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. 2016 Sep 15;2:10. doi: 10.1186/s40748-016-0038-5

Logistic regression analysis on the determinants of stillbirth in Ethiopia

Kidanemariam Alem Berhie 1,, Habtamu Gebremariam Gebresilassie 2
PMCID: PMC5025573  PMID: 27660718

Abstract

Background

Stillbirth is often defined as fetal death after 24 weeks of gestation, but a fetus greater than any combination of 16, 20, 22, 24, or 28 weeks gestational age and 350 g, 400 g, 500 g, or 1000 g birth weight may be considered stillborn depending on local law. Once the fetus has died, the mother may or may not have contractions and undergo childbirth or in some cases, a Caesarean section. Most stillbirths occur in full-term pregnancies.

Methods

This study has intended to model determinants of experiencing stillbirth among women in child bearing age group of Ethiopia using the Ethiopian demographic and health Survey data (EDHS, 2011). First, the bivariate chi-square test of association was fitted to the data and significant variables were considered for further investigation binary logistic regression models were fitted.

Results

This study revealed that the rate of experiencing stillbirth among women of child bearing age was about 25.5 per 1000 deliveries in Ethiopia. From binary logistic regression, region of residence, maternal age, place of residence, education level, parity, antenatal care utilization, place of delivery, body mass index (BMI) and anemia level were found to be significantly associated with experiencing stillbirth.

Conclusions

Researchers should use multilevel models than traditional regression methods when their data structure is hierarchical as like in Ethiopian Demographic and Health Survey data.

Keywords: Stillbirth, Antenatal care visit, Logistic regression, Ethiopia

Background

Stillbirth is often defined as fetal death after 24 weeks of gestation [1], but a fetus greater than any combination of 16, 20, 22, 24, or 28 weeks gestational age and 350 g, 400 g, 500 g, or 1000 g birth weight may be considered stillborn depending on local law [2]. Once the fetus has died, the mother may or may not have contractions and undergo childbirth or in some cases, a Caesarean section. Most stillbirths occur in full-term pregnancies. The cause is often unknown.

The 2011 Lancet Stillbirths Series reviewed the global status of stillbirths and presented the case for a triple return on investment in stillbirth prevention that also prevents newborn and maternal deaths. That Series received widespread media attention and an unprecedented response [3]. However, despite progress this new Series shows that more must be done to integrate stillbirth prevention within global and national agendas for high quality health care for women, adolescents, and babies. This message resonates with other Lancet Series, notably on maternal health, early child development, and Every Newborn.

Most of the world’s 2.6 million stillbirths each year occur in low-income and middle-income countries (98 %), with three quarters in sub-Saharan Africa and south Asia. About 60 % occur in rural areas and more than half in conflict and emergency zones, affecting the families most underserved by health-care systems. Stillbirths are often not registered systematically in many low-income countries. This leads to underestimation of stillbirths in these countries, in which 98 % of all stillbirths occur. Reliable registrations exist only in countries with minor number of deaths. India, Pakistan, Nigeria, China, Bangladesh, Democratic Republic of the Congo, Ethiopia, Indonesia, Tanzania and Afghanistan are ten countries that account for two-thirds of all third trimester stillbirths. Ethiopia is ranked number seven out of these ten [4].

If all causes of stillbirth are taken together, the new estimates would place stillbirths fifth on the list of causes of deaths (COD) worldwide, two-thirds of stillbirths happen in rural areas, where skilled birth attendants, in particular midwives and physicians, are not always available for essential care during childbirth and for obstetric emergencies, including caesarean sections [5].

Over 98 % of the perinatal deaths occur in low and middle-income countries (LMIC), with more than 70 % occurring in community settings, often the home, far from vital registration/formal health systems [68], under-reporting of stillbirths is a huge problem, and reliable data about rates and causes are difficult to obtain. Hospital stillbirth data are often subject to substantial bias and the ability to generalize from these data is unknown. Nevertheless, of the stillbirths occur worldwide yearly, the vast majority in developing countries, with rates in many developing countries ten-fold higher than elsewhere. Prolonged and obstructed labor, preeclampsia and various infections, all without adequate treatment, account for the majority of stillbirths [9].

In Ethiopia, the world health statistics 2013 revealed a stillbirth rate of 26/1000 deliveries which is third highest in the east African countries next to Djibouti and Somalia (with stillbirth rates of 34 & 30 per 1000 births, respectively) [10] and seventh among the ten countries that account for two-thirds of all third trimester stillbirths in the world [11], a study reported that the prevalence of stillbirth is 19/1000 births [12]. A study done at Tikur Anbessa Hospital has shown a stillbirth rate of 53.3/1000 births and contributed to 77.2 % of gross perinatal mortality [13]. The Ethiopian Demographic and Health Survey (DHS) 2005 data indicated that the still birth rate is 1.8 % [14]. The Addis Ababa city administration health bureau 2005/06 annual activity report revealed that the rate of stillbirth is 2.5 % [15]. A study done, recently, on prenatal outcomes in Addis Ababa in 2010, also indicates that the rate of stillbirth is 3.1 % [16].

