When a caesarean section is necessary: Analysis of cesarean sections performed in the Republic of Turkey in 2022 in accordance with the World Health Organization Multi-Country Research Guidelines
PDF
Cite
Share
Request
Clinical Investigation
P: 184-190
September 2023

When a caesarean section is necessary: Analysis of cesarean sections performed in the Republic of Turkey in 2022 in accordance with the World Health Organization Multi-Country Research Guidelines

Turk J Obstet Gynecol 2023;20(3):184-190
1. Health Ministry of Turkey, Ankara, Turkey
2. University of Health Sciences Turkey, Vocational School of Health, İstanbul, Turkey
No information available.
No information available
Received Date: 13.07.2023
Accepted Date: 17.07.2023
Publish Date: 04.09.2023
PDF
Cite
Share
Request

ABSTRACT

Objective:

The aim of our study, in light of the World Health Organization Multi-Country Survey (WHO-MCS) data examining the data of the Ministry of Health for the year 2022, comparing the cesarean sections (C/S) performed in the Republic of Turkey (TR) with the WHO-MCS data, and comparing the number of cesarean sections applied more than the reference values.

Materials and Methods:

According to the database of the Turkish Ministry of Health, in 2022, 1166175 deliveries took place in the Republic of Turkey, and 706370 (60.5%) cesarean section deliveries were recorded as 365764 (51%) primary C/S. Using the Ministry of Health registration system based on the Robson classification.

Results:

The number and rate of C/S operations performed per birth in 2022 in TR (n=706370; 60.50%) were found to be significantly higher when compared to the number and rate of C/S on a global scale (n=246062; 21.10%), (p<0.001). When cesarean section operations performed in the Ministry of Health hospitals, private institutions, foundation universities, public universities and other public unit hospitals were compared with WHO MCS reference values and C/S ratios, 44.2% versus 24.7% (p=0.05), versus 77.4%, versus 34.2% (p<0.001), 74.3% versus 29.5% (p<0.001), 75% versus 35.8% (p<0.001), 69.3% versus 35.9% (p<0.001).

Conclusion:

The amount of cesarean sections performed according to the total number of births in the Turkish Republic is relatively high and its cost nearly 1 billion 750 million TL.

PRECIS: In this article, caesarean section rates in Turkey are compared with international Robson standards. Accordingly, statistical tests of the rates in Turkey were performed. According to these results, some inferences have been made in the light of the striking statistics.

Introduction

In recent years, there has been a significant increase in cesarean section delivery (C/S) practices in many countries worldwide. Not applying cesarean delivery when necessary or applying it unnecessarily brings with it many problems(1). The Robson Classification System is a universal reference for evaluating and tracking cesarean section rates in healthcare facilities. This reference system is accepted by the International Federation of Gynecology and Obstetrics and the European Board of Obstetrics and Gynecology. The World Health Organization has developed a global reference for C/S ratios from the Multi-Country Survey (WHO-MCS) C-Model(1,2,3). In this classification system, a 50% C/S ratio is accepted as the threshold value, and Robson groups are formed by maternal obstetric clinical evaluation. The Robson classification is a perinatal classification that covers all delivery methods consisting of 10 subgroups(4). The advantages of the Robson test are that it is reproducible, simple, clearly articulated, and prospective.

Cesarean delivery has many risk factors in terms of anesthesia and gynecology compared with vaginal delivery(5). Complications that may develop due to cesarean delivery and anesthesia may cause severe consequences for the mother and the baby(6,7,8). The economic cost of a standard C/S operation exponentially creates a considerable burden on the country’s economy in the event of an unexpected complication.

Our study, using the Turkish Ministry of Health data for the year 2022, is planned to examine the C/S application according to the months during the year, the provinces throughout the country, the Robson classification, and between hospitals. We aim to detect off-label cesarean section operations in our country. The aim of calculating the economic cost of off-label C/S operations is to show the negative effects it creates on the effective functioning of health services in seizure conditions and the workload of the anesthesiology department doctors.

Materials and Methods

The Turkish Ministry of Health has started to record birth analysis in the country with the registration system established in 2012. In line with family planning and demographic analysis, an electronic registration system was initiated in 2014. All health units and institutions providing obstetrics and gynecology services upload patient data to the automation system with an electronic signature. These data, including obstetric evaluation, Robson classification, and birth information, are then transferred to the automation system of the Ministry of Health. The Robson-10 group classification comprises 10 evidence-based, comprehensive, mutually exclusive subgroups. The obstetric evaluation criteria used were parity, gestational age, previous cesarean section, fetal presentationlabor onset, and the number of fetuses. This study was initiated after the necessary approvals were obtained with the decision of the Ministry of Health dated 05.29.2023 with the numbers E-76244415-000-216532095. According to the Turkish Ministry of Health database, 1166175 deliveries occurred in Turkey in 2022, and 706370 (60.5%) cesarean deliveries were examined. Hospitals where cesarean delivery was performed were recorded as Ministry of Health hospitals, university hospitals, foundation university hospitals, private hospitals, and other health-related public institutions.

