A profile of Caesarean sections performed at a district hospital in Tshwane, South Africa


A profile of Caesarean sections performed at a district hospital in Tshwane,
South Africa
I Govendera*, C Steyna , O Maphashab and AT Abdulrazaka

aDepartment of Family Medicine and Primary Health Care, Sefako Makgatho Health Sciences University, Pretoria, South Africa
bDepartment of Family Medicine, University of Pretoria, Pretoria, South Africa
*Corresponding author, email: indiran.govender@gmail.com

Introduction: Caesarean section (CS) is a common obstetric procedure that prevents neonatal and maternal death when
performed correctly if indicated; however, CS can give rise to complications that lead to maternal and perinatal morbidity
and mortality. Rates of CS are increasing worldwide, although the World Health Organization (WHO) has indicated an ideal
rate of 5–15%. South African CS rates are higher than the ideal.
Methods: Maternity records of 2015 were reviewed at Odi District Hospital (ODH) to assess whether ODH complies with the ideal
CS rate. In this study, extracted data include date and time of CS, maternal age, parity, gestational age, total number of previous
CSs, elective or emergency, indications, anaesthesia used and registration of the surgeon.
Results: There were 3 336 deliveries and 1 064 CSs (32%). The majority of women were aged from 19 to 34 years (59%), 72.8%
were multiparous and 54% between 37–39 weeks’ gestation. The most common (40.1%) overall and emergency indication was
foetal distress. Most CSs were emergencies (61.70%). Most elective CSs were because of a previous CS and spinal anaesthesia
was used in 91.73%. Medical officers performed most of the CSs (79.0%) during working hours. The CS rate of 32% was
significantly higher than the ideal 5–15% and higher than in other sub-Saharan countries with similar maternal
characteristics. Indications for emergency and elective CSs were similar to previous research.
Conclusion: The Caesarean section rate at ODH is higher than the recommended rate. Potential CSs therefore need to be
evaluated more intensely to assess the true need for surgical intervention.

Keywords: Caesarian section, emergency Caesarian sections, foetal distress, previous caesarian section, cephalo pelvic disproportion

Introduction
A CS is a common obstetric procedure1 performed because of
complications during pregnancy, e.g. pre-eclampsia, eclampsia,
antepartum haemorrhage, intrapartum foetal distress, cephalo-
pelvic disproportion (CPD), malpresentation, prolonged labour
and elective CS for women who had previously undergone the
procedure. It is essential to prevent foetal, neonatal and/or
maternal death.2 CS rates vary worldwide, ranging from approxi-
mately 10% in Sweden to about 80% in private-sector hospitals
in Brazil.1,3 Although the lowest rates of 6.5–7.3% are seen in
Africa,2,4 rates of approximately 30% are reported in regional
and tertiary public hospitals in the Durban Metropolitan area
of South Africa.1,3 CS rates are increasing globally. From 1994
to 2014 the global average increased from 12.4% to 18.6%,
and this upward trend can also be seen in sub-Saharan Africa.2

The question has been raised as to whether there is an ideal CS
rate. The WHO established that CS is an essential procedure in
the management of delivery, and recommended a rate of 5–
15% of all births worldwide, based on the CS rates in countries
with the lowest perinatal mortality and morbidity.2 CS rates
higher than 10% are not associated with a reduction in neonatal
and maternal mortality rates.5 Caesarean section rates vary
depending on a multitude of factors, such as foetal, maternal
and medical complications in pregnancy, and cultural attitudes
towards CS.1,3

In an audit at a South African private hospital the CS rate was
60.4%.1 The most common indications for a CS in this audit
were a previous CS, emergency CS for CPD and elective CS fol-
lowing two or more previous CSs.1 These high CS rates are a

reflection of the trend in South Africa. A CS rate of 65% was
reported in the private sector in South Africa in 2004, almost
double the percentage in the UK and the USA.1,6 It was also
reported that the equivalent South African public sector figure
was estimated to be between 10% and 20%, which was only
marginally higher than that in several leading first-world
public health systems, e.g. Sweden, Finland and Norway.1,6,7 A
major South African medical aid scheme reported a CS rate of
63% of total deliveries performed for its members.1

