Vaginal Birth at Term – Part 1. Guideline of the DGGG, OEGGG and SGGG (S3-Level, AWMF Registry No. 015/083, December 2020)

• Abstract
• I  Guideline Information
• Guidelines program of the DGGG, OEGGG and SGGG
• Citation format
• Guideline documents
• Guideline authors
• Abbreviations
• II  Guideline Application
• Purpose and objectives
• Targeted areas of care
• Target user groups/target audience
• Adoption and period of validity
• III  Methodology
• Basic principles
• Grading of evidence according to SIGN
• Grading of evidence
• Statements
• Achieving consensus and strength of consensus
• Expert consensus
• IV  Guideline
• 1  Information and counselling
• 2  General care
• 2.1  Informed decision-making and self-determined birth
• 2.2  Continuous care and support
• 2.2.1  Availability of gynecologists/obstetricians, pediatricians and anesthetists over a period of 24 hours
• 2.2.2  Experience and expertise of obstetricians (doctors, medical specialists, residents) and midwives
• 2.3  Adaptation of the environment
• 2.4  Eating and drinking during the birth
• 3  Monitoring
• 3.1  Auscultation of fetal heart sounds
• 3.2  Cardiotocography (CTG)
• 3.2.1  Indications for CTG monitoring
• 3.2.2  Indications for continuous CTG monitoring
• 3.2.3  Indications for additional monitoring methods
• 3.2.4  General measures during CTG monitoring
• 3.2.5  CTG assessment
• 3.2.6  Recommendations for action for fetal tachycardia
• 3.2.7  Recommendations for action for fetal bradycardia
• 3.2.8  Recommendations for action for abnormal variability
• 3.2.9  Recommendations for action for decelerations 110
• 3.2.10  Recommendations for action for (absent) accelerations
• 3.2.11  Conservative measures for suspicious/pathological CTG patterns
• 3.3  Fetal blood analysis (FBA)
• 3.3.1  Assessment of fetal blood samples and recommendations for action
• 3.4  Additional procedures
• 3.4.1  Computerized assessment of CTGs
• 3.4.2  ST segment analysis (STAN)
• 3.4.3  Pulse oximetry
• 3.5  Ultrasound in the labor room
• 3.5.1  Intrapartum ultrasound to detect SGA
• 3.5.2  Intrapartum ultrasound for the early detection of LGA
• 3.5.3  Intrapartum ultrasound: failure to progress in labor, vaginal-operative birth
• 4  Pain management
• 4.1  Approach to pain during birth
• 4.1.1  Attitudes to pain and pain management during birth
• 4.1.2  Strategies to cope with pain during labor (relaxation techniques, massage and relaxation bath)
• 4.2  Non-pharmacological interventions for pain relief and relaxation during labor 124, 125, 127, 128, 129, 130
• 4.2.1  Further research required
• 4.3  Pharmacological measures
• 4.3.1  Epidural anesthesia
• 4.3.2  Nitrous oxide-oxygen mixtures 143, 144, 145
• 4.3.3  Systemic opioids
• 5  Quality assurance for vaginal births
• 5.1  History
• 5.2  Changes in the percentages of modes of birth over time
• 5.3  Indicator-based quality assurance
• 5.3.1  Indicator-based quality assurance for the inpatient sector
• 5.3.2  Indicator-based quality assurance for the out-of-hospital sector
• 5.4  First attempts to create a form of inter-institutional indicator-based quality assurance
• 5.5  Quality assurance of structural requirements with a special focus on staffing requirements
• 6  Appendix
• 6.1  Statements from the consultation process
• 6.1.1  Statement of the DGGG, ÖGGG, DEGUM
• 6.1.2  Statement of the ÖGGG
• References/Literatur

Abstract

Purpose This guideline aims to summarize the current state of knowledge about vaginal birth at term. The guideline focuses on definitions of the physiological stages of labor as well as differentiating between various pathological developments and conditions. It also assesses the need for intervention and the options to avoid interventions. This first part presents recommendations and statements about patient information and counselling, general patient care, monitoring of patients, pain management and quality control measures for vaginal birth.

