# ABSTRACT

## Objective

This study set out to describe the association between the maternal mortality ratio (MMR) estimates and a set of socioeconomic indicators and compute the MMR inequalities among the provinces of Ecuador.

## Methods

A cross-sectional ecological study was conducted, using data for 2014 from the country’s 24 provinces. The MMR estimate was calculated for each province, as well as the association and its strength between MMR and specific socioeconomic indicators. For the indicators that were found to be significantly associated with MMR, inequality measurements were computed.

## Results

Despite a relatively low MMR for Ecuador overall, ratios differed substantially among the provinces. Five socioeconomic indicators proved to be statistically significantly associated with MMR: total fertility rate, the percentage of indigenous population, the percentage of households with children who do not attend school, gross domestic product, and the percentage of houses with electrical service. Of these five, only three had MMR inequalities that were significant: total fertility rate, gross domestic product, and the percentage of households with electricity.

## Conclusions

This study supports research arguing that national averages can be misleading, as they often hide differences among subgroups at the local level. The findings also suggest that MMR is significantly associated with some socioeconomic indicators, including ones linked with significant health outcome inequalities. In order to reduce health inequities, it is crucial that countries look beyond national averages and identify the subgroups being left behind, explore the particular social determinants that generate these health inequalities, and examine the specific barriers and other factors affecting the subgroups most vulnerable to maternal health inequalities.

Keywords
Maternal mortality; health inequalities; social determinants of health; health equity; Ecuador; Latin America

# RESUMEN

## Objetivo

El propósito de este estudio fue describir la asociación entre la razón de mortalidad materna y un conjunto de indicadores socioeconómicos, y calcular las desigualdades en la razón de mortalidad maternal entre las distintas provincias del Ecuador.

## Métodos

Se consideró un estudio ecológico transversal utilizando datos provenientes de las 24 provincias de Ecuador en el 2014, calculándose la razón de mortalidad materna para cada provincia, así como estudiando la asociación y su fuerza entre la razón de mortalidad materna y el conjunto de los indicadores socioeconómicos. Se obtuvieron las medidas de la desigualdades para aquellos indicadores socioeconómicos que mostraron una asociación estadísticamente significativa con la mortalidad materna.

## Conclusiones

Palabras clave

The year 2015 marked the end of the Millennium Development Goal (MDG) era. For Ecuador, that period had been one of economic growth (11 Cord LJ, Lucchetti L, Rodriguez-Castelan C. Shifting gears to accelerate shared prosperity in Latin America and Caribbean. Washington D.C.; World Bank; 2013.), improvements in water quality and in sanitation, and an expansion of social services, including health and education for millions of people. In terms of maternal mortality, Ecuador was one of the countries of Latin America and the Caribbean that experienced the steepest reductions in the maternal mortality ratio. For the country as a whole, the ratio decreased from 185 maternal deaths per 100 000 live births in 1990 to 64 deaths per 100 000 live births in 2015, a reduction of 65.4% (22 World Health Organization. Trends in maternal mortality: 1990 to 2015: estimates by WHO, UNICEF, UNFPA, World Bank Group and the United Nations Population Division. Geneva: WHO; 2015.). Despite these impressive economic and social advances at the national level, insufficient progress was made at the subnational level, with thousands of people still living in poverty and thousands of women losing their lives due to preventable pregnancy-related causes (33 Fukuda-Parr S. From the Millennium Development Goals to the Sustainable Development Goals: shifts in purpose, concept, and politics of global goal setting for development. Gend Dev. 2016;24(1): 43-52.).

Today, Ecuador and other countries face a new global health agenda that prioritizes universal health and equity, including through the Sustainable Development Goals (SDGs) and the new Global Strategy for Women’s, Children’s and Adolescents’ Health (44 World Health Organization. The Global Strategy for Women’s, Children’s and Adolescents’ Health (2016-2030). Geneva; WHO; 2016.). In order for these nations to take on these ambitious targets, they have to start looking beyond national averages and identify the subgroups that are being left behind. It is also important that the countries start exploring the specific barriers and other conditions affecting these subgroups, and identify the mechanisms generating current health inequalities.