The national CS rate increased in the public health sector, from
18.1% in 2000/2001 to 24.4% in 2008/2009 with an annual
growth rate of 3.8%.8 Although pregnant women and medical
practitioners regard a CS as effective, quick and harmless,9

data suggests that morbidity and mortality for mother and
foetus/neonate resulting from a CS are higher when compared
with vaginal deliveries.1,9,10 The risks associated with a CS
affect not only the woman, but also her potential child and
future pregnancies, and can include short-term and/or long-
term risks.5

Intraoperative causes of maternal morbidity are haemorrhage
due to extension of tears and lacerations, adherent placenta
and atonic uterus, and injury to adjacent viscera, difficult intuba-
tions and aspiration of gastric contents.11 The most common
postoperative causes of maternal morbidity are anaemia,
urinary tract infections, blood transfusions, prolonged maternal
hospital stay due to prolonged catheterisation, infections requir-
ing antibiotics, wound dehiscence and sepsis. The number of
women requiring a hysterectomy after a CS is four times
higher than for those who deliver vaginally.10,11 In countries

South African Family Practice 2019; 61(6):246–251
https://doi.org/10.1080/20786190.2019.1671655

Open Access article distributed under the terms of the
Creative Commons License [CC BY-NC 4.0]
http://creativecommons.org/licenses/by-nc/4.0

S Afr Fam Pract
ISSN 2078-6190 EISSN 2078-6204

© 2019 The Author(s)

RESEARCH

South African Family Practice is co-published by NISC (Pty) Ltd, Medpharm Publications, and Informa UK Limited
(trading as the Taylor & Francis Group)

http://orcid.org/0000-0001-6062-8981
http://orcid.org/0000-0002-8735-8982
mailto:indiran.govender@gmail.com
http://crossmark.crossref.org/dialog/?doi=10.1080/20786190.2019.1671655&domain=pdf&date_stamp=2019-10-29
http://creativecommons.org/licenses/by-nc/4.0


such as Saudi Arabia where large families are encouraged by
social and cultural factors, it is not uncommon for women to
have as many as six or seven CSs. This high number can lead
to uterine scar rupture with significant maternal and foetal mor-
bidity and even mortality. There is, however, no clear evidence
to inform clinicians on the number of CSs a woman can safely
undergo.12

Emergency CSs have shown a rise in severe neonatal morbidity,
and an increase in the number of fresh stillbirths and neonatal
deaths. Pre-eclampsia is a significant risk factor for maternal
death and morbidity.13 In sub-Saharan Africa, the highest rates
of neonatal morbidity and mortality have been seen in elective
CSs,10 and are associated with greater risk of neonatal respirat-
ory morbidity and foetal lacerations.14 Elective and emergency
CSs, however, have reduced the risk of intrapartum foetal
death with breech presentations as compared with vaginal
delivery.10 It seems that poor surgical techniques by junior
doctors might also play a role in the CS-associated morbidity
and mortality.11

At ODH, Pretoria, the theatre and maternity records indicate that
the CS rate at the hospital is increasing. As a result, a retrospec-
tive record review was conducted to assess whether ODH com-
plies with the suggested 15% by the WHO. We also investigated
the characteristics of women undergoing CS and the indications
for CS.

Methods

Study design
A retrospective record review of CSs at ODH was done.

Study population and sample
All CSs performed from January 1, 2015 to December 31, 2015
were retrospectively reviewed from records kept at the ODH
maternity unit.

