease in MMR from 1329/100,000 live births to as low as 338/100,000 live births 13 .

In Kenya, the demographic and health survey of 2009 showed a MMR of 488/100,000 14 . This was an increase from 414/100,000 in 2003 15 . Kenya was among eleven countries that contributed to 65 percent of all maternal deaths in 2008 on a global scale. Kenya is also among 23 countries in sub-Saharan Africa making no progress towards achieving the target of MDG five 1 . One year remains to the deadline to reduce maternal mortality from 414/100,000 live births in 2003 to 147/100,000 by 2015 in Kenya 16 . Achievement of this target presents a key challenge and is unlikely to be realised 17 .

While the MMR is a useful indication of maternal health service effectiveness, it is argued that it is a poor guide to policy. The indicator does not provide information about what interventions are needed and where 18 . The MMR may reflect how bad a situation is, or what it is correlated with, but does not indicate what to do, where and for whom 19 . In addition, the indicator is based on national estimates 12 , 20 , therefore less operational at sub-national levels of the health system. At the district level, for instance, measuring MMR as a routine may be a challenge. This is because the district health services do not often have the resources and capacity to collect the data required 21 , besides the large sample size required for valid measurements 22 . This presents lack of insights on the magnitude of maternal health burden, on its localisation and on possible solutions. Thus, decision-makers in the local health care system may not know how and where to intervene.

The acknowledgement of challenges in measuring the MMR 22 - 24 led to development of indicators that measure improvements in access and use of services most likely to reduce maternal mortality 8 , 12 , 20 , 25 - 30 . A set of emergency obstetric care (EmOC) process indicators therefore exist 12 , 20 . The indicators are based on the understanding that to reduce maternal deaths, certain types of obstetric services must be available and used by women during pregnancy, labour and postpartum 7 - 9 , 12 , 20 . Reductions in maternal mortality and morbidity will therefore depend on countries’ capacity to identify and improve these services 31 .

Appreciation of the need to measure access to services likely to reduce maternal mortality has further led to the development of the unmet obstetric needs (UON) indicator 32 . This alternative process indicator concerns maternal mortality. It is based on evidence that in any population, a proportion of pregnant women (1-2%) will develop life-threatening obstetric conditions during pregnancy and childbirth 33 - 37 . If they receive rapid medical care, nearly all will survive. If they fail to receive appropriate assistance, it will most likely result in maternal deaths 38 - 40 .

Briefly, UON refers to the difference between what the health care system should provide to deal with obstetric problems in a given population and the care it actually provides 32 . Figure 1 shows the operational expression of the UON concept.

<p>Figure 1</p>

Operational expression of the unmet obstetric needs concept.

Operational expression of the unmet obstetric needs concept.

The UON indicator provides knowledge of the nature and magnitude of the need for essential obstetric care in a defined geographical area 32 . The indicator is therefore appropriate for identifying geographical differences in access to life saving obstetric interventions 12 , 41 . It further provides answers as to whether pregnant women are receiving the major obstetric interventions they need, where those with unmet needs are, and how many they are. The MMR does not address any of these.

It is suggested that the UON was created in and to be used in low income countries 32 , 41 . Indeed, UON has been applied in several African countries to measure deficits in obstetric care, contributing to changes in maternal health practice in some. In Koutiala Mali, UON findings showed that more than 100 women in need of obstetric care never reached the hospital and probably died as a consequence. This not only created awareness of service deficits, but also triggered operational measures to tackle the problem, including considerations for coverage and quality of obstetric care 37 . In Tanga region, Tanzania, it was demonstrated that UON data could be used to plan and monitor trends in responsiveness of the health system at intervals. Since the data were generated by stakeholders in the system, they shared the optimism that the findings could revitalise discussions on access to obstetric care both at local and national level 34 . In Mtwara, Tanzania, geographical mapping of UON was useful in priority setting as the findings highlighted deficiencies in the provision of maternity care 35 . In Taounate, Morocco, UON findings created awareness among health personnel on the magnitude of a previously ignored problem, leading the team to identify technical and systemic solutions to address the problem 21 .

