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Partogram

A partogram, also spelled partograph, is a composite graphical record of key maternal and fetal data during labor, plotted against time on a single sheet to monitor progress and detect complications early.^[1] Developed originally in 1954 by Emanuel A. Friedman, who introduced the concept of plotting cervical dilatation against time to analyze labor patterns, it evolved from earlier cervicographic methods into a practical tool for clinical use.^[2]^[1] The partogram's core components include assessments of labor progress—such as cervical dilatation, fetal head descent, and uterine contractions—as well as fetal well-being indicators like heart rate, amniotic fluid characteristics, and skull molding, alongside maternal vital signs including pulse, blood pressure, temperature, and urine analysis.^[1] It features alert and action lines to signal deviations: the alert line indicates the slowest acceptable progress (typically 1 cm/hour after 4 cm dilatation), while crossing the action line prompts interventions like augmentation or referral.^[1] Originally based on observations from over 500 labors, Friedman's sigmoid curve informed the tool's design, emphasizing the active phase of labor starting at 3-4 cm dilatation.^[2]^[3] The World Health Organization (WHO) adopted and modified the partogram in 1987 as part of its Safe Motherhood Initiative to prevent obstructed labor in resource-limited settings, releasing versions including a composite form (starting at 0 cm dilatation), a modified form in 2000 (starting at 4 cm, excluding latent phase), and a simplified color-coded variant (green for normal, yellow for caution, red for urgency).^[1] WHO recommended its universal use for active labor management, as it reduces prolonged labor risks and improves outcomes in low-resource areas by facilitating timely decisions.^[1] Studies have shown proper partogram use correlates with fewer cesareans and better maternal-fetal monitoring.^[1] In 2020, WHO introduced the Labour Care Guide (LCG) as an updated tool that revises and replaces the traditional partogram, incorporating contemporary evidence on labor stages, respectful care, shared decision-making, and elements like maternal hydration, analgesia, and companionship to align with human-centered maternity practices.^[4]^[5] The LCG extends monitoring to the second stage of labor, adds an alert column for abnormalities, and has demonstrated reductions in unnecessary interventions in trials, reflecting shifts from rigid timelines to individualized care.^[5]^[3] Despite these advancements, the partogram remains a foundational, low-cost instrument in global obstetrics, particularly where digital alternatives are unavailable.^[6]

Overview

Definition and Purpose

A partogram, also spelled partograph, is a pre-printed graphical tool that provides a composite record of key maternal and fetal data plotted against time on a single sheet during the active phase of labor and delivery.^[7] This visual representation allows healthcare providers to track essential observations, such as cervical dilatation, fetal heart rate, and maternal vital signs, in relation to the progression of labor.^[8] The primary purpose of the partogram is to monitor the progress of labor in real time, enabling the early identification of deviations from normal patterns, including prolonged labor or signs of fetal distress.^[9] By facilitating prompt recognition of abnormalities, it supports timely clinical interventions, such as augmentation of labor or referral to higher-level care, ultimately aiming to reduce maternal and perinatal morbidity and mortality.^[6] At its core, the partogram features a time scale along the x-axis and progress indicators, such as cervical dilatation in centimeters, along the y-axis, which aids in visualizing labor dynamics on a standardized chart.^[10] This design emphasizes active management approaches, extending to the third stage of labor to ensure comprehensive oversight during childbirth. The tool's foundational concept traces back to Emanuel Friedman's 1954 introduction of graphical labor analysis.^[1]

