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Erschienen in: BMC Pregnancy and Childbirth 1/2013

Open Access 01.12.2013 | Research article

Maternal near miss and mortality in a rural referral hospital in northern Tanzania: a cross-sectional study

verfasst von: Ellen JT Nelissen, Estomih Mduma, Hege L Ersdal, Bjørg Evjen-Olsen, Jos JM van Roosmalen, Jelle Stekelenburg

Erschienen in: BMC Pregnancy and Childbirth | Ausgabe 1/2013

Abstract

Background

Maternal morbidity and mortality in sub-Saharan Africa remains high despite global efforts to reduce it. In order to lower maternal morbidity and mortality in the immediate term, reduction of delay in the provision of quality obstetric care is of prime importance. The aim of this study is to assess the occurrence of severe maternal morbidity and mortality in a rural referral hospital in Tanzania as proposed by the WHO near miss approach and to assess implementation levels of key evidence-based interventions in women experiencing severe maternal morbidity and mortality.

Methods

A prospective cross-sectional study was performed from November 2009 until November 2011 in a rural referral hospital in Tanzania. All maternal near misses and maternal deaths were included. As not all WHO near miss criteria were applicable, a modification was used to identify cases. Data were collected from medical records using a structured data abstraction form. Descriptive frequencies were calculated for demographic and clinical variables, outcome indicators, underlying causes, and process indicators.

Results

In the two-year period there were 216 maternal near misses and 32 maternal deaths. The hospital-based maternal mortality ratio was 350 maternal deaths per 100,000 live births (95% CI 243–488). The maternal near miss incidence ratio was 23.6 per 1,000 live births, with an overall case fatality rate of 12.9%. Oxytocin for prevention of postpartum haemorrhage was used in 96 of 201 women and oxytocin for treatment of postpartum haemorrhage was used in 38 of 66 women. Furthermore, eclampsia was treated with magnesium sulphate in 87% of all cases. Seventy-four women underwent caesarean section, of which 25 women did not receive prophylactic antibiotics. Twenty-eight of 30 women who were admitted with sepsis received parenteral antibiotics. The majority of the cases with uterine rupture (62%) occurred in the hospital.

Conclusion

Maternal morbidity and mortality remain challenging problems in a rural referral hospital in Tanzania. Key evidence-based interventions are not implemented in women with severe maternal morbidity and mortality. Progress can be made through up scaling the use of evidence-based interventions, such as the use of oxytocin for prevention and treatment of postpartum haemorrhage.
Hinweise

Competing interests

EN received a stipend from the Laerdal Foundation for Acute Medicine, Stavanger, Norway. The sponsor of the study had no role in study design, data collection, data analysis, data interpretation, or writing of the report.

Authors’ contributions

EN was involved in the conception and design of the study, carried out the analysis and wrote the first draft of the paper. EM, HLE, BEO, JVR and JS assisted with the conception and design of the study and contributed to the writing of the paper. BEO, JS and JVR also participated in the classification of diagnoses for all MNM and MD cases. All authors read and approved the final draft of the paper.
Abkürzungen
AMTSL
Active management of third stage of labour
CFR
Case fatality rate
CI
Confidence interval
HLH
Haydom lutheran hospital
ICU
Intensive care unit
MD
Maternal death
MDG
Millennium development goal
MMR
Maternal mortality ratio
MNM
Maternal near miss
PPH
Postpartum haemorrhage
SD
Standard deviation
WLTC
Women with life-threatening conditions.