Study setting
ODH is located in Mabopane, a town close to the border of North
West province and 45 km north of Tshwane in Gauteng Province.
ODH is a 227-bed hospital that includes a labour ward, post-
natal ward and theatre facilities. CSs are performed by family
medicine registrars, medical officers (full-time and sessional
doctors), and doctors doing their year of community service

post-internship. Labour ward and theatre staff record every
delivery.

Data collection
Data were collected from the records kept in the labour ward
and theatre. The following data were collected: date and time
of the CS; maternal age; parity; gestational age in weeks;
number of previous CSs; whether the CS was elective or emer-
gency surgery; indication for the CS; whether general or spinal
anaesthesia was used; and surgeon’s registration (specialist,
registrar, medical officer or community service doctor).

Data analysis
Data was recorded on an Excel spreadsheet (Microsoft Corp,
Redmond, WA, USA) and analysed using descriptive statistics.
The SPSS statistical software package (version 25; IBM Corp,
Armonk, NY, USA) was used to analyse data. Univariate analysis
of socio-demographic variables was done. Bivariate analysis was
used to determine whether any associations existed between
the variables. Data were verified by two researchers who col-
lected identical data independently. An independent data cap-
turer recoded the data onto an Excel spreadsheet; thereafter a
statistician analysed the data.

The inclusion of all records for a 12-month period reduced pro-
blems of seasonal variation and theatre inactivity for a few
weeks.

Ethical considerations
The Sefako Makgatho University Research Ethics Committee
(SMUREC) provided ethical clearance for the research project,
clearance number SMUREC/M/303/2016:IR. Permission to
conduct the study was obtained from the Odi District Hospital
management. Permission and ethical clearance was obtained
from the Tshwane Research and Ethics Committee (TREC),
project number 54/2016.

Results
There were 3 332 deliveries and 1 064 CSs (32%) at ODH from
January to December 2015 and the monthly breakdown is
shown in Figure 1.

Maternal characteristics
The majority of the women were between 19 and 34 years (59%)
of age and the majority were multiparous as indicated in Table 1.

Figure 1: Monthly deliveries in 2015.

A profile of Caesarean sections performed 247



Indications for CS
The most common indication for CS was foetal distress (40.1%),
which also accounts for most of the emergency CSs performed
during the period of our study. One previous CS plus other
factors such as having a fresh CS scar, an estimated big baby
or poor progress of labour were the reasons for most of the elec-
tive CSs as indicated in Table 2.

Surgical procedures
The majority of CSs were performed as emergency procedures
(61.70%) and spinal anaesthesia (91.73%) was the mode of
anaesthesia for most of these. Medical officers performed
most of the CSs (840, 79.0%) and most were done during
working hours as evident in Table 3.

Maternal and neonatal complications
The most significant recorded complication was the admission
of 3.4% of neonates for morbidity reasons. Details of the morbid-
ity were not recorded. Maternal complications were minimal,
with post-partum haemorrhage as the most significant recorded
maternal complication, as seen in Table 4.

Discussion
Our study shows CS rates of 32% during 2015. This is higher than
those seen in other sub-Saharan countries, and is significantly
higher than the suggested 5–15% of the WHO. The WHO
stated that ‘every effort should be made to provide Caesarean
sections to women in need, rather than striving to achieve a
specific rate’.5 However, current CS rates worldwide also
remain higher than those considered to be medically justifiable.7

According to data from 150 countries worldwide, 18.6% of all
births occur by CS, ranging from 6% in the least developed
areas to 27.2% in the most developed regions.7 In Latin
America and the Caribbean CS rates are at 40.5%, the highest
in the world, with Africa at 7.3% the lowest. Even though the
rates in Africa are low, an increase of 4.5% has been seen
since 1990, while worldwide over the same period the increase
was 12.4%.7

A study done in Pakistan showed a CS rate of 45.5%,15 and in
south-western China the rate was 40.3%.16 In China the
medical system is strongly influenced by patient preference, in
contrast to practices in developed countries. In addition, at the
time of our research (2015) China had a one-child policy,
which placed healthcare providers there under threat should
obstetric outcomes be unsatisfactory16