History

The partogram originated from the pioneering work of American obstetrician Emanuel Friedman, who in 1954 published a graphical analysis of labor progress based on retrospective data from over 500 labors at Sloane Hospital for Women. This introduced the concept of plotting cervical dilation against time to create an S-shaped curve representing normal labor progression, serving as an early tool for identifying deviations that might indicate dystocia. Friedman's cervicograph laid the foundational framework for visual labor monitoring, emphasizing the latent and active phases of the first stage of labor.^[2] Building on Friedman's curve, British obstetrician Robert Hugh Philpott adapted the tool in 1972 while working in low-resource settings in Malawi, where access to specialist care was limited. Philpott's modifications transformed the cervicograph into a practical partogram by incorporating an "alert line" (drawn at 1 cm/hour cervical dilation starting from 4 cm) to signal potential delays and an "action line" (parallel, 4 hours to the right) to prompt interventions like transfer to higher-level care or augmentation. These innovations, detailed in two seminal papers, aimed to empower midwives in detecting abnormal labor early and reducing maternal and perinatal risks in resource-constrained environments.^[11]^[12] In 1994, the World Health Organization (WHO) endorsed a simplified composite partogram for global use as part of its Safe Motherhood Initiative, following a multicenter trial in Southeast Asia involving 35,484 women that demonstrated improved labor outcomes through standardized monitoring. This version integrated maternal and fetal observations into a single chart and was recommended in WHO's "Managing Complications in Pregnancy and Childbirth" guidelines to prevent prolonged labor and obstructed delivery. The tool gained widespread adoption through integration into WHO and International Federation of Gynecology and Obstetrics (FIGO) training programs for midwives and obstetricians, particularly in developing countries.^[13] Studies from the 1990s and 2000s highlighted the partogram's impact, showing reduced cesarean section rates, alongside lower incidences of prolonged labor and oxytocin use. By the 2000s, however, critiques emerged regarding the partogram's reliance on Friedman's outdated norms, which underrepresented normal labor variations in contemporary populations, prompting revisions toward more flexible models like the Zhang curve to better align with diverse physiological patterns.^[14]

Components of the Traditional Partogram

Graphical Elements

The traditional partogram is structured around a graphical chart that visually tracks labor progress through key axes and reference lines. The horizontal time axis serves as the primary x-axis, commencing from the time of admission or the onset of active labor (typically at 4 cm cervical dilation in the WHO modified version), and extending outward in hourly increments, often marked at 30-minute intervals to allow precise temporal recording.^[1]^[15] A defining feature is the alert line, a diagonal reference line originating at 4 cm dilation on the y-axis at time zero and progressing to 10 cm dilation at a slope of 1 cm per hour, delineating the expected minimum rate of cervical dilation for normal labor progression.^[1]^[15] The action line runs parallel to the alert line but is offset 4 hours to the right, establishing a critical boundary; labor trajectories crossing this line signal potential delay and the need for expedited evaluation or intervention.^[1]^[15] The y-axis for cervical dilation spans from 0 to 10 cm, providing a vertical scale against which labor progress is plotted using 'X' symbols at the times of successive vaginal examinations to monitor dilation over time.^[1] Complementary scales assess fetal positioning: descent of the fetal head is represented on a vertical scale from 5 (head high and not engaged, 5/5 palpable above the pelvic brim) to 0 (head at the level of the ischial spines), plotted with 'O' marks aligned with examination times.^[16]^[1] Molding, indicating compression of the fetal skull bones, is graded on an adjacent scale from 0 (no overlap of sutures) to +++ (severe overlapping), offering insight into the adaptability of the fetal head to the maternal pelvis.^[16]^[1] The WHO partogram initiates graphical plotting at 4 cm cervical dilation to emphasize monitoring during the active phase of labor, excluding the latent phase for focused clinical utility.^[1]