Background

Despite global efforts through the Safe Motherhood Initiative and the declaration of the Millennium Development Goals (MDG), there is only a slight decline in maternal mortality in sub-Saharan Africa [1, 2]. Although Tanzania shows progress towards improving maternal health, as is shown by a 47% decline in maternal mortality ratio (MMR) between 1990 and 2010 (from an estimated MMR of 870 per 100,000 live births in 1990 to a MMR of 460 per 100,000 live births in 2010), maternal mortality remains high [3]. The aim of MDG 5 is to reduce maternal mortality by 75% between 1990 and 2015 [4]. Although the numbers of maternal deaths (MD) around the globe are high, absolute numbers in hospitals are low. Therefore, including cases of women who almost die, but survive pregnancy-related complications, is progressively being used to study the quality of obstetric care [58]. These near miss cases represent most of the characteristics of maternal deaths [9]. Combined, they create larger numbers and may lead to more rapid and precise reporting. Since identification criteria for near miss cases are not uniform and studies thus not comparable [6, 7], WHO developed a new definition of maternal near miss (MNM) and identification criteria for maternal near miss cases in 2009 [10]. This resulted in the “WHO near miss approach for maternal health” in 2011 [11].
Currently, in Tanzania half of the deliveries take place in health facilities and 51% of all deliveries are assisted by a skilled provider [12]. Unfortunately skilled birth attendance does not necessarily equal good quality of care [13]. Many evidence-based effective approaches are available to prevent and treat obstetric emergencies, but their implementation lags behind [14, 15]. Human resources are scarce and policymakers encourage scaling up facility deliveries. Increased utilization of skilled birth attendants at facilities with insufficient human resources may further threaten quality of care. Negative perception of the quality of care by the community inhibits the decision to deliver in a facility [16, 17] and so a vicious circle is created. When scaling up skilled birth attendance, there is a need for a well-functioning health system with sufficient resources and a good infrastructure. Both, quantity of human resources and quality of care should be addressed [13, 18].
In order to reduce maternal mortality and severe acute maternal morbidity, it is imperative not only to increase the numbers of skilled personnel, but also to improve access to health institutions and to reduce the delay in providing quality obstetric care within institutions. Quality of obstetric care can be measured using outcome indicators, such as case fatality rate (CFR), and process indicators, such as the use of oxytocin after delivery to prevent postpartum haemorrhage [11, 19].
This study aims to assess the occurrence of severe maternal morbidity and mortality in a referral hospital in rural Tanzania as proposed by the WHO near-miss approach and to assess implementation levels of key evidence-based interventions in women experiencing severe maternal morbidity and mortality.

Methods

This study is part of an intervention study. Data that were collected serve as baseline for an intervention with simulation-based training in routine delivery care, prevention and treatment of postpartum haemorrhage (PPH). This was a prospective cross-sectional study, conducted from November 2009 until November 2011 in Haydom Lutheran Hospital (HLH), a referral hospital in rural Northern Tanzania. HLH is a 400-bed hospital owned by the Mbulu Diocese of the Evangelical Lutheran Church in Tanzania. The hospital provides free reproductive and child health services, comprehensive emergency obstetric care, including ambulance and radio service. Furthermore there is an Intensive Care Unit (ICU) with 24-hours medical supervision and mechanical ventilation. Annually there are around 5000 deliveries. Extrapolating from the 2002 census, the immediate catchment area was covering a population of approximately 327,000 in 2010 [20]. The greater reference area covered a population of approximately 2,200,000 people [20].

Outcome measures

The primary outcome measures were the total number of MD, MNM and live births (LB) in the hospital during the study period. Subsequently, outcome indicators were calculated such as the number of women with life-threatening conditions. As proposed by the WHO approach, overall near miss indicators were calculated such as the severe maternal outcome ratio, the maternal near miss incidence ratio, the maternal near-miss mortality ratio, and the case fatality rate. Hospital access indicators were calculated such as the number of women with life-threatening conditions at arrival, the proportion of these women among all women with life-threatening conditions, the proportion of these women coming from other hospitals, and the women with life-threatening conditions at arrival mortality index. Lastly, intra hospital care indicators were calculated: the number of maternal near misses and deaths who developed these conditions in the hospital and the intra hospital mortality index.
Implementation levels of evidence-based interventions were measured, such as use of oxytocin for prevention and treatment of PPH, use of magnesium sulphate for treatment of eclampsia, use of prophylactic antibiotics during caesarean section, use of parenteral antibiotics for treatment of sepsis, and the proportion of women with uterine rupture that occurred in the hospital.

Inclusion criteria

All maternal deaths and maternal near misses that were admitted to HLH were prospectively included in the study during the above-mentioned period. A maternal death is defined as: the death of a woman while pregnant or within 42 days of termination of pregnancy from any cause. A maternal near miss is defined as: a woman who nearly died but survived a complication that occurred during pregnancy, childbirth or within 42 days of termination of pregnancy [10]. The intention was to use the WHO near miss criteria for the identification of maternal near misses. However, not all WHO criteria were applicable, and the identification criteria were adapted to the local situation in HLH as is described elsewhere [21]. Table 1 shows an overview of the WHO near miss criteria and the Haydom modification.
Table 1
WHO near miss criteria adapted to the local context of HLH (reproduced from Nelissen et al.)
WHO near miss criteria
Haydom near miss criteria
Clinical criteria
Acute cyanosis
Acute cyanosis
Gasping
Gasping
Respiratory rate > 40 or < 6/min
Respiratory rate > 40 or < 6/min
Shock
Shock a
Oliguria non responsive to fluids or diuretics
Oliguria non responsive to fluids or diuretics b
Failure to form clots
Failure to form clots c
Loss of consciousness lasting > 12 h
Loss of consciousness lasting > 12 h d
Cardiac arrest
Cardiac arrest e
Stroke
Stroke f
Uncontrollable fit/total paralysis
Uncontrollable fit/total paralysis g
Jaundice in the presence of pre-eclampsia
Jaundice in the presence of pre-eclampsia h
Laboratory-based criteria
Oxygen saturation < 90% for ≥ 60 minutes
Oxygen saturation < 90% for ≥ 60 minutes
PaO2/FiO2 < 200 mmHg
 