Most of the mothers and grandmothers associated the causes of stillbirth and neonatal death with malevolent spirits. As one Oromiya grandmother observed, “Families lose their new born because of an evil spirit”. (Wukabi is a type of malevolent spirit that, when offended, will attack the beholder or his/her family) [17].

Goal by 2020 [18]; For countries with a current stillbirth rate of more than 5 per 1000 births, the goal by 2020 is to reduce their stillbirth rates by at least 50 % from the 2008 rates. For countries with a current stillbirth rate of less than 5 per 1000 births, the goal by 2020 is to eliminate all preventable stillbirths and close equity gaps [19].

Therefore, this study attempts to investigate the major socio-economic, demographic, medical, behavioral and environmental factors of stillbirth in Ethiopia so that the SDG and goal by 2020 for stillbirth will be met.

Objective of the study

General objective

The general objective of this study is to assess the determinants of stillbirth in Ethiopia using Ethiopian Demographic and Health Survey 2011 data.

Specific objectives

  • ➢ To assess socio-economic, demographic, and medical factors associated with stillbirth.

  • ➢ To identify factors that may explain the variation of rate of stillbirth

Data and methodology

Source of data

This study has used the 2011 Ethiopia Demographic and Health Survey (2011, EDHS) [20]. The 2011 EDHS was conducted under the aegis of the ministry of health and was implemented by the Central Statistical Agency and partner organizations from September 2010 through June 2011 with a nationally representative sample of nearly 18,500 households. All women age 15–49 and all men age 15–59 in these households were eligible for individual interview.

The sample for the 2011 EDHS was designed to provide population and health indicators at the national and regional levels. The sample design allowed for specific indicators, such as stillbirth experience, to be calculated for each of Ethiopia’s eleven geographic/administrative regions: nine regional states (Tigray, Afar, Amhara, Oromiya, Somali, Benishangul-Gumuz, SNNPR, Gambela and Harari) and two city administrations (Addis Ababa and Dire-Dawa). The sampling frame used for the 2011 EDHS was the Population and Housing Census conducted by the Central Statistical Agency (CSA) in 2007 (2007 PHC). The 2011 EDHS sample was selected using a stratified, two-stage cluster design, and EAs were the sampling units for the first stage sampling. The 2011 EDHS sample included 624 EAs, 187 in urban areas and 437 in rural areas.

Households comprised the second stage of sampling. A complete listing of households was carried out in each of the 624 selected EAs from September 2010 through January 2011. Maps were drawn for each of the clusters and all private households were listed. The listing excluded institutional living arrangements (e.g., army barracks, hospitals, police camps, and boarding schools). A representative sample of 17,817 households was selected for the 2011 EDHS survey. Because the sample is not self-weighting at the national level, all data in this report have been weighted unless otherwise specified. Sixteen thousand five hundred fifteen women aged 15–49 are interviewed, 12,560 women after adjusting for the missing data have been taken for the analysis.

Variables of the study

Variables considered in this study were selected based on literatures which have been conducted at the global level. Potential determinant factors expected to be correlated with stillbirth among mothers of child bearing age are included as variables of the study. Variables considered in this study are categorized into dependent and explanatory or predictor variables.

Dependent variable

The 2011 EDHS asked women to report any pregnancy loss that occurred in the five years preceding the survey. For each pregnancy that did not end in a live birth, the duration of the pregnancy was recorded. Pregnancy losses occurring after seven completed months of gestation are defined as stillbirths. The response variable of this study is the occurrence of stillbirth among mothers of child bearing age.

The response variable for the ith mother (15–49) is represented by a random variable Yi with two possible values coded as 1 and 0. So, the response variable of the ith mother Yi was measured as a dichotomous variable with possible values Yi = 1, if ith mother had experienced stillbirth and Yi = 0 otherwise.

Methods

In this study binary logistic regressions were employed to identify determinant risk factors of stillbirth and to determine the prevalence of stillbirth in Ethiopia. The response variable of the study is experiencing stillbirth prior to the survey. We analyzed using single level binary logistic regressions by assuming the occurrence of stillbirth is independent among mothers of child bearing age.

Results

Descriptive statistics

We analyzed data from women of child bearing age from the Ethiopian Demographic and Health Survey 2011 sample. The initial population consisted of 16,515 women of child bearing age. Out of this 12,560 (76 %) of women with complete information were selected and studied in the analysis. From the sampled women, the proportion of experiencing stillbirth was about 2.55 % (25.5 per 1000) in Ethiopia.

The analysis is carried out in two parts. In the first part, we present the bivariate analysis with its chi-square test of association and then selecting the significant variables, we analyze the data using ordinary logistic regression, for both the analyses we used SPSS 20 software.