To help Ecuador prepare for these tasks, this study had two objectives: (11 Cord LJ, Lucchetti L, Rodriguez-Castelan C. Shifting gears to accelerate shared prosperity in Latin America and Caribbean. Washington D.C.; World Bank; 2013.) to describe the association between maternal mortality and a set of socioeconomic indicators and, (22 World Health Organization. Trends in maternal mortality: 1990 to 2015: estimates by WHO, UNICEF, UNFPA, World Bank Group and the United Nations Population Division. Geneva: WHO; 2015.) based on those socioeconomic indicators, to compute the inequalities in maternal mortality among the provinces of Ecuador, using data for the year 2014.

# MATERIALS AND METHODS

For this research, a cross-sectional ecological study was conducted in 2014, using data from the 24 provinces of Ecuador.

The variables considered in this study were one heath indicator, nine socioeconomic indicators, and one demographic indicator.

The one heath indicator was the maternal mortality ratio (MMR).

The nine socioeconomic indicators were: (11 Cord LJ, Lucchetti L, Rodriguez-Castelan C. Shifting gears to accelerate shared prosperity in Latin America and Caribbean. Washington D.C.; World Bank; 2013.) total fertility rate; (22 World Health Organization. Trends in maternal mortality: 1990 to 2015: estimates by WHO, UNICEF, UNFPA, World Bank Group and the United Nations Population Division. Geneva: WHO; 2015.) percentage of indigenous population; (33 Fukuda-Parr S. From the Millennium Development Goals to the Sustainable Development Goals: shifts in purpose, concept, and politics of global goal setting for development. Gend Dev. 2016;24(1): 43-52.) percentage of households with children who do not attend school; (44 World Health Organization. The Global Strategy for Women’s, Children’s and Adolescents’ Health (2016-2030). Geneva; WHO; 2016.) gross domestic product (GDP) per capita; (55 Banco Central del Ecuador. Cuentas Regionales. Aplicativo Cuentas Provinciales 2014. Available from: https://www.bce.fin.ec/index.php/component/k2/item/293-cuentas-provinciales/ Accessed 15 April 2016.
https://www.bce.fin.ec/index.php/compone...
) average household income; (66 Instituto Nacional de Estadística y Censos. Población y Demografía. Available from: http://www.ecuadorencifras.gob.ec/censo-de-poblacion-y-vivienda/ Accessed 7 April 2016.
) percentage of poverty with unsatisfied basic needs; (77 Ministerio Coordinador de Desarrollo Social. Sistema de Indicadores Sociales del Ecuador. Available from: http://www.siise.gob.ec/siiseweb/ Accessed 10 April 2016.
http://www.siise.gob.ec/siiseweb/...
) percentage of households with inadequate services (e.g., no connection to a piped water supply or to the sewer system or a septic tank); (88 Mackenbach JP, Kunst AE. Measuring the magnitude of socio-economic inequalities in health: an overview of available measures illustrated with two examples from Europe. Soc Sci Med. 1997 Mar 1;44(6):757-71.) percentage of households with electricity; and (99 Bacallao J. Indicadores basados en la noción de entropía para la medición de las desigualdades sociales en salud. Rev Cub Salud Publica. 2007;33(4).) average number of persons per bedroom.

The one demographic indicator was live births.

The indicators used in this study were derived from three key information sources (55 Banco Central del Ecuador. Cuentas Regionales. Aplicativo Cuentas Provinciales 2014. Available from: https://www.bce.fin.ec/index.php/component/k2/item/293-cuentas-provinciales/ Accessed 15 April 2016.
https://www.bce.fin.ec/index.php/compone...
77 Ministerio Coordinador de Desarrollo Social. Sistema de Indicadores Sociales del Ecuador. Available from: http://www.siise.gob.ec/siiseweb/ Accessed 10 April 2016.
http://www.siise.gob.ec/siiseweb/...
) on socioeconomic conditions in Ecuador and its provinces.

Some of the associations between the socioeconomic indicators and the MMR are intuitive, but others may not be. For instance, the average number of people per bedroom is an indicator of the quality of life and of living space. It especially reflects overcrowding and thus social deprivation. Therefore, this indicator was considered a proxy for poverty. On the other hand, the relationship between fertility and social factors helps to put the fertility rate into a larger, overall context, including identifying the most vulnerable sectors.

The analyses included the MMR estimate for each province, which was calculated by dividing the number of maternal deaths by the total number of live births reported in the year 2014, expressed as the number of maternal deaths per 100 000 live births. A 95% confidence interval (CI) for the MMR in each province was also computed.

