Abstract
Epidural analgesia provides effective pain relief during labor. However, there is limited information on the factors associated with pregnant women’s preferences for labor epidural analgesia (LEA) prior to labor onset. We performed a secondary analysis of a clinical trial to identify demographic characteristics, pain and psychological vulnerability factors associated with preferences for LEA. Pregnant women at ≥ 36 weeks’ gestation prior to labor and delivery were recruited and given questionnaires on their LEA preferences, psychological and pain vulnerabilities. The primary outcome was the association between pre-delivery Edinburgh Postnatal Depression Scale (EPDS) with cut-off ≥ 10 and LEA preference. Of the 250 women recruited, 51.6% (n = 129) indicated “yes to LEA”. Amongst those considering LEA as an option to reduce labor pain, women who preferred to use LEA (n = 129) indicated favorable or neutral opinion. Additionally, 68% (n = 82) from those “no to LEA” or “not sure about LEA” still gave either favorable or neutral opinion for LEA (p < 0.0001). The multivariate logistic regression analysis found that EPDS ≥ 10 (p < 0.01), occupation (p = 0.03), ethnicity (p < 0.01), state anxiety (p = 0.02), mode of current pregnancy (unplanned; planned, assisted; planned, natural; p = 0.03) and premenstrual anger/irritability before current pregnancy (p = 0.02) were associated with LEA preference. The findings may help to define the population that may require further education on considering LEA and allow early identification on different LEA preferences to provide patient centric care prior to labor and delivery.
Similar content being viewed by others
Introduction
Childbirth pain is one of the most excruciating types of pain a woman might have to endure in her lifetime and pain management is an essential component of labor and delivery1. Labor epidural analgesia (LEA) is considered the reference standard for pain relief, and is recommended by the World Health Organization for healthy laboring women2, 3. Additionally, LEA may benefit women with high-risk pregnancies such as preeclampsia, owing to its ability to reduce pain-related hypertension and catecholamine levels while potentially improving uteroplacental flow4. However, despite the advantages of LEA, many women expressed concerns over its potential adverse effects including prolonged labor, need for instrumental delivery, and back pain5,6. Furthermore, a qualitative systematic review investigating labor experiences showed that women who received unplanned LEA were more likely to experience negative emotions such as guilt, conflict, and sense of failure7. As a whole, these studies highlight the complex and multifaceted aspects regarding maternal acceptance of LEA and may partially explain the discrepancy in LEA uptake between our study center (~ 50%)8 compared to other developed countries such as the United States (~ 71%) and Canada (~ 59%)9,10. Hence, in-depth understanding of factors affecting LEA preference is needed to define the population that may benefit from additional counselling or education, with the goal of providing pertinent and relevant information required to make an informed decision regarding LEA11.
Although several studies have reported associations between maternal socioeconomic (e.g., education, income, parity) and psychological factors (e.g., stress, anxiety, fear) with LEA preferences12,13,14, the relationship between other psychological and pain vulnerability factors (e.g., depressive symptoms, pain catastrophizing etc.) and LEA acceptance is unclear. For instance, previous studies on pre-delivery depressive symptoms reported conflicting results: Sitras et al. found no significant difference in Edinburgh Postnatal Depression Scale (EPDS) scores among women who had chosen or not chosen LEA, whilst Chung et al. showed that increased Beck Depression Inventory (BDI) scores at late pregnancy were associated with increased LEA utilization15,16. Nonetheless, both studies were conducted in women at around 32 gestational weeks, and their findings may not reflect actual LEA preference nearer to term.
In this study, we aimed to identify pre-delivery factors including the presence of depressive symptoms (primary exposure variable), socioeconomic characteristics, and pain and psychological vulnerability factors (secondary exposure variables) associated with preference for LEA (primary outcome measure). We hypothesized that the binary variable of pre-delivery EPDS score ≥ 10 is associated with preference for LEA.