This paper is based on application of the UON concept to assess the magnitude and distribution of unmet obstetric needs at district level in Kenya. Data presented is part of the “response to accountable priority setting for trust in health systems” (REACT) study 2006-2011, that introduced an intervention to improve equity and access to quality health care at district level in Kenya, Tanzania and Zambia. EmOC was one of the service areas selected to assess whether improved fairness and legitimacy in priority setting processes could have an influence on service output and outcome after an active promotion of fairness conditions. The REACT study focus on quality, equity and trust is closely associated with the specific UON indicator in terms of its importance to avert maternal morbidity and mortality. More details of the REACT study are found elsewhere 42 . Findings presented in this paper provide insights on the importance of additional process indicators that can map inequities in life-saving obstetric interventions at the local health care system in high maternal mortality settings.

Methods

Study design and setting

This was a facility based retrospective survey conducted in Malindi District, Kenya (currently Malindi and Magarini sub counties in Kilifi County) in the year 2010. The area is located in the Northern Coastal region, covering an area of 7, 792 square kilometres. Four divisions, namely, Malindi, Langobaya, Marafa and Magarini constitute the district. The total population in the district was 400,514 people in 2009, with a distribution of 140, 739 people in urban and 259, 775 in rural areas 43 . Malindi Division has a higher population density than the other three divisions as it has favourable topographic features and economic factors affecting human settlement. Malindi Town, the main urban centre in the district, is located in Malindi Division. The district had a total of 105 public and private health facilities 44 . Of these, 42 (40%) offer delivery services. One public and two private hospitals provide caesarean section services. The total fertility rate in the district was 4.8 children per woman of reproductive age and a crude birth rate of 38.1/1000 45 .

Data collection

Identification and listing of all comprehensive EmOC (perform caesarean section and blood transfusion) facilities in the district were undertaken prior to data collection. All divisions, locations and sub locations were also identified and coded.

The UON indicator restricts its scope to a standard list of Absolute Maternal Indications (AMI), that is, maternal life threatening conditions for which major obstetric surgery is performed to solve the problem 32 . The list of AMIs is based on the degree of severity of the indication, the relative stability of its incidence and relatively reproducible diagnosis 19 , 33 . The standard list of AMI adopted for this study included:

Antepartum haemorrhage (placenta praevia or abruptio placenta);

Abnormal presentations (transverse lie or shoulder presentation, face with persistent mento-posterior position or brow presentation);

Major CPD (mechanical CPD, small pelvis including pre-rupture and rupture of uterus);

Uncontrollable postpartum haemorrhage.

The list of MOI included:

Caesarean section;

Hysterectomy;

Laporatomy due to uterine rupture.

Based on findings on existence and functionality of EmOC in the district 46 , three comprehensive EmOC facilities met the inclusion criteria for the UON study. These were the Government District Hospital and two private hospitals. A nurse-midwife, qualified in assessing obstetric diagnosis, was trained in data collection. A form was filled for every woman who underwent a major surgical obstetric intervention or died in the health facilities in the target district. The possibility of women from the study district having received MOI in other districts was taken into account by reviewing records from the regional referral hospital to identify if the hospital had received any cases from the target district. The referral hospital was the Coast Province General Hospital, located 160 kilometers away from the study area, in Mombasa town.

Data were collected on major obstetric interventions, the maternal indications, geographical origins of the women, and outcomes for mothers. The data were collected retrospectively for the periods 1st January 2008 to 31st December 2009. The principal data source was the operating theatre registers, where most MOI were recorded. Information about the indications for the interventions and other personal data on the women was obtained from patient delivery files, maternity ward registers and admission records for maternity or surgical wards. In filling the unmet obstetric need form, particular attention was paid to the way in which diagnoses were formulated in the registers, and recorded as closely as possible to the way they were usually expressed in clinical language. Where more than one indication for an intervention was performed, all were recorded.

