Background
Caesarean section is the commonest operative delivery technique in the world. Caesarean section is the delivery of the fetus, membrane, and placenta through abdominal and uterine incision after fetal viability [
1].
The rate of Caesarean section is different across countries even between urban and rural areas, due to different socio-economic statuses, and opportunities to access public and private health care services [
2].
According to American College of Obstetricians and Gynecologist (ACOG) report, Caesarean delivery significantly increased woman’s risk vulnerability of pregnancy-related morbidity and mortality which accounts (35.9 deaths per 100,000 live deliveries) as compared to a women posses vaginal delivery (9.2 deaths per 100,000 live births) [
3].
Despite Caesarean section a life saving medical intervention and procedures to the decrease adverse birth outcome, controlling different postoperative neonatal and maternal complications are challenging in terms of patient safety, long duration of hospital stay, cost and psychological trauma. Maternal outcomes of Caesarean section included: postpartum fever, surgical site infection, puerperal sepsis, maternal mortality whereas neonatal sepsis, early neonatal death, stillbirth, perinatal asphyxia, low Apgar score, and prematurity were the most common complication of the newborn [
4‐
6].
Despite World Health Organization (WHO) recommended the optimal rate of Caesarean section should be lie between 5 and 15%, it is significantly increasing even if the reasons for the continued increase in the Caesarean rates are not completely understood: women are having fewer children, maternal age is rising, use of electronic fetal monitoring is widespread, malpresentation especially breech presentation, frequency of forceps and vacuum delivery is decreased, rate of labor induction increases, obesity dramatically rises and Vaginal birth after Caesarean decreased are some of the possible explanations [
7].
Previous Caesarean scar, malpresentation and malposition, antepartum hemorrhage, obstructed labor, cephalopelvic disproportion, non-reassuring fetal heart rate pattern, and multiple pregnancies are the most common indications of Caesarean section [
4‐
6,
8].
According to the 2016 Ethiopia Demographic and Health Survey, the rate of C-section (21.4%) in Addis Ababa was far more than the 10–15% rate recommended by the world health organization. EDHS (2016) report showed there is an absolute difference rate of Caesarean section across different regions in Ethiopia which accounts Amhara (2.3%), Oromia (0.9%), SNNPR(1.9%), Afar (0.7%), Tigray (2%), Somali(0.4%), Benishangul Gumuz (1%) too far from the lowest 5% WHO recommendation of Caesarean section deliveries. This review helps to see C-section rates beyond 15% and below 5% is considered medically unjustified or unnecessary, with negligible benefits for most mothers, and yet costly and unequally distributed throughout the population [
9,
10].
Ethiopia is a good case study to assess Caesarean prevalence, indications, and outcomes because, like other countries in sub-Saharan Africa, maternal mortality and neonatal mortality did not decline sufficiently to meet the Sustainable Development Goal for maternal health and child, and was estimated at 412 maternal deaths and 29 neonatal deaths per 100,000 live births in 2016 [
9].
Despite a few single studies stated different maternal and fetal outcomes of Caesarean section, there is a lack of data to show the distribution and outcome of Caesarean section in different regions where they are provided.
This systematic review and meta-analysis aimed to estimate the pooled prevalence of Caesarean section deliveries and to determine the indications and outcomes of Caesarean section deliveries in Ethiopia.
Methods
This systematic review and meta-analysis have been conducted to estimate the pooled prevalence of Caesarean section, indications, maternal and neonatal outcomes in Ethiopia via the standard PRISMA checklist guideline.
Search strategy
International databases (PubMed, Google Scholar, Web of science and HINARI), different gray works of literature and articles in the university repository were included. The searching engine terms were used using PICO formulating questions. These are: “newborn”, “neonatal”, “birth outcome”, “stillbirth”, perinatal asphyxia””, “neonatal sepsis”, “prematurity”, “early neonatal death”, “low Apgar score”, “preterm”, “maternal mortality”, “wound infection”, “surgical site infection”, “febrile morbidity”,” puerperal sepsis”, “puerperal fever”, postpartum hemorrhage”, “blood loss”, “anemia”, “leading factors of Caesarean section”, “indications of Caesarean section”, “Ethiopia”. The following search engine terms were used: neonate OR newborn OR women OR infant OR fetal OR children AND “neonatal sepsis” OR “perinatal asphyxia” OR “low Apgar score” OR “stillbirth” OR “prematurity” OR “preterm birth” OR “early neonatal death” OR “perinatal” OR “neonatal death” OR “preterm “puerperal sepsis” OR “puerperal fever” OR “wound infection” OR “surgical site infection” OR “postpartum hemorrhage” OR “anemia” OR “maternal mortality” OR “maternal death” OR “blood loss” OR “indication of Caesarean section, ‘factors of Caesarean section”, “leading factors of Caesarean section”, “fetal indication of CS”, “Maternal indication of CS”AND Ethiopia and related terms.
Inclusion and exclusion criteria
Twenty three (23) cross-sectional studies were included. Articles reported prevalence or/and an indication, or/and neonatal outcomes or/and maternal outcomes were incorporated. Only English language literature and research articles were included. Studies published till October 2019 were reviewed, screened and appraised for this study. Whereas, articles without full abstracts or texts and articles reported out of the scope of the outcome interest were excluded.
Quality assessment
GG, AD & AW independently evaluated the quality of each study using the Joanna Briggs Institute (JBI) quality appraisal checklist [
11]. Any disagreement was resolved by the hindrance of the third reviewer (FW, BA &AG). The following JBI items used to appraise cross-sectional studies were: [
1] inclusion criteria, [
2] description of study subject and setting, [
3] valid and reliable measurement of exposure, [
7] objective and standard criteria used, [
9] identification of confounder, [
10] strategies to handle confounder, [
12] outcome measurement, and [
13] appropriate statistical analysis. Hence, studies considered with the JBI checklist value of 50% and above of the quality assessment indicators as low risk and good to be included for the analysis.