Methods
This study is a secondary analysis of a larger randomized-controlled study investigating the association between LEA and postpartum depression, conducted at KK Women’s and Children’s Hospital, the largest specialist obstetric hospital in Singapore. Enrolment for the primary study has been completed, but participant follow-up and data analysis are still ongoing. Both the primary study and our secondary analysis were approved by SingHealth Centralized Institutional Review Board (reference number: 2017/2090; registered date: 25 Mar 2017) and registered on Clinicaltrials.gov (NCT03167905) (initial release: 2 May 2017; first posted: 30 May 2017). Eligible women enrolled from June 2018 to November 2020 were approached to participate, and written informed consent was obtained from all participants. This manuscript adheres to the applicable Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) guidelines.
We included pregnant women aged 21–50 years old with American Society of Anesthesiologists (ASA) physical status II, nulliparous or multiparous, with a singleton fetus of ≥ 36 gestational weeks. Women with non-cephalic fetal presentation, obstetric complications, uncontrolled medical conditions (e.g., cardiac disease), and who underwent elective caesarean delivery were excluded. To enable the use of standardized validated English questionnaires, participants who were unable to understand or read English were excluded.
Participants would receive a questionnaire on their preferences for labor analgesia commonly used in our institution (LEA, pethidine, or 50% nitrous oxide/oxygen (Entonox)), opinions on LEA and its potential adverse effects (prolonged labor, increased risk of instrumental delivery, back pain, permanent nerve injury, and neonatal respiratory respiration) (Supplementary information). Information on adverse effects of non-LEA interventions were also assessed in the questionnaire. We pre-tested the first draft of the questionnaire in ten eligible participants to determine if they were able to understand the questions, and whether all their concerns on labor epidural analgesia were captured. We then refined the questionnaire based on provided feedback. In addition, the following validated questionnaires on pain and psychological vulnerability were administered 30–40 min prior to labor and delivery:
-
(i)
Edinburgh Postnatal Depression Scale (EPDS): A 10-item self-reporting scale to screen for antenatal and postnatal depression (PND), with a score ranging from 0 to 3017,18. EPDS is moderately correlated with BDI (Spearman correlation: 0.78, p < 0.001)19, and has been well validated in both antenatal and postnatal women population in Singapore20;
-
(ii)
Pain Catastrophizing Scale (PCS): a self-reported instrument on evaluating negative thought processes that one may have upon exposure to actual or perceived pain and/or painful experiences21;
-
(iii)
Central Sensitization Inventory (CSI): a psychometric instrument that evaluates one’s responses to expansion of pain, and prolonged pain once the stimulus is removed22;
-
(iv)
Perceived Stress Scale (PSS): an instrument commonly used for quantifying perceptions of stress23;
-
(v)
Fear-Avoidance Components Scale (FACS): a patient-reported measure that serves to evaluate the fear-avoidance in patients especially those with painful conditions24;
-
(vi)
State-Trait Anxiety Inventory (STAI): a 40-item instrument to assess transient anxiety (STAI State anxiety), dispositional anxiety (STAI Trait anxiety), and anxiety in general (STAI total)25. A cut-off of 40 was generally used to identify elevated anxiety during pregnancy26;
-
(vii)
Premenstrual Symptoms Screening Tool (PSST): a self-reported screening tool to identify women with severe Premenstrual Syndrome (PMS) or Premenstrual Dysphoric Disorder (PMDD)27. As the purpose of the study was to look at the relationship between psychological characteristics and LEA preference, we decided to analyze the individual items of PSST, rather than investigating the premenstrual disorders of women;
-
(viii)
EQ-5D-3L: a widely used instrument to quantify health-related quality of life28.
Patient characteristics and socioeconomic information including body mass index, marital status, housing type (private or public), housing status (rented or owned), highest education, occupation, children, mode of current pregnancy (unplanned; planned, assisted; planned, natural) and gestational age were also collected.
The primary objective was the association between EPDS ≥ 10 and LEA preference. LEA preference was treated as categorical data: “yes to LEA” for participants who chose LEA; “no to LEA” for those who chose Entonox, pethidine, or who did not want any analgesia; and “not sure about LEA” for those who were undecided regarding their labor analgesia. EPDS ≥ 10 indicates the presence of clinically significant depressive symptoms17,18,29. Categorical and continuous variables were summarized as frequency (proportion), mean (standard deviation (SD)) based on LEA preference. Differences between the outcome categories were tested using analysis of variance (ANOVA) for continuous variables and using Chi-square test for categorical variables. Univariate and multivariable multinomial logistic regression were performed to investigate the factors associated with LEA preference, and expressed as odds ratios (OR) with corresponding 95% confidence intervals (CI). Variables with p < 0.20 in the univariate logistic regression analysis were chosen for multivariable logistic regression model, which was subsequently finalized using forward, backward, and stepwise variable selection methods. Significance was set at p < 0.05 and all tests were two-tailed. No correction for multiple comparisons was made. SAS version 9.4 software (SAS Institute; Cary, North Carolina, USA) was used in all analyses.
