A reassessment of global antenatal care coverage for improving maternal health using sub-Saharan Africa as a case study

John Ele-Ojo Ataguba

doi:10.1371/journal.pone.0204822

Abstract

Background

Antenatal period is an opportunity for reaching pregnant women with vital interventions. In fact, antenatal care (ANC) coverage was an indicator for assessing progress towards the Millennium Development Goals. This paper applies a novel index of service coverage using ANC, which accounts for every ANC visit. An index of service coverage gap is also proposed. These indices are additively decomposable by population groups and they are sensitive to the receipt of more ANC visits below a defined threshold. These indices have also been generalised to account for the quality of services.

Methods

Data from recent rounds of the Demographic and Health Survey (DHS) are used to reassess ANC service coverage in 35 sub-Saharan African countries. An index of ANC coverage was estimated. These countries were ranked, and their ranks are compared with those based on attaining at least four ANC visits (ANC4+).

Findings

The index of ANC coverage reflected the level of service coverage in countries. Further, disparities exist in country ranking as some countries, e.g. Cameroon, Benin Republic and Nigeria are ranked better using the ANC4+ indicator but poorly using the proposed index. Also, Rwanda and Malawi are ranked better using the proposed index.

Conclusion

The proposed ANC index allows for the assessment of progressive realisation, rooted in the move towards universal health coverage. In fact, the index reflects progress that countries make in increasing service coverage. This is because every ANC visit counts. Beyond ANC coverage, the proposed index is applicable to assessing service coverage generally including quality education.

Citation: Ataguba JE-O (2018) A reassessment of global antenatal care coverage for improving maternal health using sub-Saharan Africa as a case study. PLoS ONE 13(10): e0204822. https://doi.org/10.1371/journal.pone.0204822

Editor: Olalekan Uthman, The University of Warwick, UNITED KINGDOM

Received: January 30, 2018; Accepted: September 15, 2018; Published: October 5, 2018

Copyright: © 2018 John Ele-Ojo Ataguba. 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: Data are available freely from the DHS Measure Website <https://dhsprogram.com/data/available-datasets.cfm>.

Funding: The work is supported by the National Research Foundation (Fund number: 103687). The funder 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

There is a growing concern globally, especially within developing countries, to improve maternal and child health outcome indicators [1, 2]. The antenatal period provides an opportunity for reaching pregnant women with interventions that may be vital to their health and wellbeing and that of their children. In fact, evidence shows that “women from high-, medium- and low-resource settings valued having a positive pregnancy experience” ([3] p.86). While such a positive pregnancy experience is multidimensional, within the health system, women have expressed concern for flexible appointment systems and ensuring continuity in the provision of care with emphasis placed on ensuring privacy and providing quality time to build trust and a good relationship with health service providers. They also value having culturally sensitive, safe and effective health services [3, 4].

Antenatal care (ANC) provides an avenue for pregnant women to use services that contribute to a “positive pregnancy experience”. ANC coverage remains an important indicator of access and use of health care during pregnancy [1, 5–7]. In fact, it was used as an indicator for assessing maternal health in the context of the Millennium Development Goals (MDGs) [1]. Post MDGs, an unfinished agenda remains with the health of newborns and stillbirths [6]. Empirical studies have demonstrated the positive impact of antenatal care on child birthweight [8–11], early detection of foetal abnormalities including the diagnosis of growth retardation [7, 12] and reductions in maternal and neonatal morbidity and mortality [7, 13–15], for instance. However, there remains a debate about the adequacy or sufficiency of using ANC contacts alone without much reference to the quality of such contacts [16–18]. However, regular ANC contacts with qualified professionals still afford the opportunity to provide pregnant women with both preventative and treatment services such as treatment and management of hypertension and diabetes, distribution of insecticide-treated mosquito nets in malaria endemic places, prevention of mother-to-child transmission of HIV, etc. [1].

Prior to 2016, the World Health Organization (WHO) recommended a “reduced-visit” model of at least four ANC visits for pregnant women (in the case of uncomplicated pregnancies), with the first visit occurring in the first trimester (i.e. the first 12 weeks of conception) [3, 5]. Recently, however, a “standard” model of attaining at least eight ANC visits has been recommended (see Table 1). This is because evidence shows improvements in health outcomes and an increased likelihood of receiving effective maternal health interventions under the “standard” ANC model compared to the “reduced-visit” model [3].

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Table 1. The ‘reduced’ and ‘standard’ World Health Organization’s ANC models.

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Globally, the WHO reports ANC coverage (%) as the proportion of women aged 15–49 with a live birth in a given time period that attain at least one ANC visit and at least four visits (i.e. the ‘reduced’ ANC model) [19]. Inclusion of an indicator of having at least one ANC visit provides an opportunity to capture women with a live birth within a given period who were unable to attain more than one ANC visit. However, at least in a developing country context, as will be demonstrated later, these indicators, including an indicator for the “standard” ANC model, may not be sensitive to policies that have been able to increase the proportion of women that have attained between two and three ANC visits, for instance. This is because only the women that have attained the recommended minimum number of visits are counted. The proportion of pregnant women attaining at least four ANC visits (in the case of the reduced model) is also unable to adequately discriminate between countries with relatively similar proportions attaining at least four visits irrespective of the proportion attaining at least three ANC visits, for instance. For example, in Kenya and Uganda (2006–2013), while coverage with at least one ANC visit was nearly universal (>91%), coverage with at least four ANC visits was less than half (<49%) [20]. In these countries, any policy that aims at increasing the proportion of the women with at least one ANC visit will be close to the notion of “progressive realisation” within the Universal Health Coverage (UHC) discourse. In fact, the WHO notes that “large expansions in antenatal care coverage are still needed” especially in developing countries to achieve universalism [19] and this cannot be achieved at once but gradually.