Validity of unmet obstetric need data was addressed in a number of ways. First, information on the surgical procedures performed for the women were obtained from delivery records, theatre registry and patients’ personal files to maximize comprehensiveness and consistency. Incomplete case records were cross matched with information from the three sources to provide a consistent determination of indications and outcomes. Calculation and analysis of the UONs were done for a given population (in a defined geographical area). The place of origin of the patient was therefore specified in the questionnaire. To get a more comprehensive picture and trends in unmet obstetric needs in the district, data for 2008 and 2009 were collected and analysed separately.

Data analysis

The unmet obstetric need indicator was determined using the following formula:

Unmet Obstetric Needs = (EB × RR) − (MOI for AMI)

Where:

EB = Expected births in the population: Obtained by multiplying the number of persons in a defined area, during a specified period by the crude birth rate for that region (expected births = population × crude birth rate).

RR = Reference rate (1.4%): The low-end estimate of the proportion of deliveries that require a MOI to avoid a maternal death (95% CI, 1.27% -1.52%). This benchmark has been derived from previous UON studies 33 . The benchmark may be applied to data from more remote or dispersed populations in which women experiencing life-threatening indications die outside the formal health care system 33 , 38 .

(EB × RR) = Estimated number of women experiencing absolute maternal indications in the population.

(MOI for AMI) = Number of women in the population receiving major obstetric interventions (MOI) for absolute maternal indications (AMI) carried out in the same population during the same period.

Thus, the expected births (EB) for Malindi District were obtained by multiplying the population in 2008 (385,460 persons) and 2009 (400, 514 persons), by the Crude Birth Rate (CBR) for the Coastal region (38.1/1000). The expected MOI for AMI were obtained by multiplying the Expected Birth (EB) by the Reference Rate (RR).

The UON deficits were calculated according to the four divisions in the district and by rural and urban residence. For this study, a woman’s inclusion in an urban or rural area was based on the distance between her residence and the comprehensive care facility. Urban residents were defined as women residing within a radius of 10 kilometres from the comprehensive EmOC facility. Rural residents were defined as women residing more than 10 kilometres from the comprehensive EmOC facility. The UON rates among urban and rural women were compared using Chi-square test of association. The strength of the association was estimated using odds ratios (OR), with corresponding 95% confidence interval. The OR were calculated using the actual number of women who received intervention after developing a complication (actual MOI for AMI), while the denominator was the expected births for the respective year.

Approval to conduct the study was obtained from the Kenya Medical Research Institute’s Ethical Review Committee (Scientific Steering Committee Number. 1808). Written permission was obtained from the Medical Officer of Health in the district prior to visiting the health facilities. All data have been maintained confidential and no individuals will be identified in dissemination of findings.

Results

Obstetric interventions performed in 2008 and 2009 in Malindi District

Table 1 shows the distribution of obstetric interventions performed by type of facility. All the three hospitals were located in the urban area. The government hospital performed a majority of the obstetric interventions in both 2008 and 2009.

<p>Table 1</p>

2008

2009

Facility

Number (%)

Number (%)

Public hospital

535 (94.5%)

652 (90%)

Private for profit hospital 1

25 (4.4%)

69 (9.5%)

Private for profit hospital 2

6 (1.1%)

3 (0.4%)

Total

566

724

Distribution of women who underwent a major obstetric intervention

Table 2 shows that the majority of women were residents of Malindi Division in both 2008 and 2009. Similarly, a majority of women were urban residents.

<p>Table 2</p>

2008

2009

Division

Number (%)

Number (%)

*Urban area = ≤10 km from EmOC facility; **Rural area = >10 km from the EmOC facility.

Malindi

437 (77.5%)

573 (79.1%)

Magarini

94 (16.6%)

107 (14.8%)

Langobaya

19 (3.4%)

24 (3.3%)

Marafa

14 (2.5%)

20 (2.8%)

Total

566

724

Area

Urban*

345 (61%)

455 (62.8%)

Rural**

221 (39%)

269 (37.2%)

Total

566

724

Distribution of women who underwent obstetric interventions by division

Type of maternal indications in 2008 and 2009

Table 3 shows the distribution of maternal indication in 2008 and 2009. Of the 566 and 724 maternal indications in 2008 and 2009, approximately a third were AMIs. The non-absolute indications comprised hypertensive disorders in pregnancy, foetal indications, controllable postpartum haemorrhage and postpartum sepsis.