Methods The German recommendations largely reproduce the recommendations of the National Institute for Health and Care Excellence (NICE) CG 190 guideline “Intrapartum care for healthy women and babies”. Other international guidelines were also consulted in specific cases when compiling this guideline. In addition, a systematic search and analysis of the literature was carried out using PICO questions, if this was considered necessary, and other systematic reviews and individual studies were taken into account. For easier comprehension, the assessment tools of the Scottish Intercollegiate Guidelines Network (SIGN) were used to evaluate the quality of the additionally consulted studies. Otherwise, the GRADE system was used for the NICE guideline and the evidence reports of the IQWiG were used to evaluate the quality of the evidence.

Recommendations Recommendations and statements were formulated based on identified evidence and/or a structured consensus.

I  Guideline Information

Guidelines program of the DGGG, OEGGG and SGGG

For information on the guidelines program, please refer to the end of the guideline.

Citation format

Vaginal Birth at Term – Part 1. Guideline of the DGGG, OEGGG and SGGG (S3-Level, AWMF Registry No. 015/083, December 2020). Geburtsh Frauenheilk 2022; 82: 1143 – 1193

Guideline documents

The complete long version in German and a slide version of these guidelines as well as a list of the conflicts of interest of all of the authors is available on the homepage of the AWMF: http://www.awmf.org/leitlinien/detail/ll/015-083.html

Guideline authors

See [Tables 1] and [2].

The guideline was moderated by Dr. med. Monika Nothacker (AWMF).

Abbreviations

II  Guideline Application

Purpose and objectives

Uterotonic drugs are administered in one quarter of births in Germany and almost one third of infants in Germany are delivered by caesarean section. More than half of all caesarean deliveries were indicated due to failure to progress in labor or abnormalities detected during fetal monitoring but this had no significant impact on reducing perinatal morbidity or mortality. At the same time, there is a growing body of evidence that both the rate of administered uterotonics and of caesarean deliveries correlate with maternal and neonatal morbidity rates.

This guideline aims to summarize the current state of knowledge on vaginal birth at term. The guideline focuses on defining the physiological stages of labor and differentiating pathological stages as well as assessing the need for intervention or options to avoid an intervention. The information provided in this guideline should serve as an orientation for the actions carried out by all persons involved in the care of parturient women and should also allow women to have a self-determined birth based on their specific situation.

Targeted areas of care

The focus is principally on the birth process and covers all the stages of labor including the placental stage.

Target user groups/target audience

The guideline is especially aimed at midwives, gynecologists/obstetricians, pediatricians and specialists for adolescent medicine/neonatologists and anesthetists.

Adoption and period of validity

The validity of this guideline was confirmed by the executive boards/heads of the participating professional societies/working groups/organizations/associations as well as by the boards of the DGGG, SGGG, OEGGG and the DGGG/OEGGG/SGGG guidelines commission in [12/2020] and was thus approved in its entirety. This guideline is valid from 22 December 2020 through to 21 December 2025. Because of the contents of this guideline, this period of validity is only an estimate. The guideline can be reviewed and updated at an earlier point in time if necessary. If the guideline still reflects the current state of knowledge, its period of validity can be extended.

III  Methodology

Basic principles

The method used to prepare this guideline was determined by the class to which this guideline was assigned. The AWMF Guidance Manual (version 1.0) has set out the respective rules and requirements for different classes of guidelines. Guidelines are differentiated into lowest (S1), intermediate (S2), and highest (S3) class. The lowest class is defined as consisting of a set of recommendations for action compiled by a non-representative group of experts. In 2004, the S2 class was divided into two subclasses: a systematic evidence-based subclass (S2e) and a structural consensus-based subclass (S2k). The highest S3 class combines both approaches.

This guideline has been classified as: S3

Grading of evidence according to SIGN

To evaluate the level of evidence (levels 1 – 4) of additionally selected primary studies, this guideline used the classification system of the Scottish Intercollegiate Guidelines Network (SIGN) in its most recent version from 2011 ([Table 3]).

Grading of evidence

The grading of evidence in an S3-guideline using a level-of-evidence system allows the strength of the recommendations made in the guideline to be graded. The degree of recommendation is differentiated into three levels and the different strengths of recommendation are indicated by the respective choice of words. This commonly used grading of recommendations is not just used by the AWMF but also in the National Guidelines on Care (Nationale Versorgungsleitlinien, NVL) issued by the German Medical Association. The wording chosen to indicate the strength of the recommendations is explained in the background text.