On the assessment front, reporting at least four ANC visits remains the widely used global benchmark for antenatal care until recently when this was increased to eight ANC visits. While this relies directly on counting the number of visits, some authors have suggested alternative measures at the individual or aggregate population level that go beyond counting the contacts but reflecting the content of the ANC received. This includes the proportion of women attaining at least four ANC visits that report receiving the full set (or a defined set) of specific elements of care [16, 17]. In fact, a study has reported a significant association between the content and timing of care and preterm birth [18]. One of the major challenges with using indicators that account for the ‘content’ of the services or the depth of coverage is the absence of reliable routine data. However, the relatively well-established data on the number of ANC contacts could still be used to provide a much richer measure of ANC coverage that could be simple to compute and to interpret until the availability of a more comprehensive measure that takes the quality of ANC into account. This paper shall return to the challenging issue of assessing the quality of ANC services, like any other health service.

Objectives

This paper builds on the traditional indicators of ANC coverage, particularly the ‘reduced’ ANC model (see Table 1) and proposes an index of ANC coverage that uses the number of ANC contacts over the “entire” distribution (0–4+ visits in this case. For noting, this can be extended easily to the “standard” ANC model of 0–8+ contacts). The proposed index is designed to be very simple to compute and to explain to policymakers and can be useful to compare countries and for monitoring progress in ANC coverage over time. The properties of this index are also presented in S1 Appendix. In the light of the debates around effective coverage [21], the paper also proposes an extension by developing a generalised index of ANC coverage that analysts can use to account for the quality of each ANC received and not just the number of ANC contacts.

Conceptualising the reassessment of ANC coverage

Let v_ij represet the ith ANC visit for woman j aged 15–49 with a live birth within a given period such that: (1)

The total number of ANC visits (i.e. n_j) for each woman aged 15–49 with a live birth within a given period is given as V_j = n_j = ∑_i v_ij such that V_j ≥ 0.

For now, let us ignore the quality of each ANC visit including the actual timing of each visit, as we shall return to this later. If we define ρ_k as the proportion of women aged 15–49 with a live birth within a given period with k ANC visits, and let Y_k be the cumulative proportion of women aged 15–49 with a live birth within a given period that attain at least k number of ANC visits, then, (2) where n^max is the highest number of ANC visits attained by any woman aged 15–49 with a live birth within a given period.

If m is the recommended minimum number of ANC visits (e.g. four) for women aged 15–49 with a live birth within a given period, a measure (index) of ANC coverage is proposed as: (3)

The corresponding ANC coverage gap index is written as: (4)

Theoretically, the value of each index will range between zero and one. When I_ANC → 0, it signifies that ANC coverage is extremely low irrespective of any minimum ANC visits (m > 0). While I_ANC → 1 signifies that for the specified recommended minimum number of ANC visits, ANC coverage is very high. Analogously, 0 ≤ G_ANC ≤ 1 such that G_ANC → 0 when there is an extremely high ANC coverage (i.e., minimal coverage gap) and G_ANC → 1 when the level of ANC coverage is extremely low.

Basically, when I_ANC → 1 (or G_ANC → 0) it means that 100% of women aged 15–49 with a live birth within a given period attained the recommended minimum number of ANC visits while a value of zero (or G_ANC → 1) implies that none of the women had any ANC visit (i.e., 100% of the women had no ANC visit). Essentially, countries should aim to minimise G_ANC (or maximise I_ANC) for a progressive realisation of ANC coverage.

Based on the WHO’s ‘reduced’ ANC model of attaining at least four ANC visits for uncomplicated pregnancies, we can re-write Eq (3) as: (5)

Analogous expression can be written for the coverage gap index.

The index in Eq (5) is appealing because it is relatively easy to compute and to interpret. However, its values and the corresponding interpretation are not directly comparable to those of the proportion of pregnant women attaining at least four ANC visits. In fact, this index can be reported and complemented with the traditional indices of ANC service coverage (i.e. the coverage with at least one ANC visit and coverage with at least four or eight ANC visits). It provides policymakers with a complementary measure to use to assess the impact of policies over time, which may have had an impact but not on the number of visits or contacts above the recommended WHO minimum threshold(s).

Pictorially, the ANC coverage index (I_ANC) and coverage gap index (G_ANC) can be computed as the area of the non-shaded and shaded portions in Fig 1, respectively. The vertical axis represents the cumulative proportion of women (aged 15–49) with a live birth that attain at least k number of ANC visits. The coverage index corresponds to: (6) while the corresponding ANC coverage gap index can be obtained as: (7)

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Fig 1. A measure of ANC coverage (I_ANC) illustrated.

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Fig 2 shows possible values of I_ANC for a case where 49% of women (aged 15–49) with a live birth within a given period had attained at least four ANC visits. Because I_ANC captures all visits, its values range between 0.49 (in panel c) and 0.87 (in panel a) in this case. So, it shows that ANC coverage in panel (a) is better than that in the rest of the panels. In fact, panel (c) has the worst level of ANC coverage. These differences are not accounted for when using at least four ANC visits as an indicator of ANC coverage.