Recorded Observations

The traditional partogram serves as a comprehensive tool for documenting key maternal, fetal, and labor-related parameters during the active phase of labor, beginning when cervical dilation reaches 4 cm. These observations are plotted in real-time to form a continuous visual record that facilitates ongoing assessment of labor progress and wellbeing.^[1] Maternal parameters include vital signs such as pulse, blood pressure, and temperature, which are typically recorded every four hours to monitor for signs of distress like infection or hemorrhage. Urine output and volume are also documented every four hours, often with tests for protein and acetone to detect potential complications like preeclampsia or ketosis. Additionally, the use of oxytocin, other drugs administered, and intravenous fluids are noted to track interventions that may influence labor dynamics.^[1]^[15] Fetal parameters focus on wellbeing and include heart rate, which is plotted every 30 minutes using a scale of 100-180 beats per minute to identify abnormalities such as tachycardia or bradycardia. The color and characteristics of the amniotic fluid—such as clear, meconium-stained, or blood-stained—are recorded every four hours after membrane rupture, with notations for intact membranes or absence of liquor. Molding of the fetal head is assessed and scored every four hours (from 0 for separated bones to +++ for non-reducible overlap), while caput succedaneum (swelling of the fetal scalp) is noted as part of cervical and fetal status evaluation.^[1]^[17]^[15] Labor progress parameters encompass cervical dilation, plotted with an "x" every four hours from 0 to 10 cm, and fetal station or descent, marked with an "O" every four hours using the rule of fifths (from 5/5 above the pelvic brim to 0 at the ischial spines). Uterine contractions are evaluated every 30 minutes in the active phase, recording frequency (typically 2-5 in 10 minutes) and intensity (duration: <20 seconds, 20-40 seconds, or >40 seconds). In the latent phase, observations occur every four hours, while active labor requires entries every 30 minutes for critical parameters like fetal heart rate and contractions. These recordings contribute to evaluating progress against alert and action lines on the partogram.^[1]^[17]

Usage and Interpretation

Plotting the Partogram

The process of plotting a traditional partogram begins upon admission to the labor ward or at the end of the latent phase, typically when cervical dilation reaches 4 cm, marking the onset of active labor. At initiation, essential patient details such as name, parity, gestational age, date, and time of admission are pre-filled in the designated sections of the partogram to establish a baseline record. This ensures accurate tracking and avoids confusion in clinical handover. Plotting prior to active labor is discouraged, as it may lead to false alerts regarding progress and unnecessary interventions.^[18]^[17] To maintain vigilant monitoring, observations are recorded at standardized intervals: fetal heart rate every 30 minutes, maternal pulse every 30 minutes, blood pressure every 4 hours, temperature every 2 hours, contractions every 30 minutes, and vaginal examinations for cervical dilation and fetal head descent every 4 hours or as clinically indicated. Amniotic fluid status and moulding are assessed initially and repeated every 4 hours if membranes are ruptured. These frequencies allow for timely detection of deviations while minimizing unnecessary examinations that could increase infection risk.^[18]^[15] The plotting technique employs simple graphical symbols to visualize trends over time, plotted against a timeline starting from admission or active labor onset. Cervical dilation is marked with an "X" on the cervicograph scale (0-10 cm), fetal heart rate (a key parameter ranging 110-160 beats per minute normally) with dots on its dedicated axis, contractions with shaded blocks indicating frequency and duration per 10-minute period, and head descent with an "O" based on abdominal palpation (rule of fifths). Connecting sequential points with straight lines reveals progress patterns, such as alignment with the alert line (1 cm/hour from 4 cm). Abnormalities, like fetal distress indicated by heart rate excursions, are color-coded—often in red—to highlight urgency.^[18]^[17]^[1] The specific steps for plotting ensure systematic documentation: first, assess the stage of labor through initial vaginal examination to confirm active phase entry; second, establish the baseline by plotting the initial dilation and other observations at time zero; third, update the chart continuously with each scheduled observation, transferring any latent phase notes if applicable; and fourth, apply color-coding to flag deviations, such as red markings for tachycardia or bradycardia. This methodical approach supports real-time clinical oversight without overwhelming the healthcare provider.^[18]^[17]