All the datasets are exported to Endnote version X8 software, and then we transferred to the Microsoft Excel spreadsheet to remove duplicate data in the review. Three authors (GG, AD, and AG) independently extracted all the important data using a standardized JBI data extraction format. Any disagreement between reviewers was resolved by the second team reviewers (FW, BA & AW). The consensus was declared through critical discussion and evaluation of the articles by the independent group reviewers. The name of the author, sample size, publication year, study area, response rate, region, study design, the prevalence of specific maternal outcomes, the prevalence of neonatal outcomes, indications of Caesarean section, and prevalence of Caesarean section with 95%CI were extracted.
Outcome of measurements
Neonatal outcomes
Any neonatal outcomes reported following C-section (Stillbirth, prematurity, neonatal sepsis, perinatal asphyxia, low Apgar score, and early neonatal death) were included.
Maternal outcomes
Any maternal complications identified after C-section were included puerperal sepsis, wound infection (surgical site infection), febrile morbidity (puerperal fever), postpartum hemorrhage, severe anemia, and maternal mortality.
Indications of caesarean section
Both maternal and fetal indications (obstructed labor, cephalo pelvic disproportion, NRFHRP (Non-reassuring fetal heart rate pattern), multiple gestations, failed induction, malpresentation, malposition, and antepartum hemorrhage) were included.
Data analysis
A Funnel plot and Eggers regression test was used to check publication bias [
14]. Cochrane Q-test and I-squared statistics were computed to check the heterogeneity of studies [
15,
16]. Pooled analysis was conducted using a weighted inverse variance random-effects model [
17]. Subgroup analysis was done by study region (area), and sample size. STATA version 11 statistical software was used to compute the analysis. Forest plot format was used to present the pooled point prevalence, indications and outcomes of C-section with 95%Cl.
Discussion
Despite Caesarean section is an essential component of comprehensive obstetric and newborn care for reducing maternal and neonatal mortality, there is a lack of data regarding Caesarean section rates, its indications and outcomes in Ethiopia. Studies showed negative or no complications of Caesarean on neonatal mortality in low and middle-income countries where the Caesarean rates are high. Cesarean section is very crucial in settings where the Caesarean rates are very low, due to the unavailability of Caesarean [
39].
Caesarean sections can cause significant and sometimes permanent complications, disability or death particularly in settings that lack the facilities and/or capacity to properly conduct safe surgery and treat surgical complications [
40].
Low- and middle-income countries, wealthy women have more than five times higher C-section use than poor women. In the United States, 32% of births were by C-section in 2015, an increase from 23% in 2000, as the data showed, and in the United Kingdom, 26.2% of births were by C-section in 2015, up from 19.7% in 2000. According to the World Health Organization report, the country with the lowest C-section rate, at 0.6% in 2010, was South Sudan and the country with the highest, at 58.1% in 2014, was the Dominican Republic. Whereas, some countries where more than half of births were by C-section were Brazil, at 55.5% in 2015; Egypt, at 55.5% in 2014; Turkey, at 53.1% in 2015; and Venezuela, at 52.4% in 2013 [
41].
The overall prevalence of Caesarean section in Ethiopia was 29.55% (95% CI: 25.46–33.65). This report is higher than the study done in Saudi Arabia [
42], Nigeria [
43], Pakistan [
44], India [
5], Brazil [
45] and low and middle-income countries analysis [
46]. This discrepancy might be due to the age of the mother elapses the ideal birth time, significantly increasing, non-communicable disease, increasing electronic fetal monitoring availability and accessibility in referral and general hospitals. This study finding is lower than the study done in Nepal, North America and Western Europe, Latin America and the Caribbean [
47]. This difference might be due to countries with a rich wealth index that may have the capacity to have modern operative obstetrics management as compared to low and middle countries. Hence, low and middle-income countries have resource limitation and c-section is resource-constrained, may have low comprehensive obstetric health care services.
Antepartum hemorrhage, non-reassuring fetal heart rate pattern, malpresentation, and malposition, failed induction, obstructed labor, multiple gestations, cephalopelvic disproportion were the most common indications of Caesarean section in Ethiopia. This study finding is supported by the study done in low and middle-income countries [
46], Saudi Arabia [
42], Ghana [
6,
8], Jordan [
4] and India [
5].
Neonatal sepsis, stillbirth, prematurity, perinatal asphyxia, low Apgar score, and meconium aspiration syndrome were the most common neonatal complications following the Caesarean section in Ethiopia. This study finding is supported by the study done in India [
5], Jordan [
4], and Ghana [
6].
Postpartum hemorrhage, surgical site infection, puerperal fever, anemia, and maternal mortality were the most common neonatal adverse outcome of Caesarean section in Ethiopia. The finding of this study is supported by the study done in India [
5], Jordan [
4], and African countries [
48].
Conclusion
In this study, the overall pooled prevalence of Caesarean section in Ethiopia was high. Non-reassuring fetal heart rate patterns, cephalopelvic disproportion, and obstructed labor were the most common indication of Caesarean section. Low Apgar score, perinatal asphyxia, and neonatal sepsis were the most common complication of neonates whereas postpartum hemorrhage and febrile morbidity were the common maternal complications following the Caesarean section in Ethiopia. Therefore, based on the study findings, the authors recommend a particular emphasis to follow the WHO recommendations and guidelines. Avoiding unjustified and unnecessary indications for Caesarean sections has a significantly higher impact to prevent poor maternal and fetal outcomes.
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