Maternal and perinatal outcomes of hypertensive disorders of pregnancy in Ethiopia: systematic review and meta-analysis

A systemic review and meta-analysis was conducted to assess maternal and fetal outcomes of hypertensive disorders of pregnancy in Ethiopia. The studies were retrieved through internet search from the databases of MEDLINE, Scopus, PubMed, ScienceDirect, and Google Scholar. A combination of keywords and phrases like: preeclampsia (Mesh), preeclamp*(all fields), eclampsia (Mesh),eclamp*(all fields), hypertensive disorders of pregnancy (Mesh), hypertensive disorders of pregnancy (all fields), fetal outcome (Mesh), fetal outcome (all fields), maternal outcome (Mesh), maternal outcome (all fields), gestational hypertension (Mesh),gestational hypertension (all fields), pregnancy induced hypertension (all fields), and Ethiopia (all fields), were used to search articles in the databases. The reference lists of identified studies were also screened to recover other articles and one unpublished study was retrieved from Addis Ababa University electronic library. All published articles up to 21 September 2018 were included in the review.

All observational studies that reported at least one of the maternal and/or fetal outcomes of hypertensive disorders of pregnancy and conducted in Ethiopia were included in the current review.

The primary outcomes of interest included in the Meta-analysis are maternal death, HELLP syndrome, perinatal death, and low birth weight. The secondary outcomes included in the review are preterm delivery, perinatal asphyxia, acute kidney injury, aspiration pneumonia, pulmonary edema, ANC service utilization, and placental abruption.

All of the research articles that were identified from searches of the electronic databases were imported into the ENDNOTE software version X5 (Tomson Reuters, USA) and duplicates were removed. Two authors (AGM and TMA) screened the titles and abstracts of identified articles by applying the inclusion criteria. Two authors (AGM and MAS) independently reviewed the full text. Final inclusion of the studies was determined by agreement of both reviewers and when there is disagreement, a third author (TMA) was involved. All the authors were involved in the discussion and agreed on the final inclusion. Before data extraction had begun, full-length articles of the selected studies were read to confirm for fulfilling the inclusion criteria. Then, data extraction was performed by two reviewers (AGM and TMA) independently. The selected studies were reviewed to extract data like; year of publication; author(s); study design; sample size; maternal outcomes; fetal outcomes; type of HDP; period of occurrence of the HDP; gestational age at the time of diagnosis; and antenatal care visit. When there was a disagreement in data extraction between the reviewers, it was resolved through discussion and mutual agreement between the investigators.

All reviewers (AGM, MAS, TMA) independently assessed the quality of studies using strengthening the reporting of observational studies in epidemiology (STROBE) scale checklist quality assessment tool [17]. All of the included studies were assessed to have a quality of > 70% and, there were no studies excluded based on quality assessment.

Statistical analyses were carried out by using Stata 14 (Stata Corp LP, College Station, TX) software to estimate the pooled prevalence of selected maternal and perinatal outcomes [18]. Statistical heterogeneity between studies was evaluated using the Cochran’s Q test and I² statistic [19]. I² value of greater than 75 demonstrates that heterogeneity among the studies is high and probably a few studies are contributing to the final result. Random-effects model for estimating pooled effects was employed due to the high level of observed heterogeneity and was measured as proportions of outcomes with 95% confidence intervals (CIs). Egger’s regression asymmetry test with p-value < 0.05 used as a cutoff to declare presence of statistically significant publication bias. The detail description of the original studies was presented in a table and forest plot.

A total of 127 articles were identified from five electronic databases (MEDLINE, Scopus, PubMed, ScienceDirect, and Google Scholar). Out of these identified articles: 38 articles found duplicated and were removed; 49 articles excluded after reviewing their title; 16 articles excluded after reviewing their abstracts; and 11 articles excluded after a full text review (did not report the outcome variables). Finally, thirteen studies were included in the systematic review and meta-analysis (Fig. 1).

Out of thirteen studies as demonstrated in table one; eleven studies were cross-sectional studies [20, 21, 23‐26, 28‐32] while two studies followed a retrospective cohort study design [22, 27]. Four studies conducted in Southern Nations Nationalities and People (SNNPR) [22, 23, 27, 30]; four studies were conducted in Addis Ababa (capital city of Ethiopia) [24, 25, 31, 32]; three studies were from Oromia regional state [20, 26, 29]; one study in Amhara region [28]; and one study conducted in Somali regional state of Ethiopia [21]. The sample size of studies ranges from a minimum of 93 women [21] to a maximum of 1809 women [25]. All of the included studies defined hypertensive disorders of pregnancy as a Systolic blood pressure (SBP) of 140 mmHg or higher and/or diastolic blood pressure (DBP) of 90 mmHg or higher on two or more consecutive occasions during pregnancy.

Overall, thirteen studies with a total sample size of 5894 pregnant women were found to have one of the HDPs and included in the review [20‐32]. A maximum of 52.5% in a study conducted in Jimma specialized hospital [20] to a minimum of 3.5% among women admitted at teaching hospitals in Addis Ababa [24] were not having any antenatal care visit. Furthermore, 52% of women from another study [26]; 22.2% from a study in Amhara region [28]; and, 7.5% in Somalia regional state of Ethiopia [21] had no antenatal care visit. For other components of socio-demographic and clinical characteristics of women included in the review there were no adequate data to generate results.