First, an exploratory data analysis was carried out in order to ascertain the MMR and the selected socioeconomic indicators in Ecuador. Then, a study of MMR inequality was conducted for each of the selected socioeconomic indicators by taking two steps: (11 Cord LJ, Lucchetti L, Rodriguez-Castelan C. Shifting gears to accelerate shared prosperity in Latin America and Caribbean. Washington D.C.; World Bank; 2013.) study the association and its strength between MMR and each of the socioeconomic indicators and (22 World Health Organization. Trends in maternal mortality: 1990 to 2015: estimates by WHO, UNICEF, UNFPA, World Bank Group and the United Nations Population Division. Geneva: WHO; 2015.) for the socioeconomic indicators that were found to be significantly associated with MMR, compute the MMR inequality measurements.

A weighted least squares regression model was used to study the association between MMR and the socioeconomic indicators. The weights were the number of live births in each province. The strength of the association was assessed with the Pearson correlation coefficient. The bootstrap method was used by considering 2 000 resamples in order to estimate the Pearson correlation and its bias-corrected 95% CI.

Simple and complex measures of inequality were computed to explore the magnitude of MMR inequality for each socioeconomic indicator. The simple measures included computing the absolute difference (AD) and the relative ratio (RR) (88 Mackenbach JP, Kunst AE. Measuring the magnitude of socio-economic inequalities in health: an overview of available measures illustrated with two examples from Europe. Soc Sci Med. 1997 Mar 1;44(6):757-71.). The complex measures included the modified slope index of inequality (MSII) proposed by Bacallao in 2007 (99 Bacallao J. Indicadores basados en la noción de entropía para la medición de las desigualdades sociales en salud. Rev Cub Salud Publica. 2007;33(4).) (which is an absolute measure of inequality) and the Poisson relative slope index of inequality (PRSII) (which is a relative measure proposed for this work that utilizes the Poisson regression model) (1010 Tang W, He H, Tu XM. Applied categorical and count data analysis. Boca Raton: CRC Press; 2012.). We computed 95% CIs for all those inequality measurements.

In order to compute the AD and the RR, quintiles of provinces for each of the socioeconomic indicators were created. For the purpose of this study, the first quintile (Group 1) represents the most disadvantaged provinces in terms of the socioeconomic indicator, and the fifth quintile (Group 5) represents the most advantaged provinces for the indicator. The AD and the RR indicate the gap between the most disadvantaged and the most advantaged groups. The AD and the RR were computed by, respectively, subtracting and dividing the MMR in each of these two groups. Higher values of AD and of RR indicate greater inequality in maternal mortality.

The MSII and PRSII were computed through regression model fitting. In order to fit the models, the complete data set of the provinces was first ordered by socioeconomic indicator status, from the most disadvantaged to the most advantaged.

The MSII is based on the estimated slope parameter by fitting a linear regression model that considers the MMR as the dependent variable and the Ridit (the cumulative relative position of each province with respect to the socioeconomic indicator, which ranges between 0 and 1) as the independent variable. The weighted least squares method was used in this case.

The MSII was computed as MSII = b (RiditMin - RiditMax), where b is the estimated slope parameter computed by fitting the linear regression model. The RiditMin and the RiditMax are, respectively, the observed minimum and maximum Ridit values. The theoretical minimum and maximum Ridit values are 0 and 1, so that MSII = -b.

The 95% CI for the MSII was computed as [bU (RiditMin - RiditMax), bL (RiditMin - RiditMax)], where bL and bU are, respectively, the lower and upper limits computed from the 95% CI for the slope parameter.

In order to compute the PRSII, the Poisson regression model was fitted by considering the number of maternal deaths as the response variable and the Ridit as the independent variable.

The formula for the PRSII was PRSII = exp{b (RiditMin - RiditMax)}, where exp is the exponential function and b is the estimated slope parameter computed by fitting the Poisson regression model. RiditMin and RiditMax are, respectively, the observed minimum and maximum Ridit values. The theoretical minimum and maximum Ridit values are 0 and 1, so that the PRSII = exp{-b}.

The formula for the 95% CI for the PRSII was [exp{bU (RiditMin - RiditMax)}, exp{bL (RiditMin - RiditMax)}], where bL and bU are, respectively, the lower and upper limits of the 95% CI for the slope parameter computed by fitting the Poisson regression model.