Creatinine ≥ 300 μmol/l or ≥ 3.5 mg/dL
 
Bilirubin > 100 μmol/l or > 6.0 mg/dL
 
pH < 7.1
 
Lactate > 5 mEq/mL
 
Acute thrombocytopenia (< 50,000 platelets/ml)
Acute thrombocytopenia (< 50,000 platelets/ml)
Loss of consciousness and ketoacids in urine
 
Management-based criteria
 
Admission to intensive care unit
Use of continuous vasoactive drugs
 
Hysterectomy following infection or haemorrhage
Hysterectomy following infection or haemorrhage
Transfusion of ≥ 5 units of blood
Transfusion of ≥ 1 unit of blood
Intubation and ventilation for ≥ 60 minutes not related to anaesthesia
Intubation and ventilation for ≥ 60 minutes not related to anaesthesia
Dialysis for acute renal failure
 
Cardio-pulmonary resuscitation
Cardio-pulmonary resuscitation
Severe maternal complications
 
Eclampsia i
 
Sepsis or severe systemic infection j
 
Uterine rupture k
Applicability of the WHO near miss criteria in a low resource setting. PLoS One 2013, 8:e61248.
a: Shock is defined as a persistent severe hypotension, defined as a systolic blood pressure < 90 mmHg for 60 min with a pulse rate of ≥ 120/min despite aggressive fluid replacement (> 2 L).
b: Oliguria is defined as an urinary output < 30 ml/hour for 4 hours or < 400 ml/24 hr.
c: Failure to form clots is defined as the absence of clotting from the IV site after 7–10 minutes.
d: Unconsciousness/coma lasting > 12 hours is defined as a profound alteration of mental state that involves complete or near-complete lack of responsiveness to external stimuli or Glasgow Coma Scale < 10.
e: Cardiac arrest is defined as loss of consciousness and absence of pulse or heart beat.
f: Stroke is defined as a neurological deficit of cerebrovascular cause that persists ≥ 24 hours, or is interrupted by death within 24 hours.
g: Uncontrollable fit is a condition in which the brain is in state of continuous seizure.
h: Pre-eclampsia: the presence of hypertension associated with proteinuria. Hypertension is defined as a blood pressure ≥ 140 mmHg (systolic) or ≥ 90 mmHg (diastolic). Proteinuria is defined as excretion of ≥ 300 mg protein/24 hr or 300 mg protein/litre urine or ≥ 1+ on a dipstick.
i: Eclampsia is defined as the presence of hypertension associated with proteinuria and fits. Hypertension is defined as a blood pressure ≥ 140 mmHg (systolic) or ≥ 90 mmHg (diastolic). Proteinuria is defined as excretion of ≥ 300 mg protein/24 hr or 300 mg protein/litre urine or ≥ 1+ on a dipstick.
j: Sepsis is defined as a clinical sign of infection and 3 of the following: temp > 38°C or < 36°C, respiration rate > 20/min, pulse rate > 90/min, WBC >12.
k: Uterine rupture is defined as the complete rupture of a uterus (including peritoneum) with (partial) extrusion of the fetus during labour.

Data collection

Cases were identified on a daily basis by either the principal investigator (EN) or by one of the two trained research assistants (nurse-midwives). This was achieved through daily participation in the morning report and daily visits to the maternity ward, ICU and the internal medicine ward. When the inclusion criteria were met, a structured data abstraction form was filled out by the principal investigator or a research assistant. Data were obtained from the patient record. The facility medical staff was questioned in case of doubt or missing information. General information and obstetric details were collected. For the hospital access and intra hospital care indicators, the following information was registered: health status on arrival, maternal death within 24 hours, and referral status. For each case, one underlying cause was identified that started the cascade that led to maternal morbidity or mortality [22]. For example, a primipara was admitted with obstructed labour and had a caesarean section. After caesarean section she developed sepsis. The underlying cause that started the cascade that led to maternal morbidity or mortality was obstructed labour. This table shows one diagnosis per woman (mutually exclusive, totally inclusive). For the process indicators, information on preventive measures (measuring of vital signs, use of oxytocin or other uterotonics for prevention of PPH, use of prophylactic antibiotics during caesarean section) were registered, as well as the use of interventions (use of oxytocin or other uterotonics as treatment for PPH, IV-infusion, blood products, hysterectomy, magnesium sulphate or other anticonvulsant in case of eclampsia, parenteral therapeutic antibiotics, and laparotomy for uterine rupture).