Result of bivariate analysis

The sample distribution of region of residence, maternal age, place of residence, Education level, wealth index, Parity (Total children ever born), Antenatal care utilization, Place of Delivery (home or health center), Mode of Delivery (normal or by caesarean section), Body mass index (BMI), marital status, whether they had any STI or not, whether they smoke cigarettes or not, Anemia level (Anemic or not), whether they have job or not and frequency of consuming alcoholic drink are presented in Table 1.

Table 1.

Distribution of factors analyzed with experiencing stillbirth among women of child bearing age in Ethiopia (EDHS, 2011)

Variables Levels N N% Experienced Stillbirth % d.f Chi-square p-value
No Yes
Region Addis Ababa 1167 9.3 98.46 1.54 10 53.262 < .001
Tigray 1368 10.9 96.27 3.73
Affar 1034 8.2 98.26 1.74
Amhara 1554 12.4 98.13 1.87
Oromiya 1705 13.6 96.48 3.52
Somali 703 5.6 94.74 5.26
Benishangul-Gumuz 975 7.8 97.23 2.77
SNNP 1640 13.1 97.62 2.38
Gambela 872 6.9 98.51 1.49
Harari 742 5.9 98.38 1.62
Dire Dawa 800 6.4 98.00 2.00
Maternal age 15–24 6363 50.7 98.88 1.12 2 144.68 < .001
25–34 4179 33.3 96.84 3.16
35+ 2018 16.1 94.20 5.80
Place of residence Rural 8924 71.1 95.38 4.62 1 8.407 .004
Urban 3636 28.9 97.63 2.37
Education Level No education 5955 47.4 96.47 3.53 2 43.691 < .001
Primary 4835 38.5 98.32 1.68
Secondary & Higher 1770 14.1 98.36 1.64
Wealth Index Poor 4924 39.2 97.42 2.58 2 1.439 .487
Middle 1784 14.2 97.09 2.91
Rich 5852 46.6 97.59 2.41
Parity (Total children ever born) Nulliparous 5169 41.2 98.99 1.01 1 84.097 < .001
Multiparas 7391 58.8 96.37 3.63
Antenatal care utilization No antenatal visits 4101 32.7 93.34 6.66 2 97.417 < .001
Visited at least once 3290 26.2 96.41 3.59
Never given birth 5169 41.2 98.99 1.01
Place of Delivery HOME 6166 49.1 92.40 7.60 2 138.53 < .001
Health center 1225 9.8 96.24 3.76
Never given birth 5169 41.2 98.99 1.01
Mode of Delivery Normal 7169 57.1 94.42 5.58 2 85.725 < .001
Caesarean section 222 1.8 96.05 3.95
Never given birth 5169 41.2 98.99 1.01
Body mass index (BMI) Thin 3541 28.2 95.83 4.17 2 134.32 < .001
Normal 8248 65.7 97.37 2.63
Overweight/Obese 771 6.1 93.63 6.37
Marital status Never Married 4017 32.0 97.13 2.87 2 4.067 .131
Married/Living with partner 7640 60.8 96.32 3.68
Divorced/separated/Widowed 903 7.2 96.46 3.54
Had any STI No 12498 99.5 97.46 2.54 1 0.115 .471
Yes 62 .5 96.77 3.23
Smokes cigarettes No 12513 99.6 97.44 2.56 1 1.233 .297
Yes 47 .4 100.0 0.00
Anemia level Not anemic 10010 79.7 97.65 2.35 1 11.953 < .001
Anemic 2550 20.3 94.67 5.33
Has job No 12340 98.2 97.51 2.49 1 6.190 .013
Yes 220 1.8 96.09 3.91
Alcoholic drink Never 8454 67.3 97.60 2.40 3 3.669 .299
Sometimes 2945 23.4 97.32 2.68
Usually 683 5.4 96.93 3.07
Always 478 3.8 96.44 3.56

Among the factors, region of residence, maternal age, place of residence, education level, parity, antenatal care utilization, place of delivery, mode of delivery, body mass index (BMI), and anemia level were found to have a significant association with experiencing stillbirth at 1 % level of significance (p-values less than 0.01), while having job was significant at the 5 % level of significance (p-values less than 0.05).

Experiencing stillbirth has varied from one region to the other. The result in Table 1 shows that region of residence is significantly associated with experiencing stillbirth (p < 0.001). Somali region had the highest (5.26 %) percentage of experiencing stillbirth followed by Tigray region (3.73 %). Gambela and Addis Ababa had the lowest percentages (1.49 %, 1.54 %) respectively, for experiencing stillbirth in Ethiopia.

Of the 12,560 women with complete information, 50.7 % were 15–24 years old, 33.3 % were 25–34 years old and the rest (16.1 %) were 35 or above. Maternal age was significantly associated with experiencing stillbirth and it was found that mothers with higher age were found to be with higher probability to experience stillbirth. Place of residence was also significantly associated with experiencing stillbirth and of the 71.1 % rural area resident women 4.62 % had experienced stillbirth and only 2.37 % urban area residents had experienced stillbirth.