Data entries were made in Microsoft Excel software, and the statistical analyses were carried out using SAS version 9.2 software. Graphs were generated using Tableau version 9.3 software.

Ethical review was not required for this study since it does not contain any human research data (we utilized data that are publicly available online).

# RESULTS

As of 2014, the estimated national MMR in Ecuador was 49.3 deaths per 100 000 live births. Despite this relatively low national average, 14 provinces had MMR estimates higher than that. The province with the lowest MMR was Azuay, with 19.1 deaths per 100 000 live births. The province with the highest MMR estimate was Zamora Chinchipe, with 142.2 deaths per 100 000 live births (Figure 1).

FIGURE 1
The maternal mortality ratio (MMR) (number of maternal deaths per 100 000 live births) in the provinces of Ecuador, in study of social inequalities in maternal mortality, 2014a

a The maternal mortality ratio for Galápagos was 0 in 2014.

The average total fertility rate in Ecuador is 2.9 children per woman of childbearing age, ranging between 2.1 in Pichincha and 4.1 in Morona Santiago (Table 1).

TABLE 1
Exploratory analysis of socioeconomic indicators in study of social inequalities in maternal mortality in Ecuador, 2014

Only 20% of the population overall is considered to be indigenous, with the percentage ranging from 0.1% in Manabí to 70% in Napo (Table 1). With respect to education, Ecuador is relatively well off. Overall, 0.9% of the households still have children who do not attend school; among the provinces, that ranges from 0.1% to 3.5% (Table 1).

The median GDP per capita in Ecuador is US$3 920.5, with values ranging from US$ 2 545 in Morona Santiago province to US$9 021 in Pichincha province. The median of the average household income per person is US$ 786.2, with Bolívar province having the lowest value (US$582.0) and Guayas province having the highest value (US$ 1 859.0). In terms of living in poverty with unsatisfied basic needs, that is true for 39.0% of the population overall, with values ranging from 16.6% in Pichincha province to 62.9% in Orellana province (Table 1).

In the case of housing conditions in Ecuador, the percentage of households with inadequate services ranges from 6.4% in El Oro province to 52.8% in Orellana province, with a national median of 22.2%. Further, although the overall percentage of households with electricity is relatively high in the country (94.0%), the percentage still ranges from 73.8% to 99.2% (Table 1).

In terms of the association between the MMR and studied socioeconomic indicators in Ecuador, MMR was only statistically significantly associated with five socioeconomic indicators: total fertility rate, percentage of indigenous population, percentage of households with children who do not attend school, percentage of houses with electrical services, and GDP (Table 2). While three of them are positively associated (meaning the higher the value of the socioeconomic indicator, the higher the MMR), two of them are negatively associated (meaning the higher the value of the socioeconomic indicator, the lower the MMR). The socioeconomic indicators with the strongest associations with MMR are gross domestic product and total fertility rate. Figure 2 shows the distribution of MMR across the quintiles of provinces for each of these five socioeconomic indicators.

TABLE 2
Association between the maternal mortality ratio and socioeconomic indicators in study of social inequalities in maternal mortality in Ecuador, 2014
FIGURE 2
Disaggregated maternal mortality ratio (MMR) (number of maternal deaths per 100 000 live births) across the quintiles of socioeconomic indicators, in study of social inequalities in maternal mortality in Ecuador, 2014a

a The first quintile, G1, represents the most disadvantaged provinces in terms of the socioeconomic indicator, and the fifth quintile, G5, represents the most advantaged provinces.

In terms of the association between MMR and total fertility rate, results indicate that they are positively associated (P value = 0.0031), which means that provinces with a higher total fertility rate also have a higher MMR. The strength of the association, which is provided by the correlation between these two variables, is 0.57 (95% CI [0.25, 0.79]), which is the second strongest association (Table 2).

Regarding the association between MMR and percentage of indigenous population, it is evident that they are positively associated, with a P value of 0.0256. The strength of the association is 0.38 (95% CI [0.06, 0.65]), which proves to be the weakest association out of the five socioeconomic indicators (Table 2).

Analyzing the association between MMR and the percentage of households with children who do not attend school, it is possible to conclude that they are positively associated (P value = 0.0189), with a 0.39 strength of association (95% CI [0.03, 0.65]) (Table 2).