Clinical Actions Based on the Partogram

When labor progress remains to the left of the alert line on the partogram, it indicates normal advancement, and clinical management involves continued routine monitoring of maternal vital signs, fetal heart rate, and contraction patterns without immediate intervention.^[17] If the labor curve crosses the alert line, signaling potential prolonged labor, the clinician should reassess for underlying causes such as inadequate uterine contractions or malposition, and consider labor augmentation if contractions are fewer than five in ten minutes, per WHO guidelines on intrapartum care.^[19] Augmentation typically involves intravenous oxytocin, starting at a low dose and titrating based on response, while ensuring fetal well-being is maintained through continuous monitoring.^[19] Crossing the action line, which is positioned four hours to the right of the alert line, represents a critical deviation requiring urgent action, including transfer to a facility with comprehensive emergency obstetric care and consideration of interventions such as augmentation or preparation for cesarean section if progress does not improve after assessment.^[17]^[20] This breach is associated with increased risk of maternal or perinatal complications, such as obstructed labor or fetal distress, according to studies evaluating partogram efficacy.^[20] In cases of fetal distress indicated by abnormal heart rate patterns on the partogram (e.g., less than 110 beats per minute or greater than 160 beats per minute), immediate interventions include stopping oxytocin infusion if in use, administering supplemental oxygen to the mother, and repositioning her to the left lateral decubitus to improve uteroplacental perfusion.^[19] If these measures do not resolve the abnormality, expedited delivery via cesarean section may be necessary.^[19] Clinical decisions based on partogram trends should involve multidisciplinary review, including obstetricians, midwives, and neonatologists, to ensure evidence-based interventions and optimal outcomes.^[19]

Benefits and Limitations

Advantages

The partogram facilitates early detection of prolonged labor and fetal distress by providing a visual representation of labor progress against established norms, enabling timely clinical interventions to mitigate risks. In a multicenter randomized controlled trial conducted by the World Health Organization across five countries, implementation of the partogram with a standardized labor management protocol reduced the incidence of prolonged labor from 6.4% to 3.4% and the rate of intrapartum stillbirth from 0.5% to 0.3%.^[21] This approach has been associated with lower maternal mortality through prevention of obstructed labor, which accounts for approximately 2% of global maternal deaths, particularly in low- and middle-income countries.^[22] By standardizing the recording and interpretation of key labor parameters such as cervical dilation, fetal heart rate, and maternal vital signs, the partogram promotes consistent monitoring and decision-making across healthcare providers, reducing variations in care that can lead to unnecessary interventions. A Cochrane systematic review of randomized and quasi-randomized trials found that partogram use compared to a labour scale was linked to a decrease in oxytocin augmentation (risk ratio 0.32, 95% CI 0.18 to 0.54; 1 trial, 122 women) and, in some included studies, a 10-15% relative reduction in emergency cesarean sections for failure to progress.^[23] These effects contribute to shorter overall labor durations and lower rates of postpartum infections, as evidenced by reduced prolonged labor exposure in meta-analyzed data.^[23] The partogram's simple, single-sheet graphical format enhances resource efficiency, especially in low-resource settings where access to advanced monitoring equipment is limited, by consolidating all essential observations into one accessible tool that supports quick assessments and handover communication among teams. The World Health Organization endorses its routine use in such environments to optimize labor care without requiring additional infrastructure.^[21] In implementations following the WHO 1994 partogram design, particularly in resource-constrained regions like sub-Saharan Africa, it has been linked to improved perinatal outcomes, including a noted association with lower stillbirth rates through better detection of abnormalities.^[21]