Education level is also associated with experiencing stillbirth. 47.4 % of the women were with no educational achievement and, of this, those who had experienced stillbirth were 3.53 % as compared to that of those who completed their primary education (1.68) and to that of those who completed secondary or higher education level (1.64). 41.2 % of the women were nulliparous, having no child, with 1.01 % proportion of experiencing stillbirth as compared to 3.63 % proportion of experiencing stillbirth among multiparas.

Table 1 displayed also that among the women of child bearing age 26.2 % has made their antenatal care visit at least once during their pregnancy times and 3.59 % of these had experienced stillbirth, which is less than that of those (32.7 %) who made no antenatal care visit during their pregnancies which was 6.66 %. 41.2 % of the women had no child and among the women who delivered a child, 49.1 % had delivered at home in which 7.6 % were stillbirth, only 9.8 % had delivered at any health center in which 3.76 % were stillbirth, 57.1 % had delivered normally in which 5.58 % were stillbirth and 1.8 % of the women delivered with caesarean section in which 3.95 % of those delivered with caesarean section had given to stillbirth.

Body mass index was found to be another significantly associated with experiencing stillbirth. The result indicates that 28.2 % of the women were thin (body mass index (BMI) < 18.5), 65.7 % were normal (weight) (BMI 18.5–24.9) and 6.1 % were overweight or obese (BMI ≥ 25). The proportion of experiencing stillbirth among women who are thin, normal and overweight were 4.17 %, 2.63 % and 6.37 % respectively. 79.7 % of the women were not anemic and with less proportion of experiencing stillbirth than those (20.3 %) with anemia whose proportion is 5.33 %. 98.2 % of the women were having no job while 1.8 % had any job. The proportion of experiencing stillbirth among those who had no job was 2.49 % which is less than that of those who had any job (3.91 %).

Results of binary logistic regression analysis

Multiple logistic regression models were fitted using the categorical predictor variables which were found to be significant in the bivariate analysis using enter selection (Likelihood ratio) method. The results are presented in Table 5. The result shows that nine of the predictor variables were significantly associated with experiencing stillbirth.

Table 5.

Logistic regression results of experiencing stillbirth among women, in Ethiopia

B S.E. Wald Df Sig. Exp(B) 95 % CI for Exp(B)
Lower Upper
AGE (15–24 ref.cat) 49.686 2 .000
 25–34 1.250 .183 46.463 1 .000 3.49 2.438 4.996
 35+ 1.917 .333 33.140 1 .000 6.8 3.541 13.062
REGION (Addis Ababa ref.cat) 41.254 10 .000
 Tigray -.035 .359 .009 1 .922 0.966 0.478 1.952
 Affar .851 .304 7.822 1 .005 2.342 1.291 4.250
 Amhara -.089 .357 .063 1 .803 0.915 0.454 1.842
 Oromiya .103 .328 .099 1 .754 1.108 0.583 2.108
 Somali .782 .300 6.794 1 .009 2.185 1.214 3.935
 Benishangul-Gumuz .897 .314 8.167 1 .004 2.451 1.325 4.538
 SNNP .478 .332 2.074 1 .150 1.613 0.841 3.092
 Gambela .358 .317 1.276 1 .259 1.431 0.768 2.663
 Harari -.109 .387 .079 1 .779 0.897 0.420 1.915
 Dire Dawa -.063 .389 .026 1 .871 0.939 0.438 2.013
ResidPlace (Rural ref.cat)
 Urban -.478 .176 7.370 1 .007 0.62 0.439 0.875
EucationLevel (No Educ.ref.cat) 8.254 2 .016
 Primary -.291 .252 1.342 1 .247 0.748 0.456 1.225
 Secondary & Higher -1.728 .239 7.230 1 .007 0.178 0.111 0.284
PARITY (Nulliparous ref.cat)
 Multipara 1.168 .362 10.385 1 .001 3.215 1.582 6.537
ANC (No ANC visit ref.cat) 5.953 1 .015
 Visited atleast once -.729 .299 5.953 1 .015 0.482 0.268 0.867
DeliveryPlace (Home ref.cat) .201 1 .654
 Health center -1.417 .435 10.611 1 .001 0.242 0.103 0.569
Delivery Mode (Normal ref.cat) 1.894 1 .169
 Caesarean section -.498 .362 1.894 1 .169 0.608 0.299 1.236
BMI (Thin ref.cat) 7.757 2 .021
 Normal -.729 .152 4.796 1 .029 0.482 0.358 0.650
 Overweight/Obese .417 .230 1.815 1 .178 1.518 0.967 2.382
ANEMIA (Not anemic ref.cat)
 Anemic .916 .436 4.414 1 .036 2.499 1.063 5.874
OCCUPATION (No ref.cat)
 Yes -.492 .319 2.379 1 .123 0.611 0.327 1.143
Constant -1.522 .532 8.188 1 .004 0.218 0.077 0.619

ref.cat reference category, SNNP South Nations Nationalities and Peoples

Assessment of goodness of fit of the model

For categorical data, after we fit the logistic model, it is necessary to see the appropriateness, adequacy and usefulness of the fitted model. To overcome this we have several techniques. The most commonly used techniques are Pearson’s Chi-square, the likelihood ratio tests (LRT) and Hosmer and Lemeshow Goodness of fit test.