Results
We enrolled 250 participants prior to labor and delivery, categorized according to their preferences for LEA (“yes to LEA”: n = 129; “no to LEA”: n = 58; and “not sure about LEA”: n = 63) (Fig. 1). Participant characteristics and socioeconomic information are summarized in Table 1, with ethnicity, occupation, age, and mode of current pregnancy significantly associated with LEA preference based on univariate analysis.
When asked about their view on LEA as an option to reduce labor pain, all participants answering “yes to LEA” (n = 129) also responded favorably or neutrally (Table 2). In addition, 68% (n = 82) of participants answering “no to LEA” or “not sure about LEA” still gave either favorable or neutral opinions regarding LEA as an option for labor pain relief. Also, significant differences were found between participants answering “yes to LEA”, “no to LEA” and “not sure about LEA” regarding the perception that the second stage of labor will last one hour or more and LEA increases the risk of adverse events (permanent nerve injury, neonatal respiratory depression).
Pre-delivery pain and psychological vulnerabilities in the recruited women, including central sensitization (CSI), depressive symptoms (EPDS), global health score (EQ-5D-3L), fear-avoidance (FACS), pain catastrophizing (PCS), perceived stress (PSS), and premenstrual symptoms before their current pregnancy (PSST) are shown in Table 3. The multivariable logistic regression analysis found that EPDS ≥ 10, occupation, ethnicity, state anxiety, mode of current pregnancy, and having premenstrual anger/irritability before the current pregnancy were significantly associated with LEA preference (Table 4).
Comparing women answering “yes to LEA” versus “no to LEA”, those with a professional job and having premenstrual anger/irritability before the current pregnancy were more likely to choose LEA as their labor analgesia (Table 4). Conversely, Malay ethnic group, as compared with Chinese, were less likely to choose LEA for pain relief. Similarly, those having an EPDS ≥ 10, having a professional job, less state anxiety, and having a planned/natural current pregnancy were more likely to choose LEA as compared with those who were unsure about their LEA preference.
Discussion
In this study, we evaluated women’s preferences for LEA using a survey approach. Pregnant women devised their preference on LEA mainly in three different categories: Yes, no, or not sure. In the multivariable analysis, we found that pre-delivery depressive symptoms (EPDS ≥ 10), occupation, ethnicity, state anxiety, mode of current pregnancy and having premenstrual anger/irritability before current pregnancy were significantly associated with LEA preference.
To date, few studies have investigated factors affecting maternal LEA preferences, particularly regarding pain, mood, and other feelings prior to onset of labor. This study underscores the association between psychological factors and LEA preference. Previous studies have investigated the influence of depressive symptoms on LEA preference15,16. In our study, we showed that a significant association was found between LEA preference and pre-delivery depressive symptoms as indicated by an EPDS cut-off of 10 for minor depressed conditions30; but this effect was dominated by a significant positive association between EPDS ≥ 10 and “yes to LEA” as compared with those who were unsure about their LEA preference. Similarly, we showed a significant association between state anxiety (transitory emotional state) and LEA preference in multivariate analysis. One possible theory is that the negative psychological effects, be it from anxiety or depression, may magnify one’s pain perception or lower the pain threshold, which in turn amplifies both physical and psychological distress31, however further affirmation is required.