Table 1: Maternal characteristics

Maternal characteristic No. %

Age (years):

< 18 193 18.1

19–34 617 58.0

> 35 254 23.9

Parity:

Nulliparous 289 27.2

Multiparous 775 72.8

Gestational age (weeks):

< 27 2 0.2

27–33 89 8.4

34–36 170 16.0

37–39 578 54.3

> 39 225 21.2`

Co-morbidities:

HIV/AIDS 71 6.7

HIV/AIDS on ARV 67 6.3

Hypertension 64 6.0

Diabetes mellitus 7 0.7

Anaemia 6 0.6

Table 3: Surgical procedure

Variable No. %

Type:

Emergency 654 61.5

Elective 410 38.5

Mode of anaesthesia:

Spinal anaesthesia 976 91.7

General anaesthesia 88 8.3

Surgeon’s level of experience:

Community service doctor (4) 65 6.1

Medical officers (35 including sessional doctors) 840 79.0

Family medicine registrars (15) 159 15.0

Time of surgery:

During working hrs (8:00 am–4:00 pm) 789 74.1

After hrs (4:00 pm–8:00 am), weekends, public holidays 275 25.9

Table 4: Maternal and neonatal complications post CS

Maternal complications No. %

Septic wound 1 0.1

Wound dehiscence 2 0.2

Post-partum haemorrhage 4 0.4

Neonatal complications No. %

Stillbirth 1 0.1

Neonate transferred to tertiary care (indication not
recorded)

1 0.1

Neonate admitted for morbidity 36 3.4

Table 2: Indications for CS in 2015

Emergency
CS Elective CS

Indications No. % No. %

Foetal distress/compromise 427 40.1 0 0

Cephalo-pelvic disproportion (CPD) 101 9.5 0 0

One previous CS + other factors (e.g.
fresh scar, big baby, poor progress)

48 4.5 106 9.9

Failed induction of labour 23 2.2 0 0

Multiple gestations 18 1.7 42 3.9

Malpresentation 17 1.6 59 5.5

Maternal chronic conditions: 12 1.1 35 3.3

Hypertension

HIV/AIDS

Diabetes mellitus

Anaemia

Macrosomia 8 0.8 28 2.6

Two or more previous CS 0 0 95 8.9

Post dates 0 0 45 4.2

Total CS (1 064) 654 61.5 410 38.5

248 South African Family Practice 2019; 61(6):246–251



In sub-Saharan Africa CS figures remained mainly unchanged
from 1990 to 2014.7 It was also seen that target CS rates were
met in sub-Saharan Africa between 2010 and 2011.17 Although
lower rates of CS are desirable, this lack of increase could also
indicate a lack of resources and health system deficiencies in
these countries; it could also indicate a poor quality of care in
this region.7

The vast majority of women in our study were between 19 and
34 years of age, in general reflecting the international trend with
the exception of Nigeria. In Nigeria more women aged from 35
to 45 years had CSs, as compared with women aged 25–34 and
17–24,18 whereas in Cameroon, the mean age of the mothers
was 26.4 ± 5.5 years.19 In Mozambique the age group that under-
went most CSs was between 20 and 25 years.20

In our study 54% of women were between 37 and 39 weeks’ ges-
tation, and 21% were more than 39 weeks. In private practice in
South Africa, the mean gestational age for elective and emer-
gency CS was 38 weeks.1 In Cameroon 90% of CSs were per-
formed at term,19 and in Saudi Arabia the gestational age at
CS delivery was between 37 and 39 weeks.12 In sub-Saharan
Africa one third of elective CSs were done at a gestational age
of less than 39 weeks.2 The probability of antepartum stillbirth
with an elective CS has been calculated at 0.08% at 38 weeks’
gestation, and this figure increases to 0.34% at 41 weeks’ ges-
tation.14 Infants delivered by pre-labour CS between 37 and 42
weeks gestational age were nearly seven times more likely to
develop respiratory morbidity than infants who were delivered
vaginally. The rate of respiratory morbidity, however, decreases
by 40 weeks’ gestational age with elective CS delivery. To mini-
mise potential neonatal risks with an elective CS, this procedure
should not be performed prior to a 39-week gestational age.14