In this context, the terms “grade”, “level” or “strength” indicate the degree of certainty about issuing the recommendation after weighing up the benefits and harms but are not an indication of whether the recommendation itself is binding. Guidelines are recommendatory in nature, i.e., they are not binding. Individual statements and recommendations are differentiated by symbols and syntax ([Table 4]).

The above-described differentiation of recommendations reflects both the assessment of the evidence and the clinical relevance of the studies on which the evidence is based as well as factors which are not included in the grading of evidence such as the choice of patient cohort, intention-to-treat and outcome analyses, medical actions and ethical behavior towards the patient, country-specific applicability, etc. In contrast, strong, moderate or weak evidence may correspondingly result in a strong, simple or open recommendation. A recommendation can only be upgraded or downgraded to a grade A or a grade 0 recommendation if the strength of the evidence is moderate. In exceptional cases, the highest level of evidence is only accorded a limited/open recommendation or vice versa, and this needs to be explained in the background text.

• Strong evidence → grade A or grade B recommendation

• Moderate evidence → grade A or grade B or grade 0 recommendation

• Weak evidence → grade B or grade 0 recommendation

Statements

Expositions or explanations of specific facts, circumstances or problems without any direct recommendations for action included in this guideline are referred to as “statements”. It is not possible to provide any information about the grading of evidence for these statements.

Achieving consensus and strength of consensus

At structured NIH-type consensus-based conferences (S2k/S3 level), authorized participants attending the session vote on draft statements and recommendations. The process is as follows. A recommendation is presented, its contents are discussed, proposed changes are put forward, and all proposed changes are voted on. If a consensus (> 75% of votes) is not achieved, there is another round of discussions, followed by a repeat vote. Finally, the extent of consensus is determined, based on the number of participants ([Table 5]).

Expert consensus

As the term already indicates, this refers to consensus decisions taken specifically with regard to recommendations/statements issued without a prior systematic search of the literature (S2k) or where evidence is lacking (S2e/S3). The term “expert consensus” (EC) used here is synonymous with terms used in other guidelines such as “good clinical practice” (GCP) or “clinical consensus point” (CCP). The strength of the recommendation is graded as previously described in the chapter Grading of recommendations but without the use of symbols; it is only expressed semantically (“must”/“must not” or “should”/“should not” or “may”/“may not”).

IV  Guideline

1  Information and counselling

This chapter provides recommendations on the information and counselling given to healthy women during pregnancy to support them to make their individual decisions. In special situations, the recommendations given in the appropriate guidelines must be considered (e.g., caesarean section, breech presentation [BP], twins, preterm birth, gestational diabetes [GDM] etc.).

It was calculated that in 2017, 98.7% of all newborn infants in Germany were born in hospital, and just 1.28% were born in a non-clinical setting [34]; however, no complete statistics are available. In Austria, 1.3% of all births in the same period took place either at home or in a midwifery-led setting [35] while in Switzerland around 2.6% of all births took place at home or in a midwifery-led setting [36].

Recommendation 3.1. has adapted recommendation 1.1.2 of the NICE guideline CG190 (for a summary of the underlying studies, see below) and has considered steps 1, 4, 6, 7, 8 and 9 of the International Childbirth Initiative as well as the freedom of choice of every pregnant woman in Germany as formulated and regulated in Sec. 134a of SGB V and Sec. 24f sentence 2 of the SGB V to choose the birth setting. Recommendation 3.1. corresponds to the different birth settings possible (hospital, free-standing midwifery-led unit or home) in Germany, Austria and Switzerland.

Recommendation 3.4 is based on NICE recommendation 1.14 and raises the issue of the experiences women have in different hospital and non-hospital birth settings. “Individual care” does not mean that medical and support staff are obliged to comply with every wish expressed by the woman (or the person(s) accompanying her).

For reasons of consistency, recommendations 3.5 and 3.6 and the following background information were taken from the chapter Information and Advice of the S3-guideline “Caesarean Section”, AWMF registry no. 015 – 084 [58] (cf. Recommendations 3.1.1 and 3.1.3 in that guideline), which in turn largely follow the recommendations given in the NICE guideline CG132 Caesarean section [59].