Quality assessment of the data

The completed data abstraction forms were checked by a second person on missing data or discrepancies. If needed, a copy of the hospital file was checked to validate the recordings. All MD cases were reviewed by a selection of the authors (EN, BEO, JVR and JS), as well as a random selection of the MNM cases and those cases, which were difficult to classify into an underlying cause. Observation bias was addressed by means of auditing all MD cases and a random sample of the MNM cases by four authors (EN, BEO, JVR, JS) until consensus was reached. All data were double entered and cross-checked in Epidata [23].

Statistical analysis

Data analysis consisted of frequencies of demographic and clinical variables and underlying causes. Demographic variables were cross-tabulated for maternal outcome at discharge, and compared using chi-square test for categorical variables and t-test for continuous variables. Outcome indicators were calculated using the total number of live births during the study period and the total number of MNM and MD in that same period. Descriptive frequencies were calculated for underlying causes and process indicators. All results are reported as number (n) and frequency (%). Analysis was performed using SPSS Statistics, version 20 (SPSS Inc. Chicago, Illinois).

Ethical approval

Ethical approval was obtained from the Tanzanian National Institute for Medical Research (NIMR) (reference NIMR/HQ/R.8a/Vol.IX/1247), the Tanzania Commission for Science and Technology (COSTECH) (reference 2012-56-NA-2011-201), and from the VU university medical center (VUmc), the Netherlands (reference 2011/389). Data were collected and extracted from patient records without identification of the subject. Data abstraction forms were filled in after discharge or death and therefore study inclusion did not have effect on the treatment. Considering these precautions, individually obtained informed consent was not required.

Results

In the two-year study period 248 women with life-threatening conditions were included at Haydom Lutheran Hospital: 216 maternal near miss cases and 32 maternal deaths. In the study period 9471 deliveries and 9136 live births occurred at HLH.
Demographic and clinical characteristics are shown in Table 2. There were no statistical differences in characteristics between the group of maternal near miss and the group of maternal deaths. The Datoga tribe, who are pastoralists, experienced relatively more deaths than near misses, but this did not reach statistical significance. Almost 20% of all near misses (n = 40) and 22% of all maternal deaths (n = 7) had a gestational age of less than 24 weeks on admission. For 42% of all near misses (n = 91) gestational age was 36 weeks or more, compared to 25% of all maternal deaths (n = 8). The most common mode of delivery was vaginal delivery: 37% MNM (n = 80) and 47% MD (n = 15). This was followed by caesarean section: 32% MNM (n = 69) and 16% MD (n = 5). There were no assisted vaginal deliveries (e.g. forceps/vacuum extraction). Almost 30% of all women who died (n = 9) died undelivered.
Table 2
Demographic and clinical characteristics
 
MNM
MD
p-value
n = 216
n = 32
Age mean (SD) in years
28.1 (6.3)
29.4 (6.1)
p = 0.266*
  < 20 years n (%)
20 (9%)
3 (9%)
 
  20-35 years n (%)
150 (69%)
20 (63%)
 
  ≥ 35 years n (%)
46 (21%)
9 (28%)
 
Marital status n (%)
  
p = 0.341***
  Single/separated/divorced
21 (10%)
5 (16%)
 
  Married/cohabiting
188 (87%)
25 (78%)
 
  Unknown
7 (3%)
2 (6%)
 
Tribe n (%)
  
p = 0.477**
  Datoga
31 (14%)
7 (22%)
 
  Iraqw
114 (53%)
14 (44%)
 
  Other
61 (28%)
9 (28%)
 
  Unknown
10 (5%)
2 (6%)
 
Parity n (%)
  
p = 0.742**
  0
47 (22%)
5 (16%)
 
  1-2
52 (24%)
7 (22%)
 
  ≥ 3
100 (46%)
16 (50%)
 
  Unknown
17 (8%)
4 (13%)
 
Previous caesarean section n (%)
  
p = 0.307***
  No
145 (67%)
24 (75%)
 
  Yes
41 (19%)
3 (9%)
 
  Unknown
30 (14%)
5 (16%)
 
Gestational age n (%)
  
p = 0.106**
  < 24 weeks
40 (19%)
7 (22%)
 