Limitations

The traditional partogram is not suitable for monitoring the latent phase of labor if it exceeds 8 hours, as its design assumes plotting begins in the active phase at approximately 4 cm cervical dilatation to avoid potential misinterpretation and unnecessary interventions.^[6] It is also inapplicable to cases involving abnormal fetal presentations, such as breech or transverse lie, or preterm labor before 37 weeks gestation, where labor progression patterns deviate significantly from those in term, cephalic presentations, potentially leading to inaccurate assessments.^[17] Effective implementation of the partogram demands specialized training for healthcare providers, yet errors in plotting—such as incorrect recording of cervical dilatation or fetal heart rate—have been documented in studies, with misuse rates reaching approximately 30% in certain low-resource facilities due to inconsistent skills or high workloads.^[24] The alert and action lines rely on a standardized 1 cm per hour cervical dilatation rate, which overlooks physiological variations, including slower initial progress in nulliparous women (approximately 0.6 cm/hour at the 95th percentile) compared to multiparous women (approximately 1.0 cm/hour), potentially misclassifying normal labors as abnormal.^[25]^[1] In low-resource settings, the paper-based format of the traditional partogram is susceptible to physical loss, incomplete documentation, or inaccuracies from manual entry, exacerbating challenges in busy environments.^[26] Furthermore, over-reliance on its graphical thresholds can diminish the role of holistic clinical judgment, such as evaluating maternal well-being or fetal status beyond plotted metrics.^[27] Critiques from the 2010s, including those by Albers emphasizing physiologic labor durations in low-risk women, have highlighted that the alert line's rigidity often prompts premature interventions like augmentation, increasing rates of cesarean sections without clear benefits.^[28]

Digital Partogram

Key Features

Digital partograms are electronic adaptations of the traditional paper-based tool, implemented as mobile applications and integrated hospital software that enable automatic plotting of labor progress on tablets and smartphones. For instance, the ePartogram app, a tablet-based system, allows clinicians to input data via touchscreen interfaces to generate real-time graphical representations of cervical dilation, fetal descent, and other vital parameters. Similarly, the DAKSH mobile application supports auto-plotting of observations with color-coded alert lines to visualize deviations from normal labor progression.^[29]^[30] These digital formats integrate seamlessly with clinical workflows through features like real-time data entry on touchscreens, automated alerts for abnormal trends such as prolonged labor or fetal distress, and connectivity to electronic health records for comprehensive patient data management. The ePartogram, for example, includes pop-up notifications to flag when labor crosses the alert line, prompting timely interventions, while hospital systems like MEDITECH's Labor and Delivery module link partogram data directly to broader EHR platforms for shared access across care teams. In contrast to manual plotting on traditional partograms, this integration reduces entry errors and supports multi-patient monitoring via centralized dashboards.^[29]^[31]^[32] Automation in digital partograms encompasses built-in algorithms for calculating labor progress rates, such as cervical dilation velocity, along with scheduled reminders for vital sign checks and multilingual interfaces to accommodate diverse healthcare settings. Applications like Janitri's digital monitoring software automatically compute progress metrics and issue reminders for observations like maternal pulse or fetal heart rate.^[33] Accessibility is enhanced through cloud-based architectures that facilitate remote data sharing among providers, enabling telemedicine consultations during labor. WHO-compatible digital templates, such as those in the ePartogram and similar tools, have been available since the early 2010s, promoting standardized monitoring in resource-limited environments.^[29]^[31] Development of digital partograms began with early pilots in the 2010s, including the ePartogram's testing in Zanzibar, Tanzania, in 2015, and initiatives in India such as the arcPartograph application piloted in labor rooms starting in 2022. These efforts have evolved into widely used apps like the Safe Delivery App, which supports frontline workers in low-resource settings with guidelines for labor and delivery management. A 2025 scoping review highlights ongoing innovations in digital partograph technologies that continue to improve labor documentation and outcomes globally.^[29]^[34]^[35]^[36]