2  General care

Care during the birth includes all stages of the birth described in [Fig. 1]. The data on the duration of the dilation stage is based on the onset of labor, which in this context is associated with the start of regular, painful and progressive contractions.

2.1  Informed decision-making and self-determined birth

The need to enable women and their families to have a self-determined birth while also complying with legal requirements means that it is imperative for midwives and doctors to consider the issue of the extent to which the pregnant woman must be included in decision-making [60], [61], [62], [63], [64]. In obstetrics, participatory decision-making processes may help to reduce decision-related conflicts and anxieties during pregnancy [62], can affect the womanʼs satisfaction with the birth process, and may have an impact on safety when choosing the type of birth [65].

2.2  Continuous care and support

In this guideline, one-to-one care by a midwife is defined as follows [66], [67]:

• The provision of obstetric, non-medical supportive care and emotional support and the provision of information and advocacy to the woman during the active dilation and expulsion stages by same midwife while taking existing work-time arrangements into account. Care provided by the same midwife must be as continuous as possible in accordance with the womanʼs needs.

This definition largely corresponds to the definition by Bohren et al. from 2017 [68], [69].

It is assumed that one-to-one care corresponds to the needs of women for continuous care and that one-to-one care will also reduce the potential for error which can arise from suboptimal management of interpersonal communication. The existing evidence should be classified as an initial indication for low-intervention births as a result of one-to-one care [73].

2.2.1  Availability of gynecologists/obstetricians, pediatricians and anesthetists over a period of 24 hours

It is indisputable that in risky situations women and infants will benefit from the rapid availability of specialists for gynecology and obstetrics, pediatrics or even analgesia. But corresponding studies on this point are lacking, so that even IQWiG evidence report no. 635 on the attendance and availability of specialized obstetric staff [69] does not permit any statements to be made which would correspond to a level of evidence. There can be no doubt that in high-risk cases the presence of medical staff is indispensable. According to the IQWiG evidence report (see guideline report), the evidence indicating that obstetricians, pediatricians and anesthetists must be available around the clock in the context of a vaginal birth at term and for predetermined endpoints is rudimentary, meaning that no recommendations based on external evidence can be made.

2.2.2  Experience and expertise of obstetricians (doctors, medical specialists, residents) and midwives

The evaluation included studies which compared the different levels of experience and expertise of obstetricians (doctors, medical specialists, residents) and midwives in hospitals with one another, based on test and comparator interventions [74], [75], [75], [76], [77], [78], [79], [80], [81], [82].

Although additional training of teams could be expected to have an impact, the identified evidence is insufficient. Moreover, training programs vary greatly and may be quite complex, which makes it more difficult to provide scientific proof of their efficacy. Because of this, it was not possible to make any recommendations regarding training programs and possible minimum case numbers [76] – [82].

2.3  Adaptation of the environment

The different intervention rates according to birth setting [3], [83] suggest that adapting the environment, specifically the birthing room, could be a possible influencing variable for interventions [84], [85].

Overall, the body of evidence is insufficient to answer the question whether modifying the birthing room in a clinical setting increases the rate of low-intervention births and contributes to positive maternal and fetal/neonatal outcomes. The general rule is that all physiological processes during labor are supported better if the environment imparts a feeling of security and safety [86], [87].

2.4  Eating and drinking during the birth

3  Monitoring

The Board of the OEGGG does not support all of chapter 5 “Monitoring” for Austria. For more information on this, please refer to the relevant statements in the guideline report.

Two aspects are important in this context. Firstly, the dictum “primum nil nocere” (“first do no harm”) applies: interventions must only be carried out in consultation with the woman and only under the condition that the intervention will, in all probability, be more beneficial than harmful. All possible advantages and disadvantages must be communicated appropriately to the patient. The second aspect is adherence to and compliance with all standards to ensure the best possible safety of the patient. This includes regular training of the team and interdisciplinary case discussions, but especially the allocation of sufficient staff to permit one-to-one care.