The result presented in Table 2 showed a likelihood ratio test statistic G2 = 277.041 which is distributed as chi-square with 11° of freedom. The tabulated value was X20.05(11) = 19.675. Since G2 > X20.05(11), we reject the null hypothesis and conclude that at least one of the predictors was significantly related with experiencing stillbirth among mothers of child bearing age.

Table 2.

Overall model evaluation using likelihood ratio test (EDHS, 2011)

-2 Log likelihood Likelihood ratio (G2) d.f X2α(16)
Null model 3043.857 277.041 11 19.675
Full model 2766.816

Based on the results in Table 3, the null hypothesis that there is no difference between the model with only a constant and the model with independent variables was rejected.

Table 3.

Omnibus tests of model coefficients (EDHS, 2011)

Chi-square d.f Sig.
Step 213.727 23 0.000
Block 213.727 23 0.000
Model 213.727 23 0.000

The Hosmer-Lemeshow goodness-of-fit test is found to be not significant (x2 = 7.424, d.f = 8, p-value = 0.72). Thus, we do not have an evidence to reject the null hypothesis that the model fitted the data well.

The Nagelkerke R-square was 8.0 % indicating that explanatory variables were useful in predicting experiencing stillbirth. But, it doesn’t give the meaning of variance explained as in linear regressions (33).

Validation of predicted probabilities

The degree to which predicted probabilities agree with actual outcomes is expressed as a classification table. Classification table documents the validity of predicted probabilities. According to the classification presented in Table 4, prediction for women who had not experienced stillbirth was more accurate than that for those who had experienced stillbirth. This observation is supported by the magnitude of sensitivity (81.6 %) compared to that of specificity (100.0 %). Sensitivity measures the proportion of correctly classified events (i.e., those women who had experienced stillbirth), whereas specificity measures the proportion of correctly classified nonevents (those women who had not experienced stillbirth). The overall correct prediction was 99.5 %, an improvement over the chance level.

Table 4.

Classification table of model with predictor variables (EDHS, 2011)

Observed Predicted
Experienced stillbirth Percentage correct
No Yes
Experienced stillbirth No 12240 0 100.0
Yes 59 261 81.6
Overall Percentage 99.5

Interpretation of logistic regression coefficients

A multiple logistic model was fitted to the data to test the research hypothesis regarding the relationship between the likelihood that experiencing stillbirth of woman is related with the predictor variables. Result displayed in Table 5 revealed that region of residence, maternal age, place of residence, education level, parity, antenatal care utilization, place of delivery, body mass index (BMI) and anemia level were found to be significantly associated with experiencing stillbirth.

Experiencing stillbirth was significantly associated with geographical regions. The odds of experiencing stillbirth in Tigray, Amhara, Oromiya, SNNP, Gambela, Harari, and Dire-Dawa were not significantly different from that of experiencing stillbirth in Addis Ababa. Experiencing stillbirth in Benishangul-Gumuz was 2.451 times more likely than that in Addis Ababa city. Women who live in Afar and Somali were more likely to experience stillbirth than women who live in Addis Ababa (Table 5).

According to the model, the log of the odds of a woman to experience stillbirth was positively related to maternal age group 25–34 (p = 0.000) and 35+ (p = 0.000) when compared with age group 15–24. Indicating that the older the woman the more likely to experience stillbirth. The odds of a woman in age group (25–34) of experiencing stillbirth were 3.49 times the odds of woman with age group 15–24 and the odds of a woman in age group (35+) of experiencing stillbirth were 6.80 times that of a woman with age group 15–24. This further indicates that women of older ages are vulnerable to experiencing stillbirth.

Table 5 has also revealed that place of residence was significantly associated with experiencing stillbirth. The likelihood of experiencing stillbirth for those women residing in urban area is 0.620 times that of those women residing in rural area. Educational level was also found to be significantly associated with experiencing stillbirth. Though women having only primary education have no significant difference in experiencing stillbirth with those having no educational attainment, women with secondary and higher education were less likely (OR = 0.178) to experience stillbirth than those with no educational attainment.

Table 5 is trying to tell us that the multipara women, those having at least one child, were 3.215 times more likely vulnerable to experience stillbirth than the nulliparous women, those having no children. Women who have made antenatal care visit for at least once during their pregnancy times were less likely (OR = 0.482) to experience stillbirth than those who haven’t visited antenatal care. Women who delivered their babies at any health center were 75.8 % (0.242-1, OR = 0.242) less likely to experience stillbirth than those who preferred to deliver at home.