Results

When the data were analyzed, 1166175 births were recorded nationwide in 2022. The rate of cesarean section performed in labor was 60.5% (n=706370). 2022 Turkey total Caesarean section numberdistribution rates in Ministry of Health, private institutions, foundation universities, state universities and other public unit hospitals are rates 36.69%, 54.89%, 1.91%, 6.23% and 0.28%, (total 100%) respectively (Figure 1). The number and rate of C/S operations per birth in the Republic of Turkey (n=706370; 60.50%) were found to be significantly higher when compared to the global number and rate of C/S (n=246062; 21.10%) (p<0.001).

Figure 1

On a global scale, when C/S ratios calculated with reference values are compared between hospitals, cesarean delivery was mainly performed in private hospitals; C/S delivery rates performed in private hospitals in Turkey were statistically significantly higher than reference values (77.4% versus 34.2%; p<0.001). Similarly, in university hospitals (75% versus 35.8%; p<0.001), foundation university hospitals (74.3% versus 29.5%; p<0.001), Ministry of Health hospitals (44.2% versus statistical results were found to be significantly higher in 24.7%; p=0.05) and other public units (69.3% versus 35.9%; p<0.001) (Figure 2).

Figure 2

A statistically significant difference was observed when non-reference cesarean delivery rates were compared between hospitals (p=0.001) (Table 1). The rate of non-reference cesarean section was statistically the least determined in the hospitals of the Ministry of Health (19.5%). There was no statistically significant difference in non-reference cesarean section rates between private hospitals, state universities, and foundation university hospitals (p=0.750).

Table 1

When labor rates were analyzed between Robson subgroups and hospitals, the highest rates of labor in Robson-2, 3, 4, 5, and 10 groups were in the Ministry of Health hospitals, respectively, with a rate of 48.9%, 72.4%, 60.2%, 47.3%, and 50.8%. In private hospitalslabor occurred at rates of 55.7%, 70.9%, 60.2%, 50.7%, and 67.2% in Robson-1, 6, 7, 8, and 9 groups, respectively. Table 2 shows the values of total births by hospitals according to Robson classes.

Table 2

C/S ratios performed in Robson groups compared with reference values (Table 3), Group 6 (99.8% versus 97.6%, p=0.155), Group 7 (98.4% versus 95.5%, p=0.254), respectively and Group 9 (98.2% vs. 95.7%, p=0.407), there was no statistically significant difference. When reference values and actual C/S ratios in other groups are compared, respectively, Group 1 (9.4% versus 59.6%; p<0.001), Group 2 (31.3% versus 54.3%; p=0.001), Group 3 (1.6% versus 15.8%; p<0.001), Group 4 (11.1% versus 22.3%; p=0.036), Group 5 (61.2% versus 98.4%; p<0.001), Group 8 (54.0 versus 94.4%; p<0.001) and there was a statistically significant difference in Group 10 (29.7% versus 68.8%; p<0.001).

Table 3

When cesarean deliveries were analyzed by months in 2022, C/S deliveries were significantly higher in each month compared to reference values (p<0.001) (Table 4). There was no statistically significant difference between the months.

Table 4

When the data were analyzed among the provinces, the three provinces with the highest number of C/S births were Karabük, Kırklareli, and Zonguldak. The C/S ratios of these provinces against reference values were statistically significantly higher (p<0.05) (Table 5). Şırnak, Ardahan, and Kilis were determined as the three provinces where the cesarean section was the least. There was no statistically significant difference between the C/S ratios of these provinces against reference values (p=0.067, p=0.115, p=0.098) (Table 5). When the first three big cities of Turkey (Ankara, Istanbul, Izmir) were examined, the cesarean section rates were statistically higher than the reference values (p<0.05) (Table 5).