3.1  Auscultation of fetal heart sounds

The staffing ratio must ensure that best practice recommendations can be implemented. For example, it is known that when fetal health is assessed intrapartum, structured intermittent auscultation offers greater benefits in low-risk births than CTG monitoring.

For this, the following conditions must be met:

• one-to-one care must be provided from the start of the active dilation stage (cervical dilation is approx. 4 – 6 cm or the woman has been admitted to the labor room),

• the obstetric staff are appropriately qualified, and

• fetal heart sounds are continuously documented in detail along with any other relevant obstetric findings.

If these conditions are not met, then CTG monitoring should be carried out.

Possible birth risks must be excluded if intermittent auscultation is used. There is no evidence showing when and for how long auscultation should be carried out. In the studies which were used as the basis for the recommendation in the NICE guideline CG190, auscultation was carried out as follows:

• during and immediately after a contraction for at least 1 minute [171]

• for at least 1 minute after a contraction every 15 minutes during the dilation stage and every 5 minutes during the expulsion stage [172]

• during and immediately after at least one contraction for an unspecified period of time [173].

Relevant intrapartum events must be recorded using a standard system (see recommendation 5.8).

3.2  Cardiotocography (CTG)

There are no generally accepted standards on how events during labor should be recorded. Hospitals should develop a specific system based on their in-house standards. The general principle must be that events are recorded in such a manner that the course of the birth is transparent and open to scrutiny.

3.2.1  Indications for CTG monitoring

In contrast to previous recommendations which recommended carrying out an initial CTG monitoring for 30 minutes to exclude any risk to the fetus and confirm contractions, this is no longer recommended in the current NICE guideline CG190 because of a lack of evidence.

3.2.2  Indications for continuous CTG monitoring

As described in 5.1, the use of intermittent auscultation is limited to low-risk pregnancies and low-risk births. The guideline authors agree with the authors of NICE guideline CG190 that, overall, the potential benefits of continuous CTG probably outweigh the risks and limitations and that the use of continuous CTG should be recommended in cases with higher birth risks, as no other effective alternatives exist.

3.2.3  Indications for additional monitoring methods

Ultrasound assessment of out-of-hospital births must be initiated as quickly as possible.

3.2.4  General measures during CTG monitoring

3.2.5  CTG assessment

CTG patterns must be interpreted and recorded according to standard practice. Many published CTG scoring systems have limitations and some have only been evaluated for antenatal settings. The standard international FIGO scoring system ([Table 6]) must be used to interpret CTG patterns. In contrast to other scoring systems also commonly used in Germany, accelerations are no longer used much (NICE guideline CG190 [67]).

CTG patterns may be categorized as normal, suspicious or pathological ([Table 6]). The general rule is that no decisions must be made during the birth on the basis of the CTG alone. Influencing factors (maternal and/or fetal) must be taken into account during the assessment (NICE guideline CG190 [67]).

When CTG patterns are normal, it can be assumed that there is no risk of hypoxia and/or acidosis and therefore no intervention is required.

If the CTG pattern is suspicious, hypoxia/acidosis are unlikely, and conservative measures (i.e., correction of reversible causes, close monitoring and further diagnostic investigations) are indicated. These can include, for example, providing fluids, checking maternal vital signs and, if necessary, informing another midwife and/or the attending obstetrician (see 3.2.11).

If the CTG pattern is pathological, there is a high risk of hypoxia/acidosis, and conservative and/or invasive measures are indicated. Irreversible causes (e.g., umbilical cord prolapse, placental abruption, uterine rupture) must excluded without delay. Reversible causes must be immediately corrected and/or further diagnostic tests (e.g., fetal blood analysis) must be carried out. If an invasive investigation using fetal blood analysis cannot be carried out, operative expediting of the birth may be necessary.

All measures must take account of the womanʼs preferences.

3.2.6  Recommendations for action for fetal tachycardia

Fetal heart rate is not a good surrogate marker for hypoxia and acidosis, as they are affected by a number of factors but may not be affected by certain types of hypoxia (NICE guideline CG190 [67]).