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Fig 2. Illustrating different scenarios where 49.0% of women aged 15–49 with a live birth within a given period attained at least four ANC visits.

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Box 1 contains a summary of the steps involved in computing I_ANC and G_ANC from survey data, assuming a recommended minimum of four ANC visits.

Box 1. Steps for computing the new index of ANC coverage (I_ANC) and ANC coverage gap (G_ANC)

Step 1: Estimate the proportion of women aged 15–49 with a live birth within a given period that had only one ANC visit. Ideally, this should be to a formal health service provider
Step 2: Repeat step 1 to obtain the proportion of women that received two, three, and four or more ANC visits
Step 3: Estimate the cumulative proportion of women aged 15–49 with a live birth within a given period that received at least four ANC visits
Step 4: Repeat step 3 to obtain the cumulative proportion of women that received at least three, at least two, and at least one ANC visit.
Step 5: Add up all the cumulative proportions obtained in steps 3 and 4, then divide the sum by 4 (corresponding to the recommended minimum number of ANC visits) to obtain the proposed index of ANC coverage (i.e., I_ANC)0
Step 6: ANC coverage gap is estimated as: G_ANC = 1 − I_ANC.

The indices proposed in Box 1 can be computed using an alternative approach. Recall that V_j = n_j represents the total number of ANC visits for each woman aged 15–49 with a live birth within a given period.

We define a censored distribution of V as V* such that: (8) where m remains as defined previously.

The index, I_ANC, can be estimated equivalently as: (9) where n is the total number of woman aged 15–49 with a live birth within a given period.

Dominance testing (and ordering) for the proposed ANC coverage index

The proposed index (I_ANC) could be used to make international comparison between countries (or generally, any comparison between two distributions). This could be of interest to policymakers and practitioners for designing appropriate interventions. To make unambiguous comparisons it is important to assess the statistical dominance of the distributions of ANC coverage. For example, statistical dominance test can be conducted for ANC coverage between the rural and the urban populations in a country, between two ethnic or racial groups or between two countries.

As an analogy, two distributions (A and B) may have the same index value but one might be preferred to the other (e.g. but ). Also, yet distribution B may be considered as better than A. The test for dominance provides an avenue to make such assessments.

Necessary condition for statistical dominance.

A necessary condition for distribution A (e.g., country or rural or urban location) to dominate distribution B, which is proposed in this paper, is that: (10) where is the cumulative proportion of women (in distribution A) aged 15–49 with live births within a given period that attain at least one visit less than the recommended minimum number of ANC visits. For the case of the WHO’s ‘reduced’ and ‘standard’ ANC model recommendations, this is equivalent to three and seven visits, respectively. In general, the subscript (m − 1) may be replaced with (m − l) where (0 ≤ l < m) represents the number adjudged by the analyst. In an extreme and strict case, l = 0 (see the case of the sufficient condition).

Sufficient condition for statistical dominance.

Strictly speaking, distribution B is dominated by distribution A if (11) where Y_k is the cumulative proportion of pregnant women attaining at least k ANC visits.

A generalised measure of ANC coverage: accounting for the quality of ANC services.

The usual indicators of ANC coverage, including the attainment of at least four ANC visits, remain very informative and relevant in many contexts. Even the indicator of attaining at least one ANC visit is relevant in Africa [16]. However, such “[c]overage estimates… do not address the quality of that contact or whether it provided needed interventions…. Quality assessments of such services are an essential part of sound programme management” ([22] p.16). In fact, while higher ANC coverage is critical, the quality of care (including information on the services and interventions that are actually provided) and the timing of each visit also determine the extent to which such services are effective [7, 18, 22]. In many developing countries the quality of services provided remains low [23, 24], which often leads to poor maternal and child health outcomes. Thus, it is recommended that countries “identify gaps in coverage and quality of care” as a way to ensure that pregnant women receive appropriate needed care [22, 25], which extends inter alia beyond the number of contacts. However, there are challenges with the assessment of quality of ANC services, more so in developing countries where inter alia the data architecture is poorly developed [25]. Notwithstanding these issues, few studies have attempted to assess this within Africa (see for example, [16, 23, 26]) and beyond [8] using a selected set of interventions.

This paper recognises the debate surrounding the assessment of quality health services generally (and ANC services in particular), including its multidimensional nature. However, it does not delve into identifying how to measure and assess such as this is beyond the scope of the paper. It only provides a generalised framework, which can be used to assess ANC service coverage that takes the quality of such services for each ANC visit into account. For simplicity and ease of applicability, the measure of quality of ANC services assumed in this paper is scaled to range between zero and one, with one being the “best” quality.

If we define q_ij as a measure of the quality of ANC visit i for individual j, such that q_ij ∈ [0,1]. Briefly, q_ij = 0 is the worst possible quality of service or the absence of any service provided during an ANC visit. Also, q_ij = 1 is the best quality service that can be imagined conditional upon the available level of technology. The quality-adjusted ith ANC visit for individual j can then be written as: (12) where v_ij remains as defined earlier and v_ijq_ij ∈ [0,1].

In fact, (13)

The “total” quality-adjusted ANC visits for each woman aged 15–49 with a live birth within a given period can be written as . Thus, .

Let the proportion of women aged 15–49 with a live birth within a given period with k quality-adjusted ANC visits be defined as: (14)

The cumulative proportion of women aged 15–49 with a live birth within a given period, adjusted for quality of services (), that attain at least k number of ANC visits can also be written as: (15) where n^max remains as defined.