  24-36 weeks
40 (19%)
10 (31%)
 
  ≥ 36 weeks
91 (42%)
8 (25%)
 
  Unknown
45 (21%)
7 (22%)
 
Mode of delivery n (%)
  
****
  Vaginal delivery
80 (37%)
15 (47%)
 
  Caesarean section
69 (32%)
5 (16%)
 
  Laparotomy for uterine rupture
16 (7%)
1 (3%)
 
  Abortion/curettage
22 (10%)
2 (6%)
 
  Laparotomy for ectopic pregnancy
19 (9%)
-
 
  Undelivered
9 (4%)
9 (28%)
 
  Unknown
1 (1%)
-
 
Fetal presentation n (%)
  
****
  Cephalic
110 (51%)
15 (47%)
 
  Breech
10 (5%)
1 (3%)
 
  Other
9 (4%)
1 (3%)
 
  Abortion
40 (19%)
4 (13%)
 
  Unknown
47 (22%)
11 (34%)
 
* Independent sample t-test; ** Chi-square test; *** Fisher exact test (2-sided); **** p-value could not be calculated due to too few cases.
As is shown in Table 3, there were 27.1 MNM and MD per 1,000 live births; this is also referred to as the severe maternal outcome ratio. For every maternal death there were 6.8 near miss cases. Hospital-based MMR was 350 per 100,000 live births (95% CI 243–488), with an overall CFR of 12.9%. Nearly 70% of all women with life-threatening conditions were ill on arrival and 20.9% were referred from another hospital. Death within 24 hours occurred in 7.6% (n = 13) of the women that were ill on arrival. Seventy-six women (30.6%) developed a life-threatening condition in the hospital, and four (5.3%) of these women died as a result of this condition.
Table 3
Outcome indicators
Outcomes
Near-miss indicators
  All live births in the hospital (n)
9136
Severe maternal outcomes
 
  Maternal deaths (n)
32
  Maternal near miss cases (n)
216
  Women with life-threatening conditions (WLTC) (n)
248
Overall near miss indicators
 
Severe maternal outcome ratio (SMOR) (per 1,000 live births)
27.1
Maternal near miss incidence ratio (per 1,000 live births)
23.6
Maternal near miss mortality ratio
6.75
Case fatality rate (%)
12.9%
Hospital access indicators
 
WLTC at hospital arrival (n)
172
Proportion WLTC at arrival among all WLTC (%)
69.4%
Proportion of WLTC at arrival coming from other hospitals (%)
20.9%
WLTC at arrival mortality index (%)
7.6%
Intra hospital care indicators
 
Intra hospital WLTC cases (n)
76
Intra hospital WLTC rate (per 1,000 live births)
8.32
Intra hospital mortality index (%)
5.3%
Live birth (LB): the complete expulsion or extraction from its mother of a product of conception, irrespective of the duration of the pregnancy, which, after such separation, breathes or shows any other evidence of life. Each product of such a birth is considered live born.
Women with life-threatening conditions (WLTC): the sum of maternal near miss and maternal deaths. (WLTC = MNM + MD).
Severe Maternal Outcome Ratio (SMOR): the number of women with life‒threatening conditions per 1,000 live births. [SMOR = (MNM + MD)/LB].
MNM incidence ratio: the number of maternal near miss cases per 1,000 live births. [MNM IR = MNM/LB].
Maternal near miss : mortality ratio: the proportion between maternal near miss cases and maternal deaths. [MNM : 1 MD].
Case fatality Rate: the number of maternal deaths divided by the number of women with life-threatening conditions, expressed as a percentage. [CFR = MD/(MNM + MD)].
WLTC at hospital arrival: the number of women with life‒threatening conditions who are ill on arrival.
Proportion WLTC at arrival among all WLTC: the number of WLTC who are ill on arrival divided by the total number of WLTC.
Proportion of WLTC at arrival coming from other hospitals: the number of WLTC who are ill on arrival and coming from another hospital divided by the total number of WLTC at arrival.
WLTC at arrival mortality index: the maternal deaths within 24 hours after arrival (MD24) divided by the number of women with life-threatening conditions who were ill on arrival, expressed as percentage. [WLTC at arrival MI = MD24/(WLTC at arrival)].
Intra hospital WLTC cases: the number of women with life-threatening conditions who developed these life-threatening conditions in the hospital.
Intra hospital WLTC rate (per 1000 live births): the number of women with life-threatening conditions who developed these life-threatening conditions in the hospital per 1000 live births.
Intra hospital mortality index: the number of maternal deaths who were not ill on arrival, divided by the number of women with life-threatening conditions who were not ill on arrival, expressed as percentage.
Table 4 demonstrates the underlying causes for both groups (MNM and MD) and the associated CFR per underlying cause. The major cause of morbidity and mortality is postpartum haemorrhage, accounting for 27% of all underlying causes, followed by abortion related complications (17%), obstructed labour (12%), ante partum haemorrhage (11%), and hypertensive disorders (9%). Women who got severely ill from an unknown cause had the highest risk of dying with a CFR of 80%, followed by cancer (67%) and non-obstetric infectious diseases (63%).
Table 4
Underlying causes of maternal morbidity and mortality (mutually exclusive, totally inclusive)
  