Studies found an association between poor neonatal/infant outcomes and a fetal heart rate of > 160 bpm. Even though the level of evidence is quite low, a fetal heart rate of 160 bpm was set as the upper limit (NICE guideline CG190). Based on empirical observations, the authors of the NICE guideline consider a fetal heart rate of > 180 bpm to be associated with a great risk of fetal hypoxia/acidosis, which is why this rate is considered to be another upper limit. This has led to there being two categories of fetal tachycardia: 161 – 180 bpm and > 180 bpm.

Irrespective of the above, studies analyzed for neonatal morbidity and mortality rates found only a limited association between fetal tachycardia and poor neonatal outcome (NICE guideline CG190 [67]).

3.2.7  Recommendations for action for fetal bradycardia

There is some limited evidence that a fetal heart rate of less than 110 bpm is associated with adverse fetal/neonatal outcomes. The data is better for a fetal heart rate of < 100 bpm, although the majority of studies investigated a heart rate of less than 90 bpm. This was the basis for determining these current threshold values (NICE guideline CG190 [67]). Empirically, a fetal heart rate of 90 – 99 bpm with a normal baseline variability and no decelerations may be normal in some pregnancies.

The negative and positive predictive value of fetal bradycardia for a poor neonatal outcome is only moderately useful (moderate/high specificity, low sensitivity) (NICE guideline CG190). Only cases of moderate to severe bradycardia during the birth have been found to be associated to some extent with a poor neonatal outcome.

3.2.8  Recommendations for action for abnormal variability

3.2.9  Recommendations for action for decelerations [110]

3.2.10  Recommendations for action for (absent) accelerations

3.2.11  Conservative measures for suspicious/
pathological CTG patterns

3.3  Fetal blood analysis (FBA)

3.3.1  Assessment of fetal blood samples and recommendations for action

3.4  Additional procedures

3.4.1  Computerized assessment of CTGs

3.4.2  ST segment analysis (STAN)

3.4.3  Pulse oximetry

3.5  Ultrasound in the labor room

3.5.1  Intrapartum ultrasound to detect SGA

In contrast to ultrasound examinations performed during pregnancy which can be useful when planning the mode of birth, the use of ultrasound examinations to evaluate the birthweight and detect SGA is not recommended intrapartum as it does not affect the mode of birth, the Apgar score or the acidosis rate.

3.5.2  Intrapartum ultrasound for the early detection of LGA

An ultrasound examination carried out intrapartum for a suspicion of fetal macrosomia will not affect the mode of birth, the rate of perineal tears or maternal blood loss. The use and validity of ultrasound to estimate fetal weight and/or identify growth disorders or placental pathologies could not be evaluated as no systematic reviews on this issue were included.

3.5.3  Intrapartum ultrasound: failure to progress in labor, vaginal-operative birth

4  Pain management

Women experience the labor pains very differently. Important variables affecting maternal satisfaction with the experience of childbirth include labor pains, the feeling of being in control, perceived self-efficacy, social support, and the womanʼs own expectations of the birth [113], [114], [115], [116], [117]. Effective forms of pain relief do not necessarily result in a higher level of satisfaction with the birth experience [118], [119].

4.1  Approach to pain during birth

4.1.1  Attitudes to pain and pain management during birth

4.1.2  Strategies to cope with pain during labor (relaxation techniques, massage and relaxation bath)

4.2  Non-pharmacological interventions for pain relief and relaxation during labor [124], [125], [127], [128], [129], [130]

In addition to providing support during labor in the form of words of encouragement or helping her to move, women are offered a range of physical and complementary medicine pain therapies. The aim is not to eliminate the pain but to provide pain relief.

4.2.1  Further research required

The two Cochrane reviews ([140] on TENS and [141] the use of sterile water injections) focused on different methods for pain relief but defined different endpoints. If the endpoints formulated by Derry and colleagues in 2012 [141] with regard to pain relief are followed, then there should be more RCTs on methods of coping with pain which use these endpoints.

To obtain clear evidence for or against homeopathy, RCTs using a limited number of homeopathic substances and with comparable designs and endpoints should be carried out.

It is worth discussing whether the endpoint “pain relief” should be analyzed without the endpoint “satisfaction with the birth experience”.