The proposed measure of ANC coverage, generalised for quality of care, , can be written as: (16)

Subsequently, the quality-adjusted ANC coverage gap can be written as: (17)

For noting, the measure of ANC coverage in Eq (3) is equivalent to that in Eq (16) if we assume that q_ij = 1 ∀i,j. This means that I_ANC assumes that the quality of ANC services is perfect for all ANC visits. Eq (16) and (17) represent the generalised formulae for estimating ANC coverage and coverage gap, respectively. Because available data (e.g. the Demographic and Health Surveys) do not contain information on the quality of each ANC contact, this generalised index was applied indirectly in this paper by assuming perfect quality for all ANC contacts.

Methodology

The proposed approach for reassessing ANC coverage is applied to data from Uganda, one of the African countries with a relatively high proportion of women that do not attain at least four ANC visits. The Uganda case study presents a detailed analysis of the coverage index (I_ANC). In addition, the methodology is applied to data from 35 sub-Saharan African countries to assess the differences in ranking of countries compared to when the traditional indicator of attaining at least four ANC visits is used.

Data

The Uganda Demographic and Health Survey 2016 (UDHS-2016) data are used for an in-depth assessment of ANC coverage and coverage gap. The UDHS-2016 is the seventh round of the Demographic and Health Surveys conducted in the country [27]. The Uganda Bureau of Statistics (UBOS) in collaboration with other agencies implemented the UDHS. The data focus mainly on children under-five years, men and women (15–49 years). A stratified two-stage cluster sampling design was used to collect the data. The first stage is a sample of 696 accessible enumeration areas (i.e., clusters) based on the 2014 population and housing census sample frame. About 77% of the enumeration areas are in rural areas. A fixed number of households (30 per enumeration area) were randomly selected in the second stage. A total of 18,506 women were successfully interviewed. For the multi-country assessment, Demographic and Health Survey (DHS) data (https://dhsprogram.com) from 35 countries in sub-Saharan Africa including Uganda were extracted. The latest available DHS data for each country were extracted in September 2018. A list of these countries, including the data period, is provided under the results section. For all countries, a subset dataset containing women aged 15–49 years were used in this analysis. Of interest in this paper is the most recent ANC service used by women (aged 15–49) with a live birth within the past five years. Other variables of interest, used to assess among other things statistical dominance (for the case of Uganda), include the location of household (urban/rural), education level of the women and household wealth (in quintiles). The DHS data quality checks performed include, among other things, the relevance of each country’s data for inclusion, and the availability and completeness of entries with regards to the key variables of interest. For example, based on this assessment, data from South Africa and Sudan have not been used in this paper. Generally, the DHS data are collected using very similar methodologies across countries, making them comparable. They are widely used and are reliable data for the assessment of maternal and child health statistics in many developing countries.

Results

The ANC coverage statistics shown in Table 2 indicate that the coverage of only one ANC visit is very low (<3%) in Uganda in 2016. Coverage with at least four ANC visits is slightly greater than 60%. Also, about 28% had only 3 visits while about 2% did not record any ANC visit. Basically, data from 2016 show that about 88% of the women (aged 15–49 years) with a live birth in the past 5 years had attained at least 3 ANC visits based on the most recent live birth experience.

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Table 2. ANC coverage (most recent live birth) for women aged 15–49 with a live birth within that past five years, Uganda, 2016.

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The results from the application of the proposed indices for ANC coverage and coverage gap (i.e., I_ANC and G_ANC respectively) in Uganda (2016) are shown in Table 2. The national average for I_ANC was estimated at 0.854 with a corresponding coverage gap estimated at G_ANC = 0.146. The ANC coverage index I_ANC (and, by implication, G_ANC) proposed is additively decomposable by sub-groups. The results of the sub-group decomposition shown in Table 3 indicate that coverage gap is higher in the rural areas (0.154) compared to the urban areas (0.117); for those without any formal education compared to those with some formal education; and for those in poorer wealth quintiles compared to those in richer quintiles.

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Table 3. Sub–group decomposition of ANC coverage (most recent live birth) for women aged 15–49 with a live birth within that past five years, Uganda, 2016.

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The differences in ANC coverage (ΔI_ANC) between groups are shown in Table 4. Except for a few, better-off groups tend to have a significantly higher coverage index compared to worse-off groups (see all positive values in Table 4). However, while some of the values in Table 4 are statistically significant, the statistical test for dominance (Table 5) did not confirm a few of them as statistically significant. For example, was significantly estimated at 0.037 and this was confirmed by the test of dominance. However, the significant estimates for and in Table 4 are not confirmed in the test of dominance in Table 5.

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Table 4. Differences in ANC coverage (ΔI_ANC) for women aged 15–49 with a live birth within that past five years, Uganda, 2011.

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Table 5. Dominance analysis for ANC coverage (ΔY_k) for women aged 15–49 with a live birth within that past five years, Uganda, 2011.

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Comparing ANC coverage statistics in sub-Saharan Africa

The proposed ANC coverage index (I_ANC) was estimated for African countries with available DHS data. In total, relatively recent DHS data from 35 African counties were used to estimate I_ANC. Because the traditional indicator of reporting at least four ANC visits (ANC4+) cannot be directly comparable to the I_ANC, country rankings are presented to compare both indictors and to illustrate differences between them.