n (%)
CFR (%)*
Indirect
Anaemia in pregnancy
19 (8%)
0%
 
Infectious disease
11 (4%)
63%
 
Cardiac disease
4 (2%)
50%
 
Cerebral disease
2 (1%)
50%
Direct
Postpartum haemorrhage
67 (27%)
9%
 
Abortion related complication
43 (17%)
7%
 
Ante partum haemorrhage
26 (11%)
8%
 
Hypertensive disorders
21 (9%)
10%
 
Obstructed labour with uterine rupture
15 (6%)
13%
 
Obstructed labour without uterine rupture
15 (6%)
7%
 
Uterine scar rupture without obstructed labour
6 (2%)
0%
 
Puerperal sepsis
9 (4%)
0%
 
Anaesthesia related complication
1 (0.4%)
0%
Co-incidental
Cancer
3 (1%)
67%
 
Trauma
1 (0.4%)
0%
Unknown
Unknown/undetermined cause
5 (2%)
80%
* CFR: case fatality rate, calculated as MD/(MD + MNM).
Process indicators that reflect the use of evidence-based interventions are presented in Table 5. Two hundred one women gave birth in the hospital, and 96 (48%) received oxytocin as part of active management of third stage of labour (AMTSL). Sixty-six women were diagnosed with severe PPH. Forty-one of these women (62%) delivered in the hospital and 25 women (38%) delivered at home or on their way to the hospital. Twenty-eight women (42%) who were diagnosed with severe PPH had received oxytocin routinely after delivery. The number of women that received oxytocin as treatment was higher: 38 (58%). Ten women received ergometrine and/or misoprostol in addition to oxytocin. Fifty-four women (82%) received intravenous volume replacement, whereas 61 women (92%) received blood transfusion. In four women (6%) hysterectomy was performed.
Table 5
Process indicators among women with severe maternal morbidity and mortality
1. Prevention of PPH
n (%)
Target population: women who delivered in hospital
201 (100%)
Oxytocin use for AMTSL
96 (48%)
Other uterotonic use for AMTSL
2 (1%)
All uterotonic use for AMTSL
96 (48%)
2. Treatment of PPH
Target population: women with PPH
66 (100%)
   Delivery in hospital
41 (62%)
   Delivery out hospital
25 (38%)
Oxytocin use (routine)
28 (42%)
Other uterotonic use (routine)
-
All uterotonic use (routine)
28 (42%)
Oxytocin use (treatment)
38 (58%)
Other uterotonic use (treatment)
10 (15%)
All uterotonic use (treatment)
39 (59%)
IV-infusion
54 (82%)
Blood products
61 (92%)
Hysterectomy
4 (6%)
CFR
9%
3. Treatment of eclampsia
Target population: women with eclampsia
15 (100%)
Magnesium sulphate use
13 (87%)
Other anticonvulsant use
10 (67%)
Any anticonvulsant use
14 (93%)
CFR
7%
4. Prevention of caesarean section related infection
Target population: women with caesarean section
74 (100%)
Prophylactic antibiotics
49 (66%)
5. Treatment of sepsis
Target population: women with sepsis
30 (100%)
Parenteral therapeutic antibiotics
28 (93%)
CFR
27%
6. Uterine rupture
Target population: women with uterine rupture
21 (100%)
Occurred in hospital
13 (62%)
Occurred out hospital
8 (38%)
Laparotomy
21 (100%)
CFR
5%
PPH: postpartum haemorrhage, this is defined as the loss of 500 ml of blood or more; AMTSL: active management of third stage of labour; CFR: case fatality rate, calculated as MD/(MD + MNM).
Fifteen women were diagnosed with eclampsia, of which 13 women (87%) received magnesium sulphate. Ten women received diazepam, of which nine also received magnesium sulphate, indicating that 93% women received anticonvulsants.
Seventy-four women underwent a caesarean section, of which 49 (66%) received prophylactic antibiotics. Twelve women (16%) developed sepsis after caesarean section and one woman died. Six of the women (50%) who developed sepsis received prophylactic antibiotics.
Twenty-eight of the women (93%) that were diagnosed with sepsis received parenteral therapeutic antibiotics.
The last process indicator regarding uterine rupture revealed that the majority of the ruptures occurred in-hospital (62%). All women underwent laparotomy, and one woman died. CFR for uterine rupture was 5%.
Of all women with life-threatening conditions, 227 women (92%) had physical examination on arrival. One hundred seventy-two women were ill on arrival and 133 (77%) had blood pressure measured, 124 (72%) had pulse rate taken and of 126 women (73%) temperature was noted. Saturation was measured in only 10 women (6%). Full blood count was taken in 155 (90%) of the women that were ill on arrival.