Experiencing stillbirth is significantly associated with the body mass index (BMI) of women. The normal weight women were found to be less likely (OR = 0.482) to experience stillbirth than those women who were thin (BMI < 18.5). Although not significant, those women who were overweight/obese (BMI ≥ 25) were more likely (1.518) to experience stillbirth than those women who were thin. Thus, normal weight women were found to be less likely to experience stillbirth than abnormal weight women. Women who were anemic are 2.499 times likely to experience stillbirth than those who were not anemic.

Discussions

This study has intended to model determinants of experiencing stillbirth among women in child bearing age group of Ethiopia using the Ethiopian demographic and health Survey data. Accordingly, different models are fitted to the data to identify potential determinants of experiencing stillbirth among women in reproductive age group. First, the bivariate chi-square test of association was fitted to the data and significant variables were considered for further investigation in binary logistic regression model.

This study revealed that the rate of experiencing stillbirth among women of child bearing age was about 25.5 per 1000 deliveries in Ethiopia consistent with the world health statistics 2013 report which revealed a stillbirth rate of 26/1000 deliveries and was also almost consistent with a large review of data for 190 countries which estimated a stillbirth rate of 32/1000 deliveries in South Asia and Sub-Saharan Africa [4].

Among the factors, mode of delivery and occupation were found to have a significant association with experiencing stillbirth only in the bivariate analysis. And factors like education level, parity, body mass index (BMI) and anemia level were significantly associated with experiencing stillbirth also in binary logistic regression which is consistent with most of the studies in the literature [2123].

The rate of experiencing stillbirth in Tigray, Amhara, Oromiya, SNNP, Gambela, Harari and Dire Dawa were not significantly differing from that in Addis Ababa. This might be because of most of these regions are similarly developed as Addis Ababa. Women who live in Afar, Somali and Benishangul-Gumuz regions were significantly more likely to experience stillbirth than those women living in Addis Ababa which might be because of they were disadvantaged regions in the past reigns.

This study revealed that experiencing stillbirth among women was significantly associated with the age group they are found in. Women in higher age group, especially those above 35 years, are more likely to experience stillbirth than those at lower age group. This finding was consistent with a study done using available data from 6 study sites of The Newborn Cross-Sectional Study (NCSS), component of INTERGROWTH-21st, maternal age >40 (OR: 2.52) [22]. Silver et al. [21] has reviewed researches done on five clinical sites in America stated that the stillbirth rate is increased two-fold for women 35–39 years of age, and 3- to 4-fold for women aged forty or older. While some age-associated risk is due to higher rates of maternal complications, in uncomplicated pregnancies there may be a 50% increased risk associated only with maternal age ≥ 35. For older women, stillbirth risk rises more rapidly as gestational age increases beyond 37 weeks. A prospective study done in Nigeria also revealed that 35 years and above pregnancy was important factor contributing to high stillbirth rate [24]. And almost all researchers in the literature agree in that advanced maternal age is contributing factor to high stillbirth rate.

Women’s place of residence was found to be significantly associated with experiencing stillbirth. Those women residing in rural areas were found to be more likely to experience stillbirth than those in urban areas which might be for the reason that in rural areas there is lack of a skilled attendant at delivery, lack of education, lack of full information and so on. This finding was in line with the finding of review of causes, risk factors and prevention strategies of stillbirth in developing countries [25].

Experiencing stillbirth was also significantly associated with utilization of antenatal care (ANC). Visiting antenatal care for at least once is found to decrease the probability of experiencing stillbirth. This finding has an agreement with a cross-sectional retrospective analysis of stillbirth among women delivering in University of Maiduguri teaching hospital (UMTH), east Nigeria in which lack of antenatal care visit (OR: 1.91) had increased the rate of experiencing stillbirth [26]. A research finding also revealed that lack of antenatal care had positive association with stillbirth [24]. In the binary logistic analysis done in Hawassa University Hospital, southern Ethiopia, both the crude and adjusted analysis showed that the stillbirth rate was highest among mothers who had no Antenatal Care follow up [27].

Delivering at health center rather than delivering at home brought about less probability to experience stillbirth. This finding was consistent with a prospective study entitled ’Causes of stillbirth in a community survey in Gombe State’, Nigeria [24]. This happens because when mothers deliver at home, they might not find skilled attendant and in difficult case there is no other choice like caesarean section in health centers.

Conclusions

The purpose of this study has been to assess socio-economic, demographic, and medical factors associated with stillbirth in Ethiopia. The descriptive result showed that 25.5 per 1000 deliveries were stillbirth.

In this study single level logistic regression were used. In the single level logistic regression model, region of residence, maternal age, place of residence, education level, parity, antenatal care utilization, place of delivery, body mass index (BMI) and anemia level were found to be significantly associated with experiencing stillbirth. Women of older ages are vulnerable to experiencing stillbirth. Chi-square test of association was done to see if there is association between experiencing stillbirth and region of residence and since it revealed that region of residence was associated with experiencing stillbirth.