The results in Table 6 show that as expected, I_ANC > ANC4+ for all countries. Overall, there are some differences between the ranks of countries using ANC4+ and I_ANC. Also, as expected, countries like Ghana, Sierra Leone and Swaziland with a relatively high ANC4+ coverage (>80%) are ranked among the better performing countries irrespective of the choice of index. Some countries retained their original ranks. However, in some, the differences in ranks are substantial. Counties like Chad and Ethiopia consistently performed poorly using both ANC4+ and I_ANC. Cameroon and West African countries like Nigeria and Benin Republic, for example, were ranked relatively better using the ANC4+ indicator but poorly using I_ANC. In Nigeria for instance, while over 50% of the women had attained at least four ANC visits, the proportion that had attained at least 3 ANC visits was less than 60%. On the other hand, an East African country like Rwanda performed better using I_ANC compared to the traditional ANC4+. This was because the proportion of the women with at least 3 ANC visits was about 85%. In comparison with Nigeria, when only the ANC4+ is used, the conclusion will be that Nigeria is performing better than Rwanda but in fact, the proportion of the women with 3 ANC visits is substantially higher in Rwanda than in Nigeria.

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Table 6. Comparing ANC coverage indicators and associated country ranking.

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In some cases, countries with relatively similar estimates for ANC4+ (E.g. Burkina Faso and Angola with ANC4+ estimated at about 0.62 each) show significant differences in ranking using I_ANC. In this case, Burkina Faso was ranked better using I_ANC because it records over 89% of women attaining at least 3 ANC visits compared to 73% reported for Angola.

Within the context of UHC and discussions about progressive realisation, there is a need for accelerating improvements at the margins and especially among disadvantaged population groups [28]. As shown in Table 6, using ANC4+ alone to assess progress in ANC coverage will miss critical improvements that countries make to increase the proportion of women that has attained less than four ANC visits, for example. In general, any country that is able to increase the proportion of women that attain fewer than the recommended minimum number of ANC contacts (e.g. four or eight) [3] are not counted as making any progress unless they increase the number of women that meet that minimum number of contacts. There is an increasing demand for countries to show progressive movements to the ideal of UHC [28] and this is one of the major appeals of the methodology proposed in this paper. In fact, it is the case that women with fewer ANC visits are more likely to come from poorer socio-economic backgrounds [29, 30]. Given the socio-economic inequality in ANC visits, countries can consolidate on any improvement that increases the proportion of women attaining fewer ANC visits to reduce inequality and make substantial contribution to the progressive realisation of maternal health and overall right to health in countries.

While the proposed index (I_ANC) used to estimate the results shown in Table 6 presents an improvement over the restrictive ANC4+ index, it does not directly assess the quality or the content including the appropriateness of the timing of the ANC services received. Specifically, in the spirit of the generalised ANC coverage index, , it assumes that quality of care is “perfect” (i.e. q = 1) for all ANC contacts. Because this assumption is very unlikely to hold, there is a need to incorporate quality of each ANC contact in estimating ANC coverage. This may depend on the sufficiency of available data in household surveys. Thus, a more robust measure of ANC coverage (), developed in this paper that incorporates a measure of quality will be ideal where data on quality of ANC services are available. If possible, variables that assess quality of service use, across the various dimensions of quality, could be included in routine data collection frameworks to provide for ease of estimating . In fact, the need to assess ANC service quality, or health service quality in general, remains crucial and will be relevant as an area for future research.

The index proposed in this paper focuses on ANC coverage. However, its use may not be restricted to assessing ANC coverage alone. The index could easily be extended to assess progress in other social indicators, for example, education. Here, a minimum number of years of schooling could be determined (e.g. 12 years required to complete secondary education) and used to compute overall coverage and coverage gap indices using all individuals aged at least 18 years.

The study has some strengths and limitations. The ability of the proposed method to incorporate the notion of progressive realisation of maternal health is an advantage. In fact, as noted in the paper, this can be used to assess the progressive realisation of rights to many other phenomena. Also, the basic indices (e.g., ANC coverage gap) are relatively easy to compute and could be communicated to policymakers in ways that are meaningful for policy. Basic quality indicators such as the timing of visits (see Table 1) and content of the services can be incorporated into the proposed index which cannot be done directly using the WHO ‘standard’ or ‘reduced’ ANC coverage indicators that are mainly a counting exercise. While the methodology, especially after adjusting for the quality of care is very appealing, the issue of availability of data on quality of ANC contacts remains a challenge. As a result, the paper has not fully applied the method for quality adjustment directly to empirical data. However, the application in this paper provides preliminary insights into the usefulness of the proposed methodology for assessing ANC coverage globally and it provides the impetus for collecting and analysing quality of ANC services data as part of routine data collection.

Conclusion

Globally, antenatal care remains an important intervention for improving maternal and child health. While there are debates about the minimum number of ANC visits required for pregnant women to ensure their health and that of their children, the WHO had previously recommended at least four visits (i.e. the ‘reduced’ ANC model) and more recently, the standard ANC model of at least eight ANC contacts, especially in the case of uncomplicated pregnancies. In fact, the WHO’s proposed indicator of attaining at least four ANC visits was used to assess progress towards the MDGs. Although this indicator may be relevant, it does not account for the quality of ANC services received by women. Also, it is not sensitive to any improvements or initiatives that have increased the proportion of pregnant women that attain less than four ANC visits. This paper, using a modified measure of ANC coverage that is additively decomposable by population groups, has shown the importance of accounting for the entire population of pregnant women irrespective of the number of ANC visits. This presents an initial attempt and it allows for an assessment of ANC coverage that tallies with the notion of progressive realisation as entrenched in debates for moving towards UHC. It is envisaged that this paper will, among other things, open the space for rigorous debates about methodologies that are able to demonstrate a country’s progress in (especially by incorporating quality) health service coverage as this represents a very important dimension of UHC.