Another socioeconomic indicator that proves to be statistically significantly associated with MMR in Ecuador is gross domestic product (P value = 0.001). Given that the strength of this association is -0.68 (95% CI [-0.84, -0.45]), one can conclude that the association is negative, which means that the provinces with a higher gross domestic product have a lower MMR. Out of the five socioeconomic indicators that are statistically significantly associated with MMR, gross domestic product has the strongest association (Table 2).

Another negative association can be found between MMR and the percentage of households with electricity (P value = 0.0039). The strength of the association is -0.44 (95% CI [-0.68, -0.10]) (Table 2).

Of the five socioeconomic indicators that were statistically associated with MMR, only three proved to have statistically significant MMR inequality measures when using the MSII and PRSII: total fertility rate, GDP, and the percentage of households with electricity (Table 3).

TABLE 3
Complex measurements of inequality, with confidence intervals, for socioeconomic indicators, in study of social inequalities in maternal mortality in Ecuador, 2014

The AD between the group with the highest total fertility rate (Group 1) and that with the lowest total fertility rate (Group 5) was 70 (Table 4). This means that there are 70 additional maternal deaths per 100 000 live births occurring in the group of provinces with the highest total fertility rate than in the provinces with the lowest. Further, the RR of MMR between Group 1 and Group 5 was 2.8 (Table 4), indicating that women who live in the group of provinces that are the least advantaged in terms of this socioeconomic indicator are almost 3 times as likely to die from maternal causes as are women who are born in the group of provinces that are the most advantaged.

TABLE 4
Simple measurements of inequality, with confidence intervals, for socioeconomic indicators, in study of social inequalities in maternal mortality in Ecuador, 2014

With respect to the total fertility rate for each province, the MSII value of 26.1 (Table 3) indicates that there are 26.1 more maternal deaths per 100 000 live births in the province with the highest total fertility rate (the most disadvantaged). The PRSII value of 1.7 (Table 3) indicates that women who live in the most disadvantaged province in terms of total fertility rate have almost twice the risk of dying from maternal causes as do women from the most advantaged province.

Regarding the MMR inequality that GDP produces, the AD value of 60 (Table 4) indicates that there are 60 additional maternal deaths per 100 000 live births occurring in the group with the lowest GDP (Group 1), compared to the group with the highest GDP (Group 5). The RR value of 2.4 (Table 4) indicates that women from Group 1 have more than twice the risk of dying from maternal causes as do women from Group 5.

Considering the values for each province in Ecuador, the MSII value of 28.8 (Table 3) indicates that there are approximately 32 additional maternal deaths per 100 000 live births occurring in the province with the lowest GDP than in the province with the highest GDP. Further, the PRSII value of 1.8 (Table 3) indicates that women from the most disadvantaged province are almost twice as likely to die from maternal causes as are women from the most advantaged province.

In terms of housing conditions, the AD value of 42 (Table 4) indicates that there are approximately 42 additional maternal deaths per 100 000 live births happening amongst women from the group with the lowest percentage of households with electricity (Group 1) than in the group with the highest percentage of households with electricity (Group 5). The RR value of 1.9 (Table 4) indicates that women from Group 1 have almost twice the risk of dying from maternal causes as do women from Group 5.

Considering all the values of each province, the MSII value of 22.6 (Table 3) indicates that there are an additional 23 women per 100 000 live births who die from maternal causes in the province considered most disadvantaged in terms of the percentage of households with electricity as compared to the women in the most advantaged province. Lastly, in terms of PRSII, the value of 1.6 (Table 3) indicates that women who are from the most disadvantaged province in terms of this socioeconomic indicator have a risk of dying from maternal causes that is 1.6 times as high as that of women from the most advantaged province.

# DISCUSSION

In recent years, Ecuador has made significant achievements in terms of overall economic growth, poverty reduction, and social service expansion. However, the country is still struggling to ensure that economic progress is made at all levels of society, and that improvements in effective social services coverage and health outcomes are shared by everyone, including the most vulnerable. Similarly, Ecuador also displays significant differences in terms of health outcomes, such as maternal mortality. For example, the province in Ecuador with the lowest MMR (Azuay, with 19.1 deaths per 100 000 live births) has an MMR that is similar to that of Trinidad and Tobago, which has one of the highest human development index (HDI) values in the Americas (88 Mackenbach JP, Kunst AE. Measuring the magnitude of socio-economic inequalities in health: an overview of available measures illustrated with two examples from Europe. Soc Sci Med. 1997 Mar 1;44(6):757-71.). In contrast, the province with the highest MMR (Zamora Chinchipe, with 142.2 deaths per 100 000 live births) has an MMR similar to that of the Solomon Islands (22 World Health Organization. Trends in maternal mortality: 1990 to 2015: estimates by WHO, UNICEF, UNFPA, World Bank Group and the United Nations Population Division. Geneva: WHO; 2015.), which is considered to have one of the lowest HDI values in Oceania (1111 Jahan S. Human development report: work for human development. New York; United Nations Development Programme; 2015.).