Recommendations

Based on the findings of this study we forward the following recommendations to whom it my concern:

  • ✓ First and for most all mothers should take care of their health condition when they become pregnant, during pregnancy and when approaching to labour. This can be made by utilizing antenatal care in health centers.

  • ✓Mothers should prefer and people who are around them should advise them to give birth at health centers than delivering at home.

  • ✓Those older age women, above 35 years, should be more careful for difficulties that come with age, like hypertension and should visit antenatal care during pregnancy.

  • ✓The government should facilitate infrastructures to teach and inform women, especially those residing in rural areas about the silent killer stillbirth that it is not because of an evil spirit called “Wukabi”.

  • ✓Further studies should be conducted to identify other correlates of stillbirth that are not included and confirm the variables which are insignificant in this study because of many reasons and since regional variation are found significant spatial models can be applied to investigate spatial variations of experiencing stillbirth.

Limitations of the study

Some of the limitations of the study are:-

  • Since this study is based on secondary data from EDHS, 2011, we can study only the variables which are included in the questionnaire.

  • Due to the presence of high missing values in 2011 EDHS data; some variables are not included in the study

Acknowledgements

Not applicable.

Funding

Not applicable.

Availability of data and materials

I have the data, but I cannot share because still I’m using for advanced research!!!

Authors’ contributions

HG made contributions on conceptualized the research problem, designed the study, performed statistical analysis, interpretation of data and revised & drafting the manuscript. KA was involved in, re- vision of the research design, data analysis and revision of the manuscript for publication. Both authors read and approved the final manuscript.

Competing interests

The author(s) declare that there is no conflict (competing) of interests’ regarding the publication of this manuscript.

Ethics approval and consent to participate

Not applicable because it is secondary data and very soon starting giving ethical Clarence in our University (College).

Consent for Publication

Not applicable.

Declaration

I, declare that the thesis is my original work, has not been presented for Degrees in any other University and all sources of materials used for the thesis have been duly acknowledged.

Abbreviations

ANC

Antenatal care

BMI

Body mass index

CSA

Central statistical agency of Ethiopia

DHS

Demographic and health survey

EDHS

Ethiopian demographic and health survey

IUGR

Intrauterine growth restriction

LMIC

Low and middle-income countries

LRT

Likelihood ratio rest

MDGs

Millennium development goals

MLEs

Maximum likelihood estimates

NCSS

The newborn cross- sectional study

PHC

Population and housing census

PMNCH

Partnership for maternal, newborn & child health

SNNPR

South Nation Nationalities and People Regional state

WHO

World Health Organization

Contributor Information

Kidanemariam Alem Berhie, Email: kidanemariam2012@gmail.com.

Habtamu Gebremariam Gebresilassie, Email: gfour04@yahoo.com.