Supporting information

S1 Appendix. Properties (axioms) of the proposed measure of ANC coverage.

https://doi.org/10.1371/journal.pone.0204822.s001

(PDF)

Acknowledgments

The author acknowledges the financial assistance provided by the South African National Research Foundation (NRF). Opinions expressed, and the conclusions are those of the author and are not attributed to the NRF. The comments and suggestions on earlier versions of the paper, received from Marie-Gloriose Ingabire and Di McIntyre are acknowledged. The comments and suggestions from participants at the 2017 Canadian Conference on Global Health in Ottawa are also acknowledged. The views expressed are those of the author. The usual disclaimer applies.

References

1. MDG Report. Assessing progress in Africa toward the Millennium Development Goals. Denmark: African Development Bank, Economic Commission for Africa, African Union, United Nations Development Programme; 2011. http://www.undp.org/content/dam/undp/library/MDG/english/MDG%20Regional%20Reports/ADFB-MDG-EN_WEB_final.pdf
2. United Nations Development Programme. Sustainable Development Goals. New York: United Nations Development Programme; 2015.
3. World Health Organization. WHO recommendations on antenatal care for a positive pregnancy experience. Geneva: World Health Organization; 2016.
4. Izugbara CO, Wekesah F. What does quality maternity care mean in a context of medical pluralism? Perspectives of women in Nigeria. Health Policy and Planning. 2018;33(1):1–8. pmid:29036530
- View Article
- PubMed/NCBI
- Google Scholar
5. World Health Organization. World Health Statistics 2015: indicator compendium. Geneva: World Health Organization; 2015.
6. Organization WH. Every newborn: an action plan to end preventable deaths. Geneva: World Health Organization; 2014.
7. Every Woman Every Child. The Global strategy for women’s, children’s and adolescents’ health (2016–2030): survive, thrive, transform. Geneva: Every Woman Every Child; 2015.
8. Habibov NN, Fan L. Does prenatal healthcare improve child birthweight outcomes in Azerbaijan? Results of the national Demographic and Health Survey. Economics & Human Biology. 2011;9(1):56–65.
- View Article
- Google Scholar
9. Wehby GL, Murray JC, Castilla EE, Lopez-Camelo JS, Ohsfeldt RL. Prenatal care demand and its effects on birth outcomes by birth defect status in Argentina. Economics & Human Biology. 2009;7(1):84–95.
- View Article
- Google Scholar
10. Evans WN, Lien DS. The benefits of prenatal care: evidence from the PAT bus strike. Journal of Econometrics. 2005;125(1):207–39.
- View Article
- Google Scholar
11. Rosenzweig MR, Schultz TP. Estimating a household production function: Heterogeneity, the demand for health inputs, and their effects on birth weight. Journal of Political Economy. 1983;91(5):723–46.
- View Article
- Google Scholar
12. Backe B, Consultant JN. Effectiveness of antenatal care: a population based study. BJOG: An International Journal of Obstetrics & Gynaecology. 1993;100(8):727–32.
- View Article
- Google Scholar
13. Carroli G, Villar J, Piaggio G, Khan-Neelofur D, Gülmezoglu M, Mugford M, et al. WHO systematic review of randomised controlled trials of routine antenatal care. The Lancet. 2001;357(9268):1565–70.
- View Article
- Google Scholar
14. Linard M, Blondel B, Estellat C, Deneux‐Tharaux C, Luton D, Oury J, et al. Association between inadequate antenatal care utilisation and severe perinatal and maternal morbidity: An analysis in the Pre CARE cohort. BJOG: An International Journal of Obstetrics & Gynaecology. 2018;125(5):587–95.
- View Article
- Google Scholar
15. Arunda M, Emmelin A, Asamoah BO. Effectiveness of antenatal care services in reducing neonatal mortality in Kenya: analysis of national survey data. Global health action. 2017;10(1):1328796. pmid:28621201
- View Article
- PubMed/NCBI
- Google Scholar
16. Kyei NNA, Chansa C, Gabrysch S. Quality of antenatal care in Zambia: a national assessment. BMC Pregnancy and Childbirth. 2012;12(151):1–11.
- View Article
- Google Scholar
17. Hodgins S, D’Agostino A. The quality–coverage gap in antenatal care: toward better measurement of effective coverage. Global Health: Science and Practice. 2014;2(2):173–81.
- View Article
- Google Scholar
18. Beeckman K, Louckx F, Downe S, Putman K. The relationship between antenatal care and preterm birth: the importance of content of care. The European Journal of Public Health. 2012;23(3):366–71. pmid:22975393
- View Article
- PubMed/NCBI
- Google Scholar
19. World Health Organization. World Health Statistics 2015. Geneva: World Health Organization; 2015.
20. World Health Organization. World Health Statistics 2014. Geneva: World Health Organization; 2014.
21. Ng M, Fullman N, Dieleman JL, Flaxman AD, Murray CJ, Lim SS. Effective coverage: a metric for monitoring universal health coverage. PLoS Medicine. 2014;11(9):e1001730. pmid:25243780
- View Article
- PubMed/NCBI
- Google Scholar
22. WHO, UNICEF. Countdown to 2015 decade report (2000–2010): taking stock of maternal, newborn and child survival. Geneva: World Health Organization; http://www.who.int/pmnch/topics/child/CountdownReportOnly.pdf2010.
23. Diamond-Smith N, Sudhinaraset M, Montagu D. Clinical and perceived quality of care for maternal, neonatal and antenatal care in Kenya and Namibia: the service provision assessment. Reproductive Health. 2016;13(1):92. pmid:27515487
- View Article
- PubMed/NCBI
- Google Scholar
24. Koroma MM, Kamara SS, Bangura EA, Kamara MA, Lokossou V, Keita N. The quality of free antenatal and delivery services in Northern Sierra Leone. Health Research Policy and Systems. 2017;15(1):e49.
- View Article
- Google Scholar
25. Countdown Coverage Writing Group. Countdown to 2015 for maternal, newborn, and child survival: the 2008 report on tracking coverage of interventions. The Lancet. 2008;371(9620):1247–58.
- View Article
- Google Scholar
26. Boller C, Wyss K, Mtasiwa D, Tanner M. Quality and comparison of antenatal care in public and private providers in the United Republic of Tanzania. Bulletin of the World Health Organization. 2003;81(2):116–22. pmid:12751419
- View Article
- PubMed/NCBI
- Google Scholar
27. Uganda Bureau of Statistics—UBOS, ICF. Uganda Demographic and Health Survey 2016. Kampala, Uganda: UBOS and ICF, 2018.
28. Hosseinpoor AR, Bergen N, Koller T, Prasad A, Schlotheuber A, Valentine N, et al. Equity-oriented monitoring in the context of universal health coverage. PLoS Medicine. 2014;11(9):e1001727. pmid:25243463
- View Article
- PubMed/NCBI
- Google Scholar
29. Hart T. The inverse care law. The Lancet. 1971;297(7696):405–12.
- View Article
- Google Scholar
30. Say L, Raine R. A systematic review of inequalities in the use of maternal health care in developing countries: examining the scale of the problem and the importance of context. Bulletin of the World Health Organization. 2007;85(10):812–9. pmid:18038064
- View Article
- PubMed/NCBI
- Google Scholar