<p>Table 3</p>

2008

2009

Maternal indication

Number (%)

Number (%)

Absolute

185 (32.7%)

203 (28%)

Non-Absolute

381 (67.3%)

521 (72%)

Total

566

724

Distribution of type of maternal indications

Distribution of AMI and MOI in 2008 and 2009

Table 4 shows the most common AMI was CPD (narrow pelvis) in 2008 and 2009 respectively, followed by CPD (not specified) in 2008. Shoulder and brow presentations were the least common AMIs. Caesarean section comprised over 90% of MOI in both 2008 and 2009.

<p>Table 4</p>

2008

2009

AMI

Number (%)

Number (%)

Uterine rupture

11 (5.9%)

5 (2.5%)

Uterine pre-rupture

6 (3.2%)

7 (3.4%)

Transverse lie

14 (7.6%)

13 (6.4%)

Brow

1 (0.5%)

0

Shoulder

0

1 (0.5%)

Face presentation

10 (5.4%)

9 (4.4%)

CPD (macrosomia)

6 (3.2%)

17 (8.4%)

CPD (narrow pelvis)

51 (27.6%)

53 (26.1%)

CPD (not specified)

44 (23.8%)

32 (15.8%)

APH placenta previa

11 (5.9%)

13 (6.4%)

APH abruption placenta

31 (16.8%)

52 (25.6%)

Total

185

203

Distribution of types of absolute maternal indications

Magnitude and distribution of unmet obstetric needs in Malindi District

The findings on unmet obstetric needs are presented as rates of MOI for AMI per 100 expected births and in absolute numbers. Table 5 shows that the overall rate of MOI for AMI per 100 expected births was 1.25% in 2008 and 1.3% in 2009. Compared to the reference rate of 1.4%, it meant that there were unmet needs. In absolute terms, 22 (11%) women in 2008 and 12 (6%) in 2009 who were expected to benefit from an intervention did not.

<p>Table 5</p>

2008

Expected births

Expected MOI/AMI 1.4%*

MOI/AMI performed

Absolute deficits

MOI/AMI rate**

*Reference rate.

**Actual MOI/AMI for expected births.

***Negative deficits, that is, the number of MOI for AMI performed exceed expected.

Malindi

7534

105

130

-25***

1.7

Magarini

3578

50

42

8

1.2

Langobaya

1272

18

6

12

0.5

Marafa

2302

32

6

26

0.3

Total

14,686

206

184

22

1.25

2009

Malindi

8272

116

158

-42***

1.9

Magarini

3691

52

28

24

0.8

Langobaya

1228

17

8

9

0.7

Marafa

2068

29

8

21

0.4

Total

15,259

214

202

12

1.3

Distribution of unmet needs by divisions

Table 5 further indicates that Malindi Division, with a MOI for AMI rate of 1.7% had no unmet need. The negative deficits implied that the number of MOI for AMI performed was exceeded. The other three divisions had MOI for AMI rate of less than 1.4%, implying that women from these areas had unmet needs.

Table 6 shows the MOI for AMI rates between the rural and urban residence in the district. The urban areas had no deficits. The odds ratios (OR) suggest that a pregnant woman with an AMI in the urban area was 3 times more likely to get a life-saving intervention compared to a rural woman.

<p>Table 6</p>

2008

Expected births

Expected MOI/AMI 1.4%*

MOI/AMI performed

Absolute deficits

MOI/AMI rate**

OR (95% CI); p-value

*Benchmark or low end estimate.