Among the five groups of HDP, preeclampsia – eclampsia syndrome was the most commonly reported type of HDP. For instance, preeclampsia accounts for 66.2% of mothers among women admitted with HDP in Jimma specialized hospital [20]; 72.9% among mother with HDP in a Southern Ethiopian study [23]; and, 82.7% in a study done in Addis Ababa [25]. Eclampsia was reported to account for 27.8% of women admitted for HDP in a study conducted at Amhara regional state [28]; 34.1% in Southern study [27]; and, 24.2% in a study from Addis Ababa study. A study conducted in Somalia regional state of Ethiopia reported that 61% of the women with HDP were diagnosed during the antepartum period; 28%were diagnosed during the intrapartum period; and the remaining 10.7% were diagnosed in the postpartum period [21]. Most convulsions started during the antepartum period as compared to onsets during the intrapartum and postpartum periods. For instance, 38% of all convulsions in a study conducted at Oromia regional state started in the antepartum period; 18% occur during the intrapartum period; and the rest 44% convulsions started during the postpartum period [20]. Additionally, 86% of all the convulsions started during the antepartum period in a study conducted at teaching hospitals located at Addis Ababa [24] (Table 1).

Among thirteen studies included in the review, nine studies reported rate of maternal death in women diagnosed to have HDP [20‐25, 27, 28, 32]. As illustrated in the forest plot, the overall all rate of maternal death in Ethiopian women with HDP was estimated to be 4% [0.04 (0.02–0.06), I² = 94.64%, P < 0.01] (Fig. 2). The test of publication bias using the Egger’s test was non-significant, p-value > 0.092 (Fig. 6). Seven studies reported the prevalence of HELLP syndrome [20, 21, 24‐26, 29, 31]. As demonstrated in the forest plotthe prevalence of HELLP syndrome was estimated to be 13% [0.13 (0.10–0.16), I² = 72.2%, p < 0.01] (Fig. 3). Publication bias was checked by using the Egger’s test that showed non-significant publication bias, p-value > 0.428 (Fig. 6). Acute kidney injury was reported by six of the included studies [20, 21, 23, 24, 26, 31]: the maximum rate of acute kidney injury was reported from a study conducted in Jimma specialized hospital (24.2%) [20]; and, the minimum rate was reported from a study conducted in Addis Ababa (6.5%) [24]. Placental abruption complicates as high as 15.3% of women with HDP in Addis Ababa [25]; and, as low as 1.3% in Southern Nations and Nationalities of Ethiopia [30]. The highest rate of pulmonary edema was reported from one study conducted in Jimma specialized hospital (20.1%) [20]; followed by a study from Addis Ababa (17.5%) [25]. Aspiration pneumonia complicates 17.5% of women with the diagnosis of HDP in one study [25].

Among thirteen studies included in the review, nine studies reported rate of perinatal death in mothers diagnosed with HDP [21, 22, 25, 26, 28‐32]. As illustrated in the forest plot, perinatal death was observed in one-fourth of women [0.25 (0.18–0.32), I² = 95.94%, p < 0.01] (Fig. 4). Egger’s test was conducted and illustrated that the publication bias is not statistically significant, p-value > 0.576 (Fig. 6). The rate of stillbirths were most common than the rate of early neonatal deaths. For instance, in one study the rate of stillbirth was almost four folds higher than early neonatal deaths (81% vs. 19%) [22]. The frequency of giving birth to a low birth weight neonate was assessed using eight studies [21, 22, 25, 26, 28‐31]. The overall rate of having a low birth weight newborn was found to be 37% [0.37 (0.27–0.48%), I² = 97.40%, p < 0.01] (Fig. 5). Egger’s test was employed to see for publication bias and found non-significant, p-value > 0.859 (Fig. 6). Perinatal asphyxia was reported by six studies [21, 26, 28‐31]: the highest rate being 52.8% in Addis Ababa [31] and the lowest rate being 13.4% in Southern Ethiopia [30]. Preterm birth complicates as high as 65.3% of women with HDP in Somalia regional state of Ethiopia [21] to as low as 31% in a study conducted at Oromia regional state [26].

This review is the first to review the maternal and fetal outcomes among women with all types of HDPs in Ethiopia. The limited numbers of studies evaluating outcomes made it impossible to generate strong conclusions. The included studies were also conducted primarily in tertiary health centers, and the data may not be representative of outcomes in low-level facilities or in the community. Furthermore, there is a high level of heterogeneity among the included studies that should be taken in consideration while using the results of the review. Despite these possible limitations, the review provides useful information that may contribute to both the filling of the gaps in the national maternal morbidity research agenda and guiding practice and policy about the most frequent complications of HDP.

This review demonstrated the high prevalence of perinatal and maternal mortality among pregnant women with one of the HDP in Ethiopia. Moreover, other severe maternal and perinatal complications such as HELLP syndrome, placental abruption, pulmonary edema, hemolytic anemia, renal damage, prematurity, perinatal asphyxia, as well as low birth weight were also commonly reported.

Based on the above mentioned results, it is recommended to intervene at three levels so as to improve the maternal and fetal outcomes of hypertensive disorders in Ethiopia and to ensure the safety of a pregnant woman and her baby. Giving the above mentioned fact of poor antenatal care (ANC) service utilization, community based health education can be one possible level of intervention to improve the health outcomes of women with HDP by improving maternal health service utilization. The second possible level of intervention could be early detection and early referral of pregnant women with hypertensive disorder. Policies and strategies that may enhance the health professionals’ capacity should be advocated. The other possible level of intervention could be, optimizing the quality of care that a pregnant woman with hypertensive disorders receives. Additionally, it is recommended to have easily available and affordable laboratory testing; frequent maternal and fetal monitoring; increase accessibility of antihypertensive and anticonvulsive drugs; increase preparation for neonatal resuscitation; and, improving quality of neonatal intensive care units. It is also recommended to develop a uniform systematic registration system of maternal and perinatal outcomes of HDP in the country.