[ref1] 1. MDG Report. Assessing progress in Africa toward the Millennium Development Goals. Denmark: African Development Bank, Economic Commission for Africa, African Union, United Nations Development Programme; 2011. http://www.undp.org/content/dam/undp/library/MDG/english/MDG%20Regional%20Reports/ADFB-MDG-EN_WEB_final.pdf

[ref2] 2. United Nations Development Programme. Sustainable Development Goals. New York: United Nations Development Programme; 2015.

[ref3] 3. World Health Organization. WHO recommendations on antenatal care for a positive pregnancy experience. Geneva: World Health Organization; 2016.

[ref4] 4. Izugbara CO, Wekesah F. What does quality maternity care mean in a context of medical pluralism? Perspectives of women in Nigeria. Health Policy and Planning. 2018;33(1):1–8. pmid:29036530
View Article
PubMed/NCBI
Google Scholar

[5] View Article

[6] PubMed/NCBI

[7] Google Scholar

[ref5] 5. World Health Organization. World Health Statistics 2015: indicator compendium. Geneva: World Health Organization; 2015.

[ref6] 6. Organization WH. Every newborn: an action plan to end preventable deaths. Geneva: World Health Organization; 2014.

[ref7] 7. Every Woman Every Child. The Global strategy for women’s, children’s and adolescents’ health (2016–2030): survive, thrive, transform. Geneva: Every Woman Every Child; 2015.

[ref8] 8. Habibov NN, Fan L. Does prenatal healthcare improve child birthweight outcomes in Azerbaijan? Results of the national Demographic and Health Survey. Economics & Human Biology. 2011;9(1):56–65.
View Article
Google Scholar

[12] View Article

[13] Google Scholar

[ref9] 9. Wehby GL, Murray JC, Castilla EE, Lopez-Camelo JS, Ohsfeldt RL. Prenatal care demand and its effects on birth outcomes by birth defect status in Argentina. Economics & Human Biology. 2009;7(1):84–95.
View Article
Google Scholar

[15] View Article

[16] Google Scholar

[ref10] 10. Evans WN, Lien DS. The benefits of prenatal care: evidence from the PAT bus strike. Journal of Econometrics. 2005;125(1):207–39.
View Article
Google Scholar

[18] View Article

[19] Google Scholar

[ref11] 11. Rosenzweig MR, Schultz TP. Estimating a household production function: Heterogeneity, the demand for health inputs, and their effects on birth weight. Journal of Political Economy. 1983;91(5):723–46.
View Article
Google Scholar

[21] View Article

[22] Google Scholar

[ref12] 12. Backe B, Consultant JN. Effectiveness of antenatal care: a population based study. BJOG: An International Journal of Obstetrics & Gynaecology. 1993;100(8):727–32.
View Article
Google Scholar

[24] View Article

[25] Google Scholar

[ref13] 13. Carroli G, Villar J, Piaggio G, Khan-Neelofur D, Gülmezoglu M, Mugford M, et al. WHO systematic review of randomised controlled trials of routine antenatal care. The Lancet. 2001;357(9268):1565–70.
View Article
Google Scholar

[27] View Article

[28] Google Scholar

[ref14] 14. Linard M, Blondel B, Estellat C, Deneux‐Tharaux C, Luton D, Oury J, et al. Association between inadequate antenatal care utilisation and severe perinatal and maternal morbidity: An analysis in the Pre CARE cohort. BJOG: An International Journal of Obstetrics & Gynaecology. 2018;125(5):587–95.
View Article
Google Scholar