**Actual MOI/AMI for expected births.

***Negative deficits, i.e. number of MOI for AMI performed exceed expected.

Urban

4875

68

108

-40***

2.2

2.9 (2.14–3.94)

Rural

9811

138

76

62

0.8

Reference

Total

14,686

206

184

22

1.25

2009

Urban

5470

76

119

-43***

2.1

2.6 (1.94–3.48)

Rural

9789

138

83

55

0.8

Reference

Total

15,259

214

202

12

1.3

Distribution of MOI for AMI rate by rural-urban residence

Figure 2 shows the variations in magnitude and distribution of UONs between the four divisions in relation to access to the main comprehensive care facility in the district. A notable decrease in MOI for AMI rates with distances from the comprehensive care facilities was observed. Two divisions, Marafa and Langobaya, which were not served by any EmOC facility had rates lower than the reference rate. This implied that women from these divisions had unmet needs. The divisions were not connected to the major trunk road with regular transport to the comprehensive EmOC hospitals. In contrast, Malindi and Magarini Divisions, which were connected to the major trunk road, had no unmet needs.

<p>Figure 2</p>

Distribution of MOI for AMI rates per 100 expected births in 2009 per in division in Malindi District, Kenya.

Distribution of MOI for AMI rates per 100 expected births in 2009 per in division in Malindi District, Kenya.

Discussion

This paper documents the application of the UON concept to assess the magnitude and distribution of unmet obstetric needs at district level in Kenya. This is the first study to apply the UON concept in Kenya. The findings showed that the rate of MOI for AMI were 1.25% in 2008 and 1.3% in 2009. These are below the reference rate of 1.4% used in this study. This indicated that there were unmet obstetric needs. To appreciate the significance of these figures, the deficits in absolute terms meant that 22 (11%) out of 206 women in 2008 who were expected to benefit from an intervention did not get it. In 2009 12 (6%) out of 214 women who were expected to benefit from an intervention failed to get it.

Methodological issues and study limitations

Some limitations as well as methodological issues in the application of the UON concept in this study were observed and call for some caution when applying the UON concept. The UON indicator restricts its scope to maternal life-threatening conditions for which a major obstetric surgery is performed to solve the problem 32 , 41 . It is thus more demanding in terms of data quality. The first limitation in this study was related to the retrospective rather than prospective nature of data collection. Analysis for UON rests on the comparison of MOI rates according to origin of the woman. Therefore, effort must be devoted to making sure that the origins of the women are correct both in the numerator (notification of origins in the sources used in the collection of data) and the denominator (urban and rural population of reference). The retrospective nature of the study denied the investigators a chance to probe the women or their relatives regarding the “right address” upon admission. The possibility of some women on admission to hospital giving a temporary address (near hospital) instead of the real address of residence could not be ruled out. Such situation could give rise to overstatement of the number of such women (who gave a temporary address “in town” instead of their real address), thus the negative deficits observed in the urban area. The issue of bypassing is a common finding in other UON studies, suggesting that women travel from rural areas to deliver in facilities located in urban areas 47 , 48 .

The issue of negative deficits is acknowledged as a major limitation in other UON case studies 33 . There are suggestions that the bias could be minimized in prospective UON studies, where more attention is devoted to probing to ascertain origin of the women. In routine use of UON at district level, this limitation could be mitigated by putting in place measures at facility level to improve reliability of data from records. In Mali for example, daily cross-checking of data entered in both the maternity and operating theatre registers, assigning a surgeon the responsibility of notifying a reliable diagnosis in the operating theatre register, and having a new register for referred cases from health centres and for evacuations to the regional hospital were some of the measures put in place to improve UON data quality. In return, routine use of the UON indicator not only had the effect of triggering consideration of coverage, but also of quality of obstetric care 37 .

The second limitation in this study was related to the reference rate used to calculate the expected MOI for AMI rates. Choice of the reference rate is very crucial in a UON study 38 . Ideally, a local reference derived from data in areas close to a care hospital is recommended. However, in this study, due to the issue of bypassing as earlier highlighted, it was not feasible to calculate a local reference rate. Similar limitations are noted in other UON studies 33 , 35 . Nevertheless, the mapping of deficits in terms of the health system capacity to treat obstetric complications as instituted in this study provided some evidence for creating awareness and initiating dialogue with decision makers on the need to mobilise resources to improve coverage in obstetric care in the underserved areas of Malindi District.