The results presented in our study support previous research that argues that national averages often hide differences at the local level, and that these disparities can be strongly associated with different socioeconomic indicators (1111 Jahan S. Human development report: work for human development. New York; United Nations Development Programme; 2015.). For example, while our statistical association study indicated that five of the nine socioeconomic indicators assessed were statistically significantly associated with MMR, the analysis using health inequality measures indicated that three of those five socioeconomic indicators (total fertility rate, GDP, and the percentage of households with electricity) were statistically significant in terms of the MMR inequalities.

In reviewing previous research, we have found that there are some studies on the association between socioeconomic indicators and maternal mortality in Latin American and Caribbean countries. However, few of these studies analyze the maternal mortality inequalities related to those socioeconomic factors. Our Ecuador study is important because it can provide decisionmakers with the type of information that is needed to determine which subgroups to target in order to reduce current health inequalities. The information can also provide insight into the specific mechanisms (social determinants) that generate these health inequalities. Furthermore, the evidence from this study can lead to additional research that examines the specific barriers and other factors affecting the subgroups most vulnerable to maternal health inequalities.

One of the strengths of this paper is the use of the Poisson regression model for computing a novel relative measure. On the other hand, there are some weaknesses in this study, such as the use of the cross-sectional ecological design that produces an ecological fallacy. This means that apparent associations between different provinces in Ecuador may not accurately reflect the true association between individuals within those provinces. However, inequality measurements using data for provinces (the first subnational level in Ecuador) provide relevant and more accurate information for the development of local health policies because they make it possible to identify the provinces that require equity-based interventions.

Limitations on the actual distribution of the maternal mortality data in the provinces by socioeconomics indicators may have also been a weakness in our analysis. As for the maternal mortality data, they come from the Epidemiological Surveillance System of the Ministry of Public Health (Ministerio de Salud Pública (MSP)). In dealing with a suspected case of maternal death, a multidisciplinary team carries out a thorough investigation to either confirm or rule out that initial analysis. Additionally, the vital records system (INEC in Spanish) and the MSP perform a semiannual process of active search for maternal deaths, through the review of death registers and local research processes.

The data on the socioeconomic indicators for 2014 were obtained from various sources, including the information system of the Central Bank of Ecuador and the INEC survey on urban employment unemployment, and underemployment.

One of the limitations of the statistical analysis is that maternal mortality data produced at the second subnational level (the cantons) are not taken into account. Thus, the results of the analysis in this work have to be considered as a first description of the maternal mortality inequalities, and further studies are needed. In a future study we will consider the use of multilevel analysis, by utilizing data from the cantons and provinces.

# Conclusions

This study is one of the few studies analyzing maternal mortality inequalities in Ecuador. By carrying out an analysis combining descriptive measures, association measures, and inequality measures, we hope to provide decisionmakers with the type of information needed for priority-setting. Further, the mixed analysis used in this article is innovative in the sense that it expands on the methodology traditionally used in studies that measure health inequalities, and it offers additional information that may enrich the understanding of maternal mortality inequalities within a country.

# Acknowledgments

We acknowledge the entire group working in the Gerencia de Mortalidad Materna at the Ministry of Public Health in Ecuador, and Dr. Gina Tambini and Dr. Adrian Diaz from the Pan American Health Organization (PAHO) Country Office in Ecuador. We would also like to thank Ramon Martinez, of the Department of Noncommunicable Diseases and Mental Health at PAHO, for his support of this work.

None declared.

# Disclaimer

The authors hold sole responsibility for the views expressed, which may not necessarily reflect the opinion or policy of the RPSP/PAJPH or the Pan American Health Organization (PAHO).

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» https://www.bce.fin.ec/index.php/component/k2/item/293-cuentas-provinciales/
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# Publication Dates

• Publication in this collection
08 June 2017