Table 5

Discussion

Worldwide, between 1990 and 2018, C/S applications increased by 19%. This rate has increased by more than 50% in TR. Although the latest data show that C/S implementation is 21% worldwide, this rate is predicted to approach 30% between 2021 and 2030(9). According to the Organization for Economic Co-operation and Development (OECD) 2020 data, TR has the highest rate after Mexico (58%), with a C/S rate of 57% (573/1000 live births)(10). In our study, data for 2022 show that C/S application is 60.5% in TR. In the study of Molina et al.(11), the optimum C/S ratio was reported as 19% in terms of maternal and neonatal mortality, and the WHO recommendation is 10-15% in some countries where perinatal mortality is below 10%. The results of our study clearly show that cesarean section rates in TR were found to be remarkably higher than the reference values.

C/S indication is an approach that needs special attention to prevent maternal and perinatal mortality(4). In a 2015 study covering 169 countries, it was determined that approximately 29.7 million pregnant women had cesarean sections. This shows that cesarean delivery has increased exponentially in the last 20 years(4). Indications for cesarean section include maternal pelvic deformity, eclampsia and HELLP syndrome, fetal stress, cord prolapse, placenta previa, uterine rupture, previous cesarean delivery history, prolonged delivery, fetal presentation, and major antepartum hemorrhage(3,4,5,6,7,8,9,10,11,12,13). Studies in the literature also show that cesarean section operations performed within indications are lifesaving. Surgical complications of cesarean delivery include; postpartum infection (surgical area), hemorrhage and blood product transfusion, hysterectomy, prolongation of hospital and intensive care unit length of stay, maternal mortality, neonatal respiratory complications, and fetal mortality can be listed(14,15,16). Long-term complications such as abnormal adherent placenta, uterine rupture, and adhesions may also be seen(17). In Canada, 308755 C/S applications were examined, and it was stated that although the risk of uterine rupture is higher in vaginal delivery, maternal mortality may increase with C/S application(18). In C/S, it was stated that the applications performed within the indication can reduce maternal mortality and morbidity by 1% to 5%(19). In the study conducted in Ireland, cesarean section and vaginal delivery were compared; although the number of maternal mortality was higher in cesarean section, no statistically significant difference was found(20). Inference from these studies shows that maternal mortality in cesarean delivery can be associated with nonsurgical practices. Cesarean section delivery also brings with it complications of anaesthesiaanesthesia Among the complications of anesthesia application; are failed intubation, failed regional anesthesia, high-level anesthesia, headache, chemical meningitis, epidural hematoma, and extradural abscess(21). C/S indications under general anesthesia are hematological neurological, infectious, congestive heart failure, severe preeclampsia, local anesthesia allergy, spinal cord arteriovenous malformation, placenta areata and fetal factors(22). In the study of Bloom et al.(21), in which 37142 cesarean deliveries were examined, neonatal complications were compared with the type of anesthesia applied, and low Apgar score and umbilical artery pH values were found. These complications were primarily associated with cesarean indication, gestational age, and emergency cesarean section. One maternal death recorded in the study was directly related to anaesthesiaanesthesia In C/S, more studies are needed on intensive care and prolonged hospitalizations due to anaesthesia/surgical application. These studies show that especially off-label cesarean section practices pose severe risks in terms of fetal and maternal aspects. As seen in our study, off-label cesarean section rates were high in TR. We think that more stringent measures should be taken in this regard. More studies are needed on the complications of off-label C/S operations.

C/S application is applied in line with clinical and nonclinical evaluations(23). Studies show that nonclinical factors play an essential role in the decision of off-label C/S operations(23). These factors include sociocultural situations, economic factors, the health systemmalpractise and fear of professional lawsuits caused by complications(24). In particular, obstetricianshaving to deal with lawsuits and forensic investigations is a critically important etiology(3). The WHO 2020 reports made recommendations to prevent C/S application with nonclinical indications(25). This recommendation and the points to be considered are the dissemination of vaginal birth training, effective application of relaxation techniques such as deep breathing under the control of midwives and nurses, including couples in a psychosocial program, and psychological rehabilitation of pregnant women against the fear of pain(23). We think that there is a need for detailed studies in TR on these issues as well.

In our study, dystocia with cephalic presentation may increase the risk of cesarean delivery, especially in groups 1 and 2 with nulliparity in Robson Group 1-2-3-4-5-8-10, which exceeded the reference values. In Robson Group 6-7-9, the actual C/S action was calculated below the reference values. Robson Group-1 represents the least risky pregnant women, and the hospitals most applied to are private hospitals, with a rate of 55.7%. In 2022, C/S was applied to 387600 pregnant women out of 500800 applications for labor in private hospitals. Sociocultural factors and psychosocial conditions of pregnant individuals may have provided this orientation. In Robson Group 10 consisting of preterm actions, 50.8% of the pregnant women applied to the hospitals of the Ministry of Health. In addition, clinical evaluations and classifications should not put psychosocial factors into the background(26,27). According to the results of our study, the rate of cesarean section is very high in the Robson group 1 and 2 pregnant groups, which is the most preventable cesarean section group, compared to the reference values throughout the country, and we think that private hospitals serving in Turkey should be informed and investigated on this issue.