References

  • 1.Robinson GE. “Pregnancy loss”. Best practice & research. Clin Obstet Gynaecol. 2014;28(1):169–178. doi: 10.1016/j.bpobgyn.2013.08.012. [DOI] [PubMed] [Google Scholar]
  • 2.Nguyen RH, Wilcox AJ. Terms in reproductive and perinatal epidemiology: Perinatal terms. J Epidemiol Community Health. 2005;59(12):1019–1021. doi: 10.1136/jech.2004.023465. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 3.Frøen JF, Friberg IK, Lawn JE, The Lancet Ending Preventable Stillbirths Series study group, et al. Stillbirths: progress and unfinished business. Lancet 2016; published online 18 Jan. doi:10.1016/S0140-6736(15)00818-1
  • 4.Lawn JE, Blencowe H, Waiswa P, The Lancet Ending Preventable Stillbirths Series study group with The Lancet Stillbirth Epidemiology investigator group, et al. Stillbirths: rates, risk factors, and acceleration towards 2030. Lancet 2016; published online 18 Jan. doi:10.1016/S0140-6736(15)00837-5.
  • 5.The Lancet release 2011, available at:- http://www.who.int/pmnch/media/press_materials/fs/201106_stillbirths/en/.
  • 6.Baqui AH, Darmstadt GL, Williams EK. Rates, timing and causes of neonatal deaths in rural India: implications for neonatal health programs. Bull World Health Organ. 2006;84:706–713. doi: 10.2471/BLT.05.026443. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 7.Engmann CMR, Kinoshita R, Ditekemena J, Moore J, Goldenberg R. Stillbirth and Early Neonatal Mortality in Rural Central Africa. Int J Gynecol Obstet. 2009. in press. [DOI] [PMC free article] [PubMed]
  • 8.Ngoc NT, Merialdi M, Abdel-Aleem H. Causes of stillbirths and early neonatal deaths: data from 7993 pregnancies in six developing countries. Bull World Health Organ. 2006;84:699–705. doi: 10.2471/BLT.05.027300. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 9.McClure EM, Phiri M, Goldenberg RL. Stillbirth in developing countries: a review of the literature. Int J Gynaecol Obstet. 2006;94(2):82–90. doi: 10.1016/j.ijgo.2006.03.023. [DOI] [PubMed] [Google Scholar]
  • 10.Cousens S, Blencowe H, Stanton C. National, regional, and worldwide estimates of stillbirth rates in 2009 with trends since 1995: a systematic analysis. Lancet. 2011;377(9774):1319–1330. doi: 10.1016/S0140-6736(10)62310-0. [DOI] [PubMed] [Google Scholar]
  • 11.Lawn JE, Blencowe H, Pattinson R, Cousens S, Kumar R, Ibiebele I, Gardosi J, Stanton C. Stillbirths: Where? When? Why? How to make data count? Lancet. 2011;377:1448–1463. doi: 10.1016/S0140-6736(10)62187-3. [DOI] [PubMed] [Google Scholar]
  • 12.Berhane Y, Hogberg U. Prolonged labor in rural Ethiopia: a community base study. Afr J Reprod Health. 1999;3(2):33–39. doi: 10.2307/3583359. [DOI] [Google Scholar]
  • 13.Bisetegn D. Determinants of still Birth at Tikur Anbessa hospital: a retrospective comparative study, a thesis submitted to AAU Medical Faculty department of obstetrics and gynecology. 2001. [Google Scholar]
  • 14.Demographic and health survey preliminary report, Ethiopia, Central statistics Agency- Addis Ababa, Ethiopia and ORC Marco, Calverton, Maryland USA. 2005.
  • 15.Addis Ababa Health Bureau. Family health team annual report for 2006. Addis Ababa, Ethiopia. 2006.
  • 16.Berhanu Assefa T, Fikre E, Lukman Y. Birth to pregnancy interval and its effect on perinatal outcomes in Addis Ababa, Ethiopia. Ethiopian J Reprod Health. 2010;4(1):37–51. [Google Scholar]
  • 17.Mitike Molla S, Robel Y, Abebe Gebremariam G, Sibley LM. A Qualitative Study of Attitudes and Values Surrounding Stillbirth and Neonatal Mortality among Grandmothers, Mothers, and Unmarried Girls in Rural Amhara and Oromiya Regions, Ethiopia: Unheard Souls in the Backyard. J Midwifery Womens Health. 2014;59:S110–S117. doi: 10.1111/jmwh.12156. [DOI] [PubMed] [Google Scholar]
  • 18.Goldenberg RL, McClure EM, Bhutta ZA. The Lancet’s Stillbirths Series steering committee. Stillbirths: the vision for 2020. Lancet. 2011. published online April 14. doi:10.1016/S0140-6736(10)62235-0.
  • 19.Stanton C, Lawn J, Rahman H, Wilczynska-Ketende K, Hill K. Stillbirth rates: delivering estimates in 190 countries. Lancet. 2006;367(9521):1487–1494. doi: 10.1016/S0140-6736(06)68586-3. [DOI] [PubMed] [Google Scholar]
  • 20.Central Statistical Agency [Ethiopia] and ICF International . Ethiopia Demographic and Health Survey 2011. Addis Ababa, Ethiopia and Calverton, Maryland, USA: Central Statistical Agency and ICF International; 2012. [Google Scholar]
  • 21.Silver RM, Varner MW, Reddy U, Goldenberg R, Pinar H, Conway D, Bukowski R, Carpenter M, Hogue C, Willinger M, Dudley D, Saade G, Stoll B. Work-up of stillbirth: a review of the evidence. Am J Obstet Gynecol. 2007;196(5):433–444. doi: 10.1016/j.ajog.2006.11.041. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 22.Finkton Jr DW. The epidemiology of stillbirth: The INTERGROWTH-21st Newborn Cross-Sectional Study. America: MSc Research, University of Oxford; 2013.
  • 23.Reddy UM, Laughon SK, Sun L, Troendle J, Willinger M, Zhang J. Pre-pregnancy risk factors for antepartum stillbirth in United States. Obstet Gynecol. 2010;116(5):1119–1126. doi: 10.1097/AOG.0b013e3181f903f8. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 24.Alkali YS, Jalo I, AU E –N, Bode-Thomas F. Causes of stillbirth in a community survey in Gombe State. Niger J Paed. 2014;41(2):125–128. doi: 10.4314/njp.v41i2.9. [DOI] [Google Scholar]
  • 25.McClure EM, Robert L. Goldenberg, stillbirth in developing countries: a review of causes, risk factors and prevention strategies. J Matern Fetal Neonatal Med. 2009;22(3):183–190. doi: 10.1080/14767050802559129. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 26.Audu BM, Alhaji MA, Takai UI, Bukar M. Risk factors for stillbirths at University of Maiduguri teaching hospital, Maiduguri, Nigeria: a cross-sectional retrospective analysis; 2006.
  • 27.Bayou G, Berhan Y. Perinatal mortality and associated risk factors: a case control study. Ethiop J Health Sci. 2012;22(3):153–163. [PMC free article] [PubMed] [Google Scholar]

Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Data Availability Statement

I have the data, but I cannot share because still I’m using for advanced research!!!


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