Discussion

This article presents the results of a prospective cross-sectional study describing the quality of obstetric care in a rural referral hospital in Tanzania using the modified WHO near-miss criteria. It is one of the few studies describing maternal morbidity and mortality in Tanzania [2428].
MMR in this hospital was 350 maternal deaths per 100,000 live births (95% CI 243–488). Country level MMR is around 460 per 100,000 live births [3, 12]. Previous studies in the area revealed MMRs of 362 (95% CI 269–456) and 444 (95% CI 371–517) per 100,000 live births in 1995 and 1996 for household and antenatal clinic surveys, respectively [25]. It is difficult to compare the hospital-based calculated MMR with a population-based MMR because not all women deliver nor die inside the hospital. Most likely hospital-based MMR is an overestimation because 48% of the Tanzanian women deliver at home and 85% of all maternal deaths are identified in-hospital [12, 29]. Having this in mind, our estimation of MMR is relatively low compared to the national MMR, as is underlined by previous research from the area. This may be explained by the free service of the hospital for delivery care and the well-established transport services. Furthermore, although the hospital did not have medical specialists, there were frequent long-term expatriate specialists and visiting specialists from nearby referral hospitals.
A recently published systematic review was conducted that included all studies on maternal near miss from 2004 until 2010 [7]. It revealed that inclusion criteria used to identify maternal near miss varied widely and therefore could not easily be compared. The findings showed MNM prevalence rates that varied from 0.04% to 14.98% depending on the different inclusion criteria that were used. These results were further sub-divided into regions and the findings from 14 studies from Africa showed that there is a near-miss prevalence rate ranging from 0.05% to 14.98%. The near-miss prevalence in HLH of 2.48% lies within the lower range of the studies from Africa that were included in this analysis. From the fourteen studies that were analyzed in the sub-group Africa, seven studies used management specific criteria (emergency hysterectomy or ICU admission) and had relatively low near-miss rates, as they did not include all near misses that were admitted to the hospital.
Although maternal mortality and morbidity ratios are relatively low compared to the rest of the country, quality of care can still be improved as is shown by the process indicators. The improvement lies in the up scaling of evidence-based interventions. As suggested by Campbell et al. “we should get on with what works” in order to reduce maternal mortality [28, 30]. Implementation of evidence-based interventions such as oxytocin use immediately after delivery for prevention of postpartum haemorrhage can be improved in HLH. Only 48% of the women received routine oxytocin immediately after delivery, while WHO recommends this for all women who give birth [31]. WHO also recommends the use of oxytocin for the treatment of PPH [32], however in HLH it was used in 58% of the cases with severe PPH. PPH was the leading cause of maternal morbidity and the second cause for maternal mortality in HLH with a CFR of 9%. Confronting hospital staff with these low numbers of oxytocin use reveals several possible reasons. Not recording the use of oxytocin in the hospital file is the main reason, followed by lack of protocols, shortage of staff, and high staff turnover resulting in less experienced health care workers. Supply of oxytocin to the ward is not considered a constraint. Although there were no official guidelines in HLH available, local policy was to give 10 IU of oxytocin immediately after birth and it was also the first drug of choice for the treatment of PPH. Use of oxytocin for prevention and treatment of PPH should be scaled up to 100% coverage.
Caesarean section seems to be one of the most important risk factors for postpartum maternal infection [33, 34]. Prophylactic antibiotics reduces endometritis and decreases wound infections [35]. At HLH it was used only in 66% of all women who underwent caesarean section. Twelve women (16%) developed sepsis after caesarean section and one woman died. Of the women who developed sepsis, six women (50%) received prophylactic antibiotics. Sepsis accounted for 4% of all maternal morbidities in HLH and the number of women with sepsis after caesarean section may be reduced by this simple precaution. Prophylactic use of antibiotics during caesarean section should be scaled up to 100%.
Use of magnesium sulphate in case of severe pre-eclampsia is recommended as it reduces the risk of eclampsia with 50% and might reduce maternal mortality [36, 37]. Eclampsia is not very common at HLH regarding the incidence of 1.6% per 1,000 deliveries, but it does account for 6% of all women with life-threatening conditions. Case fatality rate for eclampsia was 7%. Nearly 90% of all eclamptic women received magnesium sulphate. Hypertensive disorders are typically detected during antenatal care (ANC) visits. ANC coverage in Tanzania is relatively good: 96% of the pregnant women visit the ANC once and 43% visit the ANC four times or more. Most women visit the antenatal clinic 2–3 times. In Manyara region 68.2% of the women have blood pressure measured during ANC visits [12]. ANC visits are a good opportunity to detect hypertensive disorders, and blood pressure should be measured on every occasion.
The majority of uterine ruptures occurred in-hospital, which reflects serious substandard care. Obstructed labour was prevalent in 12% of all maternal morbidities and mortalities. Uterine rupture is one of the medical emergencies with high maternal and perinatal mortality as is reflected by the maternal CFR of 5% [38, 39]. Other hospital-based studies from low-income countries have reported case fatality rates ranging from 1 to 13% [40]. Audit can be used to reduce the incidence of uterine rupture as is shown in Malawi [41]. Some of the recommendations that were implemented in Malawi after several audit sessions were training of healthcare workers in order to reduce delay in diagnosing obstructed labour and delay in treatment and implementation of local guidelines for augmentation of labour. Increased supervision should lead to improved documentation and labour management.
There were several limitations to this study. First, it is a single-centre and hospital-based study and therefore findings may not reflect the situation in other settings or the population in general. Second, information is gathered from hospital files, therefore data quality depends on the quality of record keeping. We have tried to remedy this by means of conducting prospective data-collection. Third, for the collection of maternal near miss cases we have used modified WHO near miss criteria, as the original WHO near miss criteria were not applicable in the local context. This has to be taken into account when interpreting the results from this study, as there have been more near miss cases collected with the modified criteria, then would have been with the original criteria [21].