4.3  Pharmacological measures

The following chapter references chapter 1.9 (“Pain relief in labour: regional analgesia”) of NICE guideline CG190. This chapter of the NICE guideline is mainly geared to the situation in Great Britain and focuses in detail on substances and means of application which, for historical reasons, are important in Great Britain. The transferability of those recommendations to the German healthcare system is limited, because some of the substances are not available (e.g., diamorphine = heroin) or in some places they have been replaced by other substances not explicitly recommended in the NICE guideline CG190 (e.g., meperidine instead of pethidine) or historically do not have the same perceived value in German obstetric practice due to the widespread availability of neuraxial anesthesia (EA, CSE) compared to Great Britain (e.g., nitrous oxide).

4.3.1  Epidural anesthesia

4.3.2  Nitrous oxide-oxygen mixtures [143], [144], [145]

4.3.3  Systemic opioids

5  Quality assurance for vaginal births

5.1  History

Quality assurance in obstetrics is considered the nucleus of quality control in the hospital-based sector in Germany. After the publication of the Munich perinatal study in 1975 [157], the use of perinatal surveys expanded rapidly in the old German federal states and the new federal states after reunification. The founding of the German National Institute for Quality in Healthcare in 2001 together with the introduction of the DRG billing system in hospitals created a national survey frame for quality assurance in obstetrics, and it has been centrally maintained and expanded ever since. Quality assurance of vaginal births accounts for a large part of the data, and 5 of 8 quality indicators for hospital-based statutory quality assurance currently refer to vaginal births [158].

After some preparations [159], the Society for Quality in Out-of-Hospital Births (QUAG e. V.) was set up in 1999 to cover the outpatient sector. It records the quality of out-of-hospital births in all of Germany. In the main, the recorded items resemble those used in the clinical perinatal surveys with the addition of the special features of out-of-hospital obstetrics and a consideration of the transition from the outpatient to the inpatient sector. In principle, the outcomes of births delivered in hospitals and births which occurred in out-of-hospital settings could be compared. Since 2015, QUAG e. V. which was specifically referenced in the German law regulating the remuneration paid to midwives (Hebammenhilfevertrag) [160], has been responsible for the external supervision of quality assurance in out-of-hospital obstetrics. The annual federal evaluations of the data collected for the out-of-hospital sector are freely available on the website of QUAG e. V. (www.quag.de).

5.2  Changes in the percentages of modes of birth over time

A cursory inspection of changes in the percentages of hospital births over the past decade shows that the percentage of caesarean sections increased until the year 2011 but has slightly decreased again after the introduction of a risk-adjusted indicator for caesarean sections in 2014. At the same time, the percentage of spontaneous deliveries increased very slightly from 2014 onwards (from 60.3% to 61.0%). But during the same period the percentage of vaginal-operative births rose steadily from 6.0% in 2008 to 6.9% in 2017 [158], [161], [162], [163].

5.3  Indicator-based quality assurance

5.3.1  Indicator-based quality assurance for the inpatient sector

Quality is typically measured using quality indicators. In statutory quality assurance in Germany, the following indicators are currently used to evaluate vaginal births and as starting points for quality improvement processes [158]:

• antenatal corticosteroid therapy for premature births with a prepartum in-hospital stay of at least two full days

• the ratio of observed-to-expected (O/E) rate of acidosis for mature singletons with determination of umbilical artery pH

• the ratio of observed-to-expected (O/E) rates of acidosis for premature singletons with determination of umbilical artery pH

• the presence of a pediatrician during premature births

• a critical-outcomes quality index for term-born newborns

• the ratio of observed-to-expected (O/E) rates of grade 3 or 4 perineal tears in spontaneous singleton births

• maternal mortality as part of the perinatal survey.

In addition,

• the ratio of observed-to-expected rates (O/E) of caesarean sections,

i.e., the risk-adjusted rate of caesarean sections, may also be considered as an indicator of whether there are too few vaginal births.

As part of the implementation of quality indicators relevant for planning purposes [164], the indicators

• antenatal corticosteroid therapy in premature infants with a prepartum in-hospital stay of at least two full days,

• the presence of a pediatrician during premature births, and

• a critical-outcomes quality index for term-born infants,

were selected as quality indicators which are important when planning a vaginal birth and, in accordance with the directive on quality indicators, they were first applied in practice using data from 2017.