Premenstrual symptoms vary among individuals, including significant anger/ irritability, anxiety/tension, and somatic complaints. A history of premenstrual syndrome (PMS) has been found to be associated with the development of postnatal depression (PND) at later time. A systematic review on 16 studies showed a positive association between premenstrual disorders and PND, and this relationship may be modulated by confounders on vulnerable personality and socio-economic status e.g., age, income, and education32. It has been speculated that vulnerability to hormonal alterations during reproductive years may contribute not only to the development of PMS but also of PND, thus leading to postnatal depressive and other mood symptoms33,34. To our knowledge, no study has investigated the association between premenstrual syndromes and LEA preference, and our results showed that premenstrual anger/irritability was the only domain in PSST that was associated with LEA preference. Notably, data on relationship between premenstrual symptoms PND are usually collected retrospectively during pregnancy, this reporting may be influenced by concurrent anxiety or depressive symptoms before delivery, and no further hormonal assessment was performed to confirm the association. Given that pre-labor period involves dramatic changes in endocrine events, it would be interesting to further investigate the difference in hormonal changes among those preferred or not preferred LEA.
As part of the survey, we investigated various demographic and socioeconomic factors that may affect women’s LEA preference. In the current study, working as a professional as compared with homemaker and unemployed mothers was a significant predictor of positive LEA preference. This is consistent with previous reported studies, whereby employed mothers are more likely to choose LEA than non-employed women35,36. Notably, the study by Le Ray et al. was conducted in France, a country with high rate of LEA use (77%) with epidural procedures 100 percent reimbursed via health insurance; hence the contributing factor of employment is not confounded by the affordability of obstetric care36,37. In Singapore, the delivery charges including the epidural administration are payable by the pregnant women. However, a “Medisave Maternity Package” which is part of the national medical savings scheme could allow pregnant women to claim up to $3150 regardless of the ward type they have chosen. The amount could fully cover the delivery expenses for subsidized patients, and up to 60% for unsubsidized patients choosing single-bed or 4-bed wards38,39,40. As education level does not show significance in univariate analysis, it is plausible that those who works as a professional may receive more resources for adequate prenatal care, yet this warrants further study36. Reports of LEA preference in Asian population were nonetheless conflicting: Harkins et al. showed that there was no difference in LEA preference in East Asian and Indian Asian, probably attributed to a small sample size, whereas Sharma et al. showed that Malay mothers were less likely to consent to LEA as compared with non-Malay ethnic groups (Chinese, Indian etc.), which is in line with our findings6,41. This could be possibly explained by cultural and religious reasons for LEA refusal, where traditional belief regards pain as a necessary experience of childbirth41.
Apart from LEA preference, we also collected information on women’s general perception on the duration of second stage of labor, and showed that among the three groups of different LEA preference, those who were more likely to choose LEA expected themselves laboring for a longer time. We hypothesized that women who chose LEA might be more anxious about their upcoming labor, however by conducting a post hoc analysis on the association between LEA preference and STAI score, we found that the correlation was weak (R = 0.10), suggesting that there are other possible confounders that may have determined the perception on the duration of second stage of labor. Additionally, we also found significant difference on how women perceived the risk of adverse events if epidural analgesia was used, in particular permanent nerve injury and neonatal respiratory depression. This finding is similar to Harkins et al. where a significant portion of those who did not obtain an epidural analgesia stated the concern of possible risks to them or the babies (~ 28%)6.
We evaluated how women’s preferences on LEA differ among individuals and presented a view on their perception on LEA versus non-LEA pain relief options. Munro et al. found that women preferred to receive relevant information during prenatal period rather than during labor. Moreover, patients prefer receiving information provided by their primary-care provider, which they trusted more, rather than an anesthesiologist they do not know12. Information received during labor could be limited, and pregnant women may find it challenging to learn and understand about the risks prior to decision-making42. This study suggests that perhaps a more personalized approach should be taken, of which the identification of the associated demographic and psychological factors may serve to stratify women of different needs for labor pain relief, especially in those who are not sure or those who do not want LEA, so that dedicated information could be provided to ease their concerns on the use of LEA.