Our study shows that 1% of women who underwent emergency
CS, 3% of whom had elective CS, had an underlying medical con-
dition as the reason for the CS (Table 2). In this study, a maternal
condition was not one of the five greatest indications for either
emergency or elective CS. Diabetes mellitus, HIV/AIDS, hyperten-
sion and anaemia were the conditions noted in our research.

With a national estimated prevalence of 12.2%, HIV represents
the primary burden of disease in South Africa. The annual inci-
dence among people of child-bearing age between 15 and 49
years is estimated at 1.9%, and 2.3% among people between
15 and 24 years of age.21 However, progress has been made
in the prevention of mother-to-child transmission of HIV
(PMTCT) with transmission rates as low as 2.7% in 2011. HIV
testing of pregnant women is close to 100% at almost all facili-
ties in South Africa.22 In our study 6.7% of the women who
requested CS were tested HIV-positive as seen in Table 1, a
figure that is almost half the national estimated prevalence,
and 94% of those women were on anti-retroviral therapy
(ART). These results could indicate the fact that an HIV-positive
status is not per se an indication for CS at ODH. On the other
hand, it does indicate that the test-and-treat policy for ART is
not followed strictly for all pregnant HIV patients, due to the
fact that not all HIV-positive women were on ART. In specialist
private practice in South Africa, 80% of HIV-positive patients
have an elective CS, while 20% have an emergency CS due
to their positive status.1 The motivation for this decision
could be that mother-to-child transmission of HIV is reduced
with a CS as compared with a normal delivery, but this is deba-
table in patients with viral loads that are lower than detectable
limits.1

Hypertension was present in 6% of women who underwent CS
at ODH as seen in Table 1, but was the reason for CS in a few
of the patients. A hypertensive disorder is not only the cause
of significant maternal and perinatal morbidity, but is also one
of the most common direct causes of maternal mortality. Hyper-
tensive disorders include chronic hypertension, pre-eclampsia,
eclampsia and haemolysis, elevated liver enzymes, and low
platelet count (HELLP) syndrome. A district hospital should be
able to manage women with gestational hypertension, as well
as women with mild to moderate pre-eclampsia. Patients with
acute severe hypertension, severe pre-eclampsia, imminent
eclampsia or eclampsia should, however, be stabilised at the dis-
trict hospital, and then be referred to a specialist centre.23 In sub-
Saharan Africa pre-eclampsia and eclampsia have been given as
indication for CS in 2.4% of patients.17 These findings are sup-
ported by studies in Pakistan and India, where eclampsia was
the indication for 2.09% and 5% respectively. No other hyperten-
sive disorders were mentioned in either of these studies.11,15

Only 0.7% of patients in this study had co-morbid diabetes mel-
litus, and 0.6% had anaemia. Pregnant women with diabetes
mellitus should be referred to specialist health facilities.
Follow-up care may be continued at a district hospital in accord-
ance with instructions from the specialist facility.23 This arrange-
ment could account for the low number of pregnant patients
with diabetes mellitus who underwent CS at ODH.

Anaemia in pregnancy is due mostly to an iron deficiency. Only
0.6% of the women in this study had co-morbid anaemia, as pre-
sented in Table 1. Multiple factors can contribute to iron
deficiency in pregnancy, such as poor diet and parasitic infesta-
tions, e.g. schistosomiasis and hookworm. Iron deficiency can be
pre-existing, or can occur for the first time due to increased iron
demands in pregnancy. Other causes of anaemia in pregnancy
include folate deficiency and anaemia of chronic disease such
as HIV/AIDS. Malaria is an important cause of anaemia during
pregnancy in malarial areas.23 In a study done in India 4% of
the women had anaemia,24 and in Nigeria 8% of CS patients
were anaemic.18 No further details on the cause of the
anaemia are provided in either of the studies, or in the ODH
study.