Conclusion

The present study shows that, although the hospital-based maternal mortality ratio is quite low compared to the country-level maternal mortality ratio, maternal morbidity and mortality remain challenging problems in a rural referral hospital in Tanzania. The WHO near miss criteria used for identification of near miss cases could not all be applied in this low-resource setting. Therefore the inclusion criteria were modified for use in Haydom. Results show that there is a gap between actual and optimal use of evidence-based interventions in women experiencing severe maternal morbidity and mortality. Improvement in the quality of obstetric care can be made through up scaling the use of evidence-based interventions.

Acknowledgements

The authors wish to thank the management, research assistants Sarah Lyanga and Victoria Bayda, and staff of Haydom Lutheran Hospital for their efforts to make this project happen. This gratitude extends to Erling Svensen, who supervised the project, Øystein Evjen Olsen, who was involved in the early phase of designing the study and Sven Gudmund Hinderaker, who assisted with the analysis of the data and the fine-tuning of the draft. Furthermore we would like to thank the Laerdal Foundation for Acute Medicine, Stavanger, Norway for their financial support. Finally we would like to thank Jacqueline Broerse, professor at the VU University Amsterdam, for her valuable input during the writing of the paper.
This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://​creativecommons.​org/​licenses/​by/​2.​0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Competing interests

EN received a stipend from the Laerdal Foundation for Acute Medicine, Stavanger, Norway. The sponsor of the study had no role in study design, data collection, data analysis, data interpretation, or writing of the report.

Authors’ contributions

EN was involved in the conception and design of the study, carried out the analysis and wrote the first draft of the paper. EM, HLE, BEO, JVR and JS assisted with the conception and design of the study and contributed to the writing of the paper. BEO, JS and JVR also participated in the classification of diagnoses for all MNM and MD cases. All authors read and approved the final draft of the paper.
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Metadaten
Titel
Maternal near miss and mortality in a rural referral hospital in northern Tanzania: a cross-sectional study
verfasst von
Ellen JT Nelissen
Estomih Mduma
Hege L Ersdal
Bjørg Evjen-Olsen
Jos JM van Roosmalen
Jelle Stekelenburg
Publikationsdatum
01.12.2013
Verlag
BioMed Central
Erschienen in
BMC Pregnancy and Childbirth / Ausgabe 1/2013
Elektronische ISSN: 1471-2393
DOI
https://doi.org/10.1186/1471-2393-13-141

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