However, this study has several limitations. First, we recruited women from single maternity institution with a predominantly Asian population. It was previously reported that Asians may have different perceptions towards pain as compared with other populations of different cultural and demographic context, hence limiting the generalizability of the study43. We have found several factors that may contribute to LEA preference; however, a larger sample size is needed to validate the findings. In addition, the present study is a secondary analysis and hence no sample size calculation was performed. Post hoc power calculation is not suitable for this objective as the post hoc power estimates is different from true power calculation which may not provide sensible results. Secondly, the recruitment was limited to English-speaking women and potential confounding effects (e.g., previous childbirth/ LEA experiences, household or personal income, information source and quality received before labor) that may affect women’s perceptions were not studied. It is also notable that the stated LEA preferences prior to their labor and delivery may not reflect their actual choices, which can be affected by emotional, financial, and clinical situation not considered in the survey. Women may also consider the preferences of their spouse or other family members when making treatment choices.
In summary, our survey reflects that pre-delivery demographic and psychological characteristics are associated with LEA preference prior to delivery and labor. Future studies could help to define the population that may require further education on considering LEA, including how benefits and risks associated with epidural analgesia could impact the LEA preference and the actual use of different analgesia modalities. Early identification on women’s different perception on LEA preference based on the associated factors will also enable healthcare professionals to provide patient centric care to improve women’s labor experience.
Data availability
The datasets generated and analyzed in this work are available for anyone who wishes to access the data by contacting the corresponding author.
Abbreviations
- ASA:
-
American society of anesthesiologists
- BDI:
-
Beck depression inventory
- BMI:
-
Body mass index
- CI:
-
Confidence interval
- CSI:
-
Central sensitisation inventory
- EPDS:
-
Edinburgh postnatal depression scale
- EQ-5D-3L:
-
EuroQol five-dimensional-three-level
- FACS:
-
Fear-avoidance components scale
- LEA:
-
Labor epidural analgesia
- OR:
-
Odds ratio
- PCS:
-
Pain catastrophizing scale
- PMDD:
-
Premenstrual dysphoric disorder
- PMS:
-
Premenstrual syndrome
- PND:
-
Postnatal depression
- PSS:
-
Perceived stress scale
- PSST:
-
Premenstrual symptoms screening tool
- STAI:
-
State-trait anxiety inventory
- STROBE:
-
Strengthening the reporting of observational studies in epidemiology
References
Melzack, R. Labour pain as a model of acute pain. Pain 53, 117–120 (1993).
Sng, B. L. et al. Automated mandatory bolus versus basal infusion for maintenance of epidural analgesia in labour. Cochrane Database Syst. Rev. 5, CD011344 (2018).
World Health Organization. WHO recommendations Intrapartum care for a positive childbirth experience. World Health Organization https://apps.who.int/iris/bitstream/handle/10665/272447/WHO-RHR-18.12-eng.pdf (2018).
Stocks, G. Preeclampsia: pathophysiology, old and new strategies for management. Eur. J. Anaesthesiol. 31, 183–189 (2014).
Anim-Somuah, M., Smyth, R. M., Cyna, A. M. & Cuthbert, A. Epidural versus non-epidural or no analgesia for pain management in labour. Cochrane Database Syst. Rev. 5, CD000331 (2018).
Harkins, J., Carvalho, B., Evers, A., Mehta, S. & Riley, E. T. Survey of the factors associated with a woman’s choice to have an epidural for labor analgesia. Anesthesiol. Res. Pract. 2010, 356789 (2010).
Thomson, G. et al. Women’s experiences of pharmacological and non-pharmacological pain relief methods for labour and childbirth: a qualitative systematic review. Reprod Health 16, 71 (2019).
Chan, J. J. I. et al. Evaluation of association factors for labor episodic pain during epidural analgesia. J. Pain Res. 12, 679 (2019).
Butwick, A. J., Wong, C. A. & Guo, N. Maternal body mass index and use of labor neuraxial analgesia: a population-based retrospective cohort study. Anesthesiology 129, 448–458 (2018).
Canadian Institute for Health Information. The Canadian Institute for Health Information (CIHI) snapshot Inpatient Hospitalization, Surgery, Newborn, Alternate Level of Care and Childbirth Statistics 2017–2018. Canadian Institute for Health Information https://secure.cihi.ca/free_products/dad-hmdb-childbirth-quick-stats-2017-2018-snapshot-en-web.pdf (2019).
Thompson, R. & Miller, Y. D. Birth control: to what extent do women report being informed and involved in decisions about pregnancy and birth procedures?. BMC Pregnancy Childbirth 14, 62 (2014).