Almost 73% of women in our study were parous. In Pakistan,
62.3% of women who requested CS were parous.15 These
results are confirmed in African studies where only 7.8% of pri-
migravidas in Nigeria underwent CS18 while in Mozambique
mostly parous women underwent CS.20 These figures confirm
the high CS rates in women who underwent previous CSs.

Emergency CSs comprised 61.5% of the total CSs performed in
our study, with the balance (38.5%) being elective procedures.
In this study the five most important indications for emergency
CS were foetal distress, CPD, one previous CS with other reasons,
multiple gestations and malpresentation. The indications for
elective CS were one previous CS, two or more previous CS, mal-
presentation, post-dates and multiple gestations. In sub-Saharan
Africa 75–96% of CSs are reported as emergency procedures,
mostly due to seven maternal complications: obstructed
labour; prolonged labour; poor presentation; previous CS;
foetal distress; uterine rupture; and antepartum haemorrhage
(abruptio placenta and placenta praevia).4,17 Foetal distress
was the most significant foetal reason for an emergency CS.17

A multicentre prospective study done in Latin America
showed 41.5% elective CSs.10 In South Kerala, India, 88.7% of
CSs were emergency procedures, with 11.3% being electives.24

A profile of Caesarean sections performed 249



In Pakistan the biggest indication for CS was a previous CS, and
51.5% of CSs in this country were emergencies.15 In Cameroon
12%, and in the UK 7.3% of CSs were elective procedures
done on maternal request.19,24 The balance of the Cameroonian
CSs (18%) were emergency procedures.19 In countries like
Nigeria, where the CS rate was as low as 7.2% in one study,
the vast majority of the procedures were emergencies. Factors
that play a role here are poor infrastructure and cultural prefer-
ences that prevent women from opting for an elective CS.18

When a woman undergoes an emergency CS the major
threats are complications of anaesthesia and surgery, while pro-
cedures are often performed in deficient circumstances. During
elective CS the mother is prepared preoperatively, and the
theatre and staff are adequately prepared. Maternal and foetal
complications are therefore more common during emergency
CS.11 Factors that lead to maternal death during CS were
parity > 6, uterine rupture, antepartum haemorrhage, and pre-
eclampsia/eclampsia.17 On the other hand, cord prolapse, ante-
partum haemorrhage and uterine rupture were the leading
causes of early neonatal death.17

Spinal anaesthesia was given in 91.7% of the CSs in our study, as
compared with 8.3% given general anaesthesia. In a WHO survey
on maternal and perinatal health in Africa, epidural anaesthesia
was given to 0.1% of the women, without any mention of spinal
or general anaesthesia.13 In an audit of CSs done in Pakistan,
spinal anaesthesia was given to all women included in the
audit (n = 3 555) over a six-month period.15 It has been reported
that the mortality rate of CSs done under general anaesthesia is
16.7% higher than with regional anaesthesia. Persistent wound
pain is less with regional anaesthesia, and anaesthesia-related
problems, e.g. airway management, prolonged periods of preo-
perative fasting and effects of anaesthetic agents on the foetus
are lessened when utilising spinal anaesthesia in obstetric
surgery.25