Magnitude and distribution of unmet needs

A well-functioning district health care system should be capable of providing medical care to all 49 . In this study, although there was an adequate coverage of comprehensive EmOC services in the district as shown in a previous study 46 , geographical inequities to this care for rural women were revealed. In obstetrics, a maternal death provides evidence of unmet need 38 . It therefore means that a woman who does not receive appropriate care in the event of a life-threatening obstetric complication may likely die. In addition, since coverage in obstetric “need” is restricted to interventions carried out in order to save a mother’s life, the unmet need can be a proxy to maternal mortality 22 , 38 , 41 . The findings in this study may therefore suggest that whose needs were unmet probably died. The observed differences in the deficits between the urban and rural areas further suggest that the rural women had a higher risk of dying or suffering an obstetric disability. Differences in maternal outcomes, such as maternal mortality between urban and rural areas are reported elsewhere 50 - 52 . Similar patterns showing variations in MOI for AMI rates between rural and urban areas are documented from other UON studies carried out in Benin, Burkina Faso, Mali and Niger 33 and Tanzania 34 , 35 . Distance to facilities certainly explained the variations in unmet obstetric needs within divisions and also because the comprehensive EmOC facilities were located in the urban areas. In Ethiopia, rural urban inequities in utilisation of EmOC services were partly explained by the care hospital being located in the urban setting 53 . Similar trends, showing fewer interventions with increase in distance from comprehensive care facilities are documented in other UON studies 33 - 35 . For example, the average distance that women had to travel to reach a hospital varied from 43 in Burkina Faso to 103 kilometres in Niger 33 .

The UON concept provided the difference between the number of women who needed life-saving obstetric surgery and the number of women who received such care in Malindi District. The findings therefore provided a measure of the district capacity to treat obstetric complications. The UON indicator also identified geographical areas where unmet needs were largest. In the large REACT study 42 , EmOC was one of the service areas that assessed the extent in which fairness and legitimacy were guiding priority setting in health care and whether their strengthening could have an influence on service output and outcome. Findings from this paper show that priority setting seemed insufficient to address obstetric needs in the district. This observation is documented in other REACT study findings 54 .

Conclusions

The findings presented in this paper provide insights on importance of additional process indicators that can map inequities in life saving obstetric interventions at the local health system.

The UONs in rural areas in this study indicate that access to life saving obstetric care is a challenge for rural women. If used as proxies to maternal mortality, the findings suggest that rural women in the district face very high risks of dying during pregnancy and childbirth. The findings support the need identified by others as well, to improve priority setting processes to better influence decision making on how to achieve optimal coverage and access to life-saving obstetric services for pregnant women in the district. Improving coverage entails providing decision makers with knowledge on the extent of need and how to intervene.

Abbreviations

AMI: Absolute Maternal Indication

APH: Antepartum haemorrhage

CPD: Cephalopelvic Disproportion

EmOC: Emergency Obstetric Care

EB: Expected births

MMR: Maternal mortality ratio

MOI: Major obstetric intervention

UON: Unmet Obstetric Needs

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

EE was involved in the study design, data collection, analysis and initiated the manuscript. YK coordinated data collection and critically revised the manuscript. DD participated in the study conception, analysis and critically revised the manuscript. AM, BEO contributed substantially to the revision of the manuscript. JB and OEO initiated and coordinated the overall “REACT” study and contributed substantially to editing of this manuscript. MM participated in data analysis and critically revised the manuscript. All authors read and approved the final manuscript.

Acknowledgements

We acknowledge the Director KEMRI, for granting us the permission to conduct the study and for the financial support through the KEMRI Internal Research Grant (No. IRG/004). We acknowledge the REACT study collaboration and funding, through the European Union sixth framework programme (INCO-2003-A.1.2, contract PL517709) for the REACT project. Also, this research was partially funded by an African Doctoral Dissertation Research Fellowship award offered by the African Population and Health Research Center (APHRC) in partnership with the International Development Research Centre (IDRC). We thank the Medical Officer of Health, Malindi District, and all the health workers who participated in data collection. We acknowledge Bruno Marchal for the scientific coordination of permits to access the REACT project data.

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