Toledo, P. et al. Patients’ preferences for labor analgesic counseling: a qualitative analysis. Birth 44, 345–351 (2017).
Saunders, T. A., Lobel, M., Veloso, C. & Meyer, B. A. Prenatal maternal stress is associated with delivery analgesia and unplanned cesareans. J. Psychosom. Obstet. Gynaecol. 27, 141–146 (2006).
Hall, W. A., Stoll, K., Hutton, E. K. & Brown, H. A prospective study of effects of psychological factors and sleep on obstetric interventions, mode of birth, and neonatal outcomes among low-risk British Columbian women. BMC Pregnancy Childbirth 12, 78 (2012).
Sitras, V., Šaltytė Benth, J. & Eberhard-Gran, M. Obstetric and psychological characteristics of women choosing epidural analgesia during labour: a cohort study. PLoS ONE 12, e0186564 (2017).
Chung, T. K., Lau, T. K., Yip, A. S., Chiu, H. F. & Lee, D. T. Antepartum depressive symptomatology is associated with adverse obstetric and neonatal outcomes. Psychosom. Med. 63, 830–834 (2001).
Cox, J. L., Holden, J. M. & Sagovsky, R. Detection of postnatal depression: development of the 10-item Edinburgh postnatal depression scale. Br. J. Psychiatry 150, 782–786 (1987).
Wisner, K. L., Parry, B. L. & Piontek, C. M. Postpartum depression. N. Engl. J. Med. 347, 194–199 (2003).
Lee, D. T., Yip, A. S., Chiu, H. F., Leung, T. Y. & Chung, T. K. Screening for postnatal depression: are specific instruments mandatory?. J. Affect. Disord. 63, 233–238 (2001).
Thiagayson, P. et al. Depression and anxiety in Singaporean high-risk pregnancies—prevalence and screening. Gen. Hosp. Psychiatry 35, 112–116 (2013).
Sullivan, M. J., Bishop, S. R. & Pivik, J. The pain catastrophizing scale: development and validation. Psychol. Assess. 7, 524 (1995).
Mayer, T. G. et al. The development and psychometric validation of the central sensitization inventory. Pain Pract. 12, 276–285 (2012).
Cohen, S., Kamarck, T., & Mermelstein, R. Perceived stress scale. Measuring Stress: A Guide for Health and Social Scientists. 10, 1–2 (1994).
Neblett, R., Mayer, T. G., Hartzell, M. M., Williams, M. J. & Gatchel, R. J. The fear-avoidance components scale (FACS): development and psychometric evaluation of a new measure of pain-related fear avoidance. Pain. Pract. 16, 435–450 (2016).
Spielberger, C. D. State-trait anxiety inventory. In The Corsini Encyclopedia of Psychology (eds Weiner, I. B. & Craighead, W. E.) 1–1 (John Wiley & Sons, 2010).
Grant, K. A., McMahon, C. & Austin, M. P. Maternal anxiety during the transition to parenthood: a prospective study. J. Affect. Disord. 108, 101–111 (2008).
Steiner, M., Macdougall, M. & Brown, E. The premenstrual symptoms screening tool (PSST) for clinicians. Arch. Womens Ment. Health 6, 203–209 (2003).
EuroQoL Group. EuroQol—a new facility for the measurement of health-related quality of life. Health Policy 16, 199–208 (1990).
Zeng, Y. et al. Association of pain catastrophizing with postnatal depressive states in nulliparous parturients: a prospective study. Neuropsychiatr. Dis. Treat. 16, 1853 (2020).
Gibson, J., McKenzie-McHarg, K., Shakespeare, J., Price, J. & Gray, R. A systematic review of studies validating the Edinburgh postnatal depression scale in antepartum and postpartum women. Acta Psychiatr. Scand. 119, 350–364 (2009).
Haddad, P. F. & Morris, N. F. The relationship of maternal anxiety to events in labour. J. Obstet. Gynaecol. 3, 94–97 (1982).
Castro, R. A., Pataky, E. A. & Ehlert, U. Associations between premenstrual syndrome and postpartum depression: a systematic literature review. Biol. Psychol. 147, 107612 (2019).