Family medicine registrars performed 15% of the CSs in this
study, whereas 79% were done by medical officers and 6% by
community service doctors. Very little information is available
on the amount of training that is required to develop proficiency
in performing a skilful CS. In many communities, family phys-
icians are the major providers of perinatal care, including CSs,
and the need for family physicians with the ability to perform
CS is on the increase. It has been shown that family physicians
in rural areas provide high-quality CS, and the outcomes of
the CS performed by family physicians are similar to those
done by obstetricians, but with lower rates of CS. Yet whether
these results could be extrapolated to family physicians in train-
ing is not known.26 However, many countries in sub-Saharan
Africa face a critical shortage of healthcare workers and special-
ists, especially in rural areas. This necessitates medical officers
performing a large number of CSs in this region. The indications
for CS performed by medical officers are similar to those per-
formed elsewhere in the world, i.e. CPD, previous CS, foetal dis-
tress, etc.27 It is possible that a lack of surgical skills on the part of
medical officers and junior doctors contributes to maternal and
neonatal morbidity and mortality post-CS.11

Worldwide normal vaginal deliveries occur around the clock and
on all days of the week, but it should be noted that few CSs are
performed after hours or over weekends.6,28 Our study supports
this finding, with 74.1% of the procedures performed during
working hours, and only 25.9% done after hours. This is
despite the fact that 61.5% of the CSs are reported as emergency
procedures. A study done in Brazil indicates that more CSs were

done on Tuesdays and Wednesdays, and fewer than expected
births occurred over weekends. This is in contrast to vaginal
births that did not vary according to the day of week.28 The
pattern regarding time of day was also similar in this study,
where the number of CS deliveries between midnight and
6:00 am was less than a quarter of those done between noon
and 6:00 pm. There was also a significant reduction in the
number of CSs performed during lunchtime.28

Limitations
This record review was done at ODH. The rate of CSs in this insti-
tution might not be a true reflection of the overall rate in the dis-
trict. This descriptive study does not provide information of why
the CS rate is high at this district hospital.

Conclusion
The CS rate at ODH is higher than the 5–15% recommended by
the WHO. The majority of women who underwent CS were
parous women between 19 and 34 years of age, with a gesta-
tional age of 37–39 weeks. The majority (61.5%) of the CSs per-
formed were emergencies, and the five most important
indications for emergency CS were foetal distress, CPD, one pre-
vious CS with other reasons, multiple gestations and malpresen-
tation. Spinal anaesthesia was given in more than 90% of CS
cases, and although medical officers performed most of the pro-
cedures, family medicine registrars may be better equipped to
do so. Most CSs were performed during office hours, which
could raise the question as to whether emergency CSs are
over-diagnosed.

Recommendations
The indications for CS found in this study seem to be appropriate
according to the literature discussed. A potential CS therefore
should be evaluated more intensely to assess the true need
for surgical intervention. Evaluation could aid in reducing the
number of CSs done at ODH to the 10% recommended by the
WHO. This would be in the interests of maternal and neonatal
well-being.

Acknowledgements – Mr Stevens Kgoebane assisted with the
statistical analysis.

Disclosure statement – No potential conflict of interest was
reported by the authors.

ORCID
C Steyn http://orcid.org/0000-0001-6062-8981
AT Abdulrazak http://orcid.org/0000-0002-8735-8982

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Received: 31-07-2019 Accepted: 20-09-2019

A profile of Caesarean sections performed 251

http://www.wiredspace.wits.ac.za
http://www.wiredspace.wits.ac.za
https://doi.org/10.1136/bmj.39363.706956.55
https://doi.org/10.1136/bmj.39363.706956.55
https://doi.org/10.1016/j.ijgo.2009.08.013
https://doi.org/10.1016/j.ijgo.2009.08.013
https://doi.org/10.1371/journal.pone.0044484
https://doi.org/10.1371/journal.pone.0174369
https://doi.org/10.1007/s00540-015-2099-4
https://doi.org/10.1007/s00540-015-2099-4

	Abstract
	Introduction
	Methods
	Study design
	Study population and sample
	Study setting
	Data collection
	Data analysis
	Ethical considerations

	Results
	Maternal characteristics
	Indications for CS
	Surgical procedures
	Maternal and neonatal complications

	Discussion
	Limitations
	Conclusion
	Recommendations
	Acknowledgements
	Disclosure statement
	ORCID
	References
















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