[30] View Article

[31] Google Scholar

[ref15] 15. Arunda M, Emmelin A, Asamoah BO. Effectiveness of antenatal care services in reducing neonatal mortality in Kenya: analysis of national survey data. Global health action. 2017;10(1):1328796. pmid:28621201
View Article
PubMed/NCBI
Google Scholar

[33] View Article

[34] PubMed/NCBI

[35] Google Scholar

[ref16] 16. Kyei NNA, Chansa C, Gabrysch S. Quality of antenatal care in Zambia: a national assessment. BMC Pregnancy and Childbirth. 2012;12(151):1–11.
View Article
Google Scholar

[37] View Article

[38] Google Scholar

[ref17] 17. Hodgins S, D’Agostino A. The quality–coverage gap in antenatal care: toward better measurement of effective coverage. Global Health: Science and Practice. 2014;2(2):173–81.
View Article
Google Scholar

[40] View Article

[41] Google Scholar

[ref18] 18. Beeckman K, Louckx F, Downe S, Putman K. The relationship between antenatal care and preterm birth: the importance of content of care. The European Journal of Public Health. 2012;23(3):366–71. pmid:22975393
View Article
PubMed/NCBI
Google Scholar

[43] View Article

[44] PubMed/NCBI

[45] Google Scholar

[ref19] 19. World Health Organization. World Health Statistics 2015. Geneva: World Health Organization; 2015.

[ref20] 20. World Health Organization. World Health Statistics 2014. Geneva: World Health Organization; 2014.

[ref21] 21. Ng M, Fullman N, Dieleman JL, Flaxman AD, Murray CJ, Lim SS. Effective coverage: a metric for monitoring universal health coverage. PLoS Medicine. 2014;11(9):e1001730. pmid:25243780
View Article
PubMed/NCBI
Google Scholar

[49] View Article

[50] PubMed/NCBI

[51] Google Scholar

[ref22] 22. WHO, UNICEF. Countdown to 2015 decade report (2000–2010): taking stock of maternal, newborn and child survival. Geneva: World Health Organization; http://www.who.int/pmnch/topics/child/CountdownReportOnly.pdf2010.

[ref23] 23. Diamond-Smith N, Sudhinaraset M, Montagu D. Clinical and perceived quality of care for maternal, neonatal and antenatal care in Kenya and Namibia: the service provision assessment. Reproductive Health. 2016;13(1):92. pmid:27515487
View Article
PubMed/NCBI
Google Scholar

[54] View Article

[55] PubMed/NCBI

[56] Google Scholar

[ref24] 24. Koroma MM, Kamara SS, Bangura EA, Kamara MA, Lokossou V, Keita N. The quality of free antenatal and delivery services in Northern Sierra Leone. Health Research Policy and Systems. 2017;15(1):e49.
View Article
Google Scholar

[58] View Article

[59] Google Scholar

[ref25] 25. Countdown Coverage Writing Group. Countdown to 2015 for maternal, newborn, and child survival: the 2008 report on tracking coverage of interventions. The Lancet. 2008;371(9620):1247–58.
View Article
Google Scholar

[61] View Article

[62] Google Scholar

[ref26] 26. Boller C, Wyss K, Mtasiwa D, Tanner M. Quality and comparison of antenatal care in public and private providers in the United Republic of Tanzania. Bulletin of the World Health Organization. 2003;81(2):116–22. pmid:12751419
View Article
PubMed/NCBI
Google Scholar

[64] View Article

[65] PubMed/NCBI

[66] Google Scholar

[ref27] 27. Uganda Bureau of Statistics—UBOS, ICF. Uganda Demographic and Health Survey 2016. Kampala, Uganda: UBOS and ICF, 2018.

[ref28] 28. Hosseinpoor AR, Bergen N, Koller T, Prasad A, Schlotheuber A, Valentine N, et al. Equity-oriented monitoring in the context of universal health coverage. PLoS Medicine. 2014;11(9):e1001727. pmid:25243463
View Article
PubMed/NCBI
Google Scholar

[69] View Article

[70] PubMed/NCBI

[71] Google Scholar

[ref29] 29. Hart T. The inverse care law. The Lancet. 1971;297(7696):405–12.
View Article
Google Scholar

[73] View Article

[74] Google Scholar

[ref30] 30. Say L, Raine R. A systematic review of inequalities in the use of maternal health care in developing countries: examining the scale of the problem and the importance of context. Bulletin of the World Health Organization. 2007;85(10):812–9. pmid:18038064
View Article
PubMed/NCBI
Google Scholar

[76] View Article

[77] PubMed/NCBI

[78] Google Scholar

Figures

Abstract

Background

Methods

Findings

Conclusion

Introduction

Objectives

Conceptualising the reassessment of ANC coverage

Box 1. Steps for computing the new index of ANC coverage (IANC) and ANC coverage gap (GANC)

Dominance testing (and ordering) for the proposed ANC coverage index

Necessary condition for statistical dominance.

Sufficient condition for statistical dominance.

A generalised measure of ANC coverage: accounting for the quality of ANC services.

Methodology

Data

Results

Comparing ANC coverage statistics in sub-Saharan Africa

Conclusion

Supporting information

S1 Appendix. Properties (axioms) of the proposed measure of ANC coverage.

Acknowledgments

References

Box 1. Steps for computing the new index of ANC coverage (I_ANC) and ANC coverage gap (G_ANC)