Rubinow, D. R., Schmidt, P. J. & Roca, C. A. Hormone measure in reproductive endocrine-related mood disorders: diagnostic issues. Psychopharmacol. Bull. 34, 289 (1998).
Payne, J. L., Palmer, J. T. & Joffe, H. A reproductive subtype of depression: conceptualizing models and moving toward etiology. Harv. Rev. Psychiatry 17, 72–86 (2009).
Alakeely, M. H. et al. The effect of epidural education on Primigravid Women’s decision to request epidural analgesia: a cross-sectional study. BMC Pregnancy Childbirth 18, 1–6 (2018).
Le Ray, C., Goffinet, F., Palot, M., Garel, M. & Blondel, B. Factors associated with the choice of delivery without epidural analgesia in women at low risk in France. Birth 35, 171–178 (2008).
Blondel, B., Lelong, N., Kermarrec, M. & Goffinet, F. National coordination group of the national perinatal surveys. Trends in perinatal health in France from 1995 to 2010. Results from the French national perinatal surveys. J. Gynecol. Obstet. Biol. Reprod. (Paris) 41, e1–e15 (2012).
Ministry of Health Singapore. Marriage and parenthood schemes: Medisave maternity package. Ministry of Health Singapore https://www.moh.gov.sg/cost-financing/healthcare-schemes-subsidies/marriage-and-parenthood-schemes (2021).
Central Provision Board Singapore. How much Medisave savings can I use to pay maternity expenses. Central Provision Board Singapore https://www.cpf.gov.sg/member/faq/healthcare-financing/medisave/how-much-medisave-savings-can-i-use-to-pay-maternity-expenses (2022).
Ministry of Health Singapore. Fee benchmarks and bill amount information. Ministry of Health Singapore https://www.moh.gov.sg/cost-financing/fee-benchmarks-and-bill-amount-information/DetailsByHospital/SI836U--1--Ward---A (2022).
Sharma, S., Mohamad, N. A., Monga, D. & Achana, S. Acceptability of epidural analgesia for pain relief during labour among Kelantanese women. Med. J. Malays. 51, 453–456 (1996).
Munro, S. B. et al. Evaluation of an information pamphlet for women considering epidural analgesia in labour. J. Obstet. Gynaecol. Can. 40, 171–179 (2018).
Watson, P. J., Latif, R. K. & Rowbotham, D. J. Ethnic differences in thermal pain responses: a comparison of South Asian and White British healthy males. Pain 118, 194–200 (2005).
Acknowledgements
We would like to thank Ms Sili Tan (Clinical Research Coordinator) and Ms Agnes Teo (Senior Clinical Research Coordinator) for their administrative support in this work. This work was supported by the funding from the Singapore National Medical Research Council (NMRC) Clinician Scientist Award (CSAINV16may004) and KKH Academic Medicine Research Start-up Grant (KKH-AM/2019/05). The aforementioned sponsors were not involved in the study activities.
Author information
Authors and Affiliations
Contributions
C.W.T. contributed to conceptualization, methodology, data curation, visualization, formal analysis, and drafting the article. S.O. contributed to conceptualization, methodology, and drafting the article. R.S. contributed to data curation, visualization, formal analysis, and drafting the article. C.T. contributed to investigation, data curation, resources, and drafting the article. H.S.T. contributed to investigation, data curation, resources, and drafting the article. B.L.S. contributed to conceptualization, methodology, supervision, funding acquisition, and drafting the article. All authors commented on previous versions of the manuscript. All authors read and approved the final manuscript.
Corresponding author
Ethics declarations
Competing interests
The authors declare no competing interests.
Additional information
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary Information
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
About this article
Cite this article
Tan, C.W., Ozdemir, S., Sultana, R. et al. Factors associated with women’s preferences for labor epidural analgesia in Singapore: a survey approach. Sci Rep 12, 10961 (2022). https://doi.org/10.1038/s41598-022-15152-3
Received:
Accepted:
Published:
DOI: https://doi.org/10.1038/s41598-022-15152-3
- Springer Nature Limited
This article is cited by
-
Investigating the association factors of acute postpartum pain: a cohort study
BMC Anesthesiology (2023)