C/S operations constitute a significant part of surgical operations performed under emergency conditions. According to the 2022 TR Ministry of Health data, 209,623 (41%) of 502,692 out-of-hours/emergency operation reports were recorded as emergency SCs. In the Health Implementation Communiqué (SUT) decree, the cost of SC operations in 2022 is stated as 3,692 Turkish liras per birth(28). In our study, while the World Health Organization reference value was n=246062 (21.1%) in 2022, n=460308 (difference 39.4%) cesarean delivery difference was calculated in the TR. When the cost is calculated, 1 billion 750 million Turkish Liras burdens the country’s economy due to preventable cesarean section practices. The current assessment was performed without considering the complications and additional costs incurred. The report prepared by WHO emphasized that off-label C/S applications should be considered, especially in middle and low-income regions, in terms of consumption of country resources(29). Cesarean section operation is performed by an efficient team of anesthesiology and reanimation and gynecology and obstetrics units. It should not be forgotten that the process directly concerns many units and allied health teams within the health institution. Moreover, C/S applied off-label negatively affects the working motivation of the anesthesia and surgical teams.

Conclusion

Statistical studies show that the C/S ratio will approach 30% worldwide in 2030. In 2022, this rate was 60.5% in TR. If preventable C/Ss were implemented, 1 billion 750 million Turkish liras could only be brought into the country’s economy in 2022.

The Robson classification in C/S application is the accepted reference guide today. The fact that nonclinical factors do not constitute an indication for C/S operation is an issue that requires effort. Off-label C/S adversely affects the motivation of anesthesia and obstetrics units and makes the mother and newborn vulnerable to many complications.

Statistical Analysis

The inspected and recorded data in the study were analyzed using the IBM SPSS 20.0 (Chicago, IL, USA) statistical program. Data are presented as n (number) and percentage (%). The chi-square test was used to compare two ratios. P<0.05 were considered statistically significant.

Study Limitations

The limitations of our study were that our data were related to system logs. The electronic recording system and the data transfer process cannot ignore possible missing records. This study did not have data on maternal and neonatal short- and long-term complications. The type of anesthesia applied in C/S was not recorded. Robson grouping was not performed in the C/Ss that were made with the decision of emergency operation.