5.3.2  Indicator-based quality assurance for the out-of-hospital sector

The current indicator for quality assurance in out-of-hospital obstetrics is the ratio of observed-to-expected rates of transfers during the birth from the planned out-of-hospital birth place [160]. Peer reviews and structured dialogs may be initiated to provide support with quality assurance to service providers working in the outpatient sector.

5.4  First attempts to create a form of inter-institutional indicator-based quality assurance

The Scientific Institute of the AOK (WIdO) developed further quality indicators for in-hospital vaginal births based on standard data for in-hospital births as part of its quality assurance project “Quality Assurance with Routine Data (QSR)”. These additional indicators also take account of follow-up events which occur following the initial stay in hospital for the birth [165].

5.5  Quality assurance of structural requirements with a special focus on staffing requirements

The German Quality Assurance Directive for Premature and Term-born Infants (QFR-RL) has developed statutory rules for the minimum standards of care which must be provided to certain pregnant women and to premature and term-born infants in Germany by hospitals registered under Sec.108 of the SGB V. The aim is ensure the quality of structures, processes and outcomes of care for premature and term-born neonates while also taking the accessibility of birth facilities across the country into account [166], [167], [168], [169], [170].

6  Appendix

6.1  Statements from the consultation process

6.1.1  Statement of the DGGG, ÖGGG, DEGUM

The professional societies of obstetricians (DGGG, ÖGGG, DEGUM) are of the opinion that the multidisciplinary care of pregnant women provided by midwives, obstetricians, pediatricians and anesthetists in the labor room is superior to the model of midwife-led out-of-hospital obstetric care, irrespective of classifications of risk, particularly as the available professional expertise and technical equipment can be provided within a very short space of time. It is not possible to predict all complications which may occur during birth and in the early puerperium with sufficient certainty, nor can their occurrence be prevented by cataloguing the risks. A transfer during the birth may considerably delay prompt intervention in an emergency. Comparable data such as those available in the UK from the Birthplace study are lacking for German-speaking countries. The issue of the safety of out-of-hospital obstetric care in German-speaking countries must therefore first be examined and evaluated in studies which involve both midwives and physicians and which are carried out based on a complete reporting of all births and their outcomes (including those which may start in an out-of-hospital setting and end in hospital).

6.1.2  Statement of the ÖGGG

Special vote by the OEGGG regarding the preamble to the AWMF S3 guideline “Vaginal Birth”

The representatives of the Austrian Society for Gynecology and Obstetrics agree with the statement by the German professional societies of obstetricians (DGGG, DEGUM, DGPM) about the information given to pregnant women if it is published in a prominent position in the guideline as a preamble:

Preamble:

The professional societies of obstetricians are of the opinion that the interdisciplinary care of pregnant women provided by midwives, obstetricians, pediatricians and anesthetists in hospital-based labor rooms is superior to the model of midwife-led out-of-hospital obstetric care, as all forms of expertise required to deal safely with any complications of the birth are available within a very short space of time.

Despite using a catalog of risks, many complications can still not be predicted with sufficient certainty.

A transfer, which is expected to occur for around one third of primipara, may delay prompt intervention in emergencies, endangering the pregnant woman and the unborn or newborn child.

Reasons to transfer a woman in labor include, in particular, failure to progress in labor, the need for effective analgesia for unmanageable labor pains, placental retention or placental remnants, a high loss of blood peripartum, complex childbirth injuries, and neonatal adaptation disorders.

The issue of the safety of out-of-hospital obstetrics in German-speaking countries should be prospectively investigated in studies involving both midwives and physicians and should include the complete recording of all births as well as the recording of perinatal and peripartum outcomes. As long as the results of an extensive examination of out-of-hospital obstetric outcomes are not available, the safety of this approach must remain in doubt.

Comparable data such as those available in the UK from the Birthplace study are lacking for German-speaking countries. Such data need to be recorded and should include births which began in an out-of-hospital setting and were concluded in hospital, irrespective of the out-of-hospital place of birth.

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Correspondence

Publication History

Received: 16 July 2022

Accepted after revision: 16 July 2022

Article published online:
03 November 2022

© 2022. Thieme. All rights reserved.

Georg Thieme Verlag KG
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