References

1
FIGO Working Group On Challenges In Care Of Mothers And Infants During Labour And Delivery. Best practice advice on the 10-Group Classification System for cesarean deliveries. Int J Gynaecol Obstet 2016;135:232-3.
2
Robson MS. Can we reduce the caesarean section rate? Best Pract Res Clin Obstet Gynaecol 2001;15:179-94.
3
Eyi EGY, Mollamahmutoglu L. An analysis of the high cesarean section rates in Turkey by Robson classification. J Matern Fetal Neonatal Med 2021;34:2682-92.
4
Boerma T, Ronsmans C, Melesse DY, Barros AJD, Barros FC, Juan L, et al. Global epidemiology of use of and disparities in caesarean sections. Lancet 2018;392:1341-8.
5
Guihard P, Blondel B. Trends in risk factors for caesarean sections in France between 1981 and 1995: lessons for reducing the rates in the future. BJOG 2001;108:48-55.
6
Wilson RD, Caughey AB, Wood SL, Macones GA, Wrench IJ, Huang J, et al. Guidelines for Antenatal and Preoperative care in Cesarean Delivery: Enhanced Recovery After Surgery Society Recommendations (Part 1). Am J Obstet Gynecol 2018;219:523.e1-15.
7
Caughey AB, Wood SL, Macones GA, Wrench IJ, Huang J, Norman M, et al. Guidelines for intraoperative care in cesarean delivery: Enhanced Recovery After Surgery Society Recommendations (Part 2). Am J Obstet Gynecol 2018;219:533-44.
8
Macones GA, Caughey AB, Wood SL, Wrench IJ, Huang J, Norman M, et al. Guidelines for postoperative care in cesarean delivery: Enhanced Recovery After Surgery (ERAS) Society recommendations (part 3). Am J Obstet Gynecol 2019;221:247.e1-9.
9
Betran AP, Ye J, Moller AB, Souza JP, Zhang J. Trends and projections of caesarean section rates: global and regional estimates. BMJ Glob Health 2021;6:e005671.
10
Carroza Escobar MB, Ortiz Contreras J, Bertoglia MP, Araya Bannout M. Pregestational obesity, maternal morbidity and risk of caesarean delivery in a country in an advanced stage of obstetric transition. Obes Res Clin Pract 2021;15:73-7.
11
Molina G, Weiser TG, Lipsitz SR, Esquivel MM, Uribe-Leitz T, Azad T, et al. Relationship Between Cesarean Delivery Rate and Maternal and Neonatal Mortality. JAMA 2015;314:2263-70.
12
Mylonas I, Friese K. Indications for and Risks of Elective Cesarean Section. Dtsch Arztebl Int 2015;112:489-95.
13
Zhang J, Troendle J, Reddy UM, Laughon SK, Branch DW, Burkman R, et al. Contemporary cesarean delivery practice in the United States. Am J Obstet Gynecol 2010;203:326.e1-10.
14
Mascarello KC, Horta BL, Silveira MF. Maternal complications and cesarean section without indication: systematic review and meta-analysis. Rev Saude Publica 2017;51:105.
15
Allen VM, O’Connell CM, Baskett TF. Maternal morbidity associated with cesarean delivery without labor compared with induction of labor at term. Obstet Gynecol 2006;108:286-94.
16
Althabe F, Belizán JM, Villar J, Alexander S, Bergel E, Ramos S, et al. Mandatory second opinion to reduce rates of unnecessary caesarean sections in Latin America: a cluster randomised controlled trial. Lancet 2004;363:1934-40.
17
Keag OE, Norman JE, Stock SJ. Long-term risks and benefits associated with cesarean delivery for mother, baby, and subsequent pregnancies: Systematic review and meta-analysis. PLoS Med 2018;15:e1002494.
18
Wen SW, Rusen ID, Walker M, Liston R, Kramer MS, Baskett T, et al. Comparison of maternal mortality and morbidity between trial of labor and elective cesarean section among women with previous cesarean delivery. Am J Obstet Gynecol 2004;191:1263-9.
19
De Brouwere V, Dubourg D, Richard F, Van Lerberghe W. Need for caesarean sections in west Africa. Lancet 2002;359:974-5; author reply 975.
20
O’Dwyer V, Hogan JL, Farah N, Kennelly MM, Fitzpatrick C, Turner MJ. Maternal mortality and the rising cesarean rate. Int J Gynaecol Obstet 2012;116:162-4.
21
Bloom SL, Spong CY, Weiner SJ, Landon MB, Rouse DJ, Varner MW, et al. Complications of anesthesia for cesarean delivery. Obstet Gynecol 2005;106:281-7.
22
Palanisamy A, Mitani AA, Tsen LC. General anesthesia for cesarean delivery at a tertiary care hospital from 2000 to 2005: a retrospective analysis and 10-year update. Int J Obstet Anesth 2011;20:10-6.
23
Opiyo N, Kingdon C, Oladapo OT, Souza JP, Vogel JP, Bonet M, et al. Non-clinical interventions to reduce unnecessary caesarean sections: WHO recommendations. Bull World Health Organ 2020;98:66-8.
24
Lin HC, Xirasagar S. Institutional factors in cesarean delivery rates: policy and research implications. Obstet Gynecol 2004;103:128-36.
25
Pandey D, Bharti R, Dabral A, Khanam Z. Impact of WHO Labor Care Guide on reducing cesarean sections at a tertiary center: an open-label randomized controlled trial. AJOG Glob Rep 2022;2:100075.
26
Lowe NK. A review of factors associated with dystocia and cesarean section in nulliparous women. J Midwifery Womens Health 2007;52:216-28.
27
Vrouenraets FP, Roumen FJ, Dehing CJ, van den Akker ES, Aarts MJ, Scheve EJ. Bishop score and risk of cesarean delivery after induction of labor in nulliparous women. Obstet Gynecol 2005;105:690-7.
28
Hospitals GDoP. Public Health Services Price Schedule. Accessed 08.09.2022, 2022. https://khgmfinansalanalizdb.saglik.gov.tr/TR-40231/fiyat-tarifeleri.html
29
Gibbons L, Belizán JM, Lauer JA, Betrán AP, Merialdi M, Althabe F. The global numbers and costs of additionally needed and unnecessary caesarean sections performed per year: overuse as a barrier to universal coverage. World Health Report 2010;30:1-31.