Implementation Advantages

The implementation of digital partograms offers significant advantages over traditional paper-based versions, particularly in enhancing accuracy and efficiency during labor monitoring. Auto-validation features, such as automated data entry and real-time alerts for abnormalities, substantially mitigate errors in plotting and documentation that are common with manual methods. For instance, studies have shown that electronic partograms increase adherence to plotting from as low as 30% to over 90%, thereby reducing inconsistencies and delays in labor assessment.^[37]^[26] Beyond error reduction, digital partograms facilitate advanced data analysis capabilities that support retrospective audits and long-term trend tracking, enabling healthcare facilities to identify patterns in labor outcomes and implement quality improvement initiatives. Stored digital records allow for seamless extraction of aggregated data, which can inform institutional protocols and resource allocation without the loss or degradation associated with paper forms. This analytical edge has been highlighted in scoping reviews as a key factor in optimizing obstetric care delivery.^[26] Accountability is further strengthened through features like automatic timestamps on entries and user logs, which create verifiable audit trails and discourage falsification of records. Real-time sharing options across devices promote better team coordination, ensuring that multidisciplinary staff can access up-to-date information instantly during critical moments in labor. These elements contribute to higher compliance rates among skilled birth attendants, with user acceptance reaching 93% after minimal training periods.^[26] In resource-limited settings, digital partograms enhance availability through mobile-compatible interfaces that support offline functionality, allowing use in rural or low-connectivity areas without compromising core monitoring features. User-friendly designs also simplify training for healthcare workers, reducing the learning curve compared to manual plotting and enabling quicker adoption in diverse clinical environments.^[26] Clinical evidence underscores these implementation benefits, with multiple studies demonstrating improved maternal and perinatal outcomes. A 2024 scoping review reported reductions in cesarean section rates, such as from 43% to 37% in one facility and 36% to 25% in another, alongside shorter labor durations—prolonged labor decreased from 42% to 29% and 30% to 7% across implementations. Overall, electronic partograms were associated with a 56% lower likelihood of suboptimal fetal outcomes compared to paper versions.^[26]^[38]

Evolution and Modern Standards

Introduction to the WHO Labour Care Guide

The World Health Organization (WHO) introduced the Labour Care Guide (LCG) in December 2020 as a woman-centered tool designed to monitor labour and childbirth, succeeding the traditional partogram, which was first developed and promoted by WHO in 1987 as part of its Safe Motherhood Initiative.^[21]^[39] This update reflects evolving evidence on intrapartum care, aiming to shift from rigid graphical tracking to a more holistic approach that prioritizes the well-being of the woman and her newborn.^[40] The primary purpose of the LCG is to facilitate respectful, evidence-based care throughout labour, emphasizing three key areas: respectful maternity care, monitoring the progress of labour, and support from companions.^[39] By integrating these elements, the guide promotes shared decision-making between health providers and women, reduces unnecessary interventions, and enhances overall satisfaction with the birthing experience.^[40] Structurally, the LCG is a concise two-page document featuring checkpoints for essential assessments, including vital signs, fetal well-being, labour progression, and emotional support, without the alert and action lines characteristic of the traditional partogram.^[39] This design allows for flexible, individualized monitoring tailored to diverse clinical settings and cultural contexts, making it adaptable for use by skilled health personnel worldwide.^[41] The LCG was developed based on international trials and consultations beginning in 2018, which demonstrated improved user satisfaction among health providers and better maternal and fetal outcomes compared to earlier tools, including reduced rates of caesarean sections and labour augmentation.^[40] It was released in 2020 to support the implementation of WHO's 2018 intrapartum care recommendations, with a user's manual published in 2021, and received endorsement from the International Federation of Gynecology and Obstetrics (FIGO) in 2025 as the preferred global standard for labour monitoring.^[19]^[39]^[5]

Differences from the Traditional Partogram

The WHO Labour Care Guide (LCG) represents a significant evolution from the traditional partogram by shifting the emphasis from rigid, graph-based tracking of labor progress to a more holistic, woman-centered approach that integrates the woman's preferences, companion involvement, and overall well-being during childbirth. Whereas the traditional partogram primarily focuses on plotting cervical dilatation and fetal descent against fixed timelines to detect deviations early, the LCG promotes collaborative decision-making and supportive care elements such as hydration, mobility, and pain management, which are notably absent in the partogram's structure. This change aligns with contemporary evidence prioritizing individualized care over standardized protocols.^[4]^[6] A key structural difference is the elimination of the alert and action lines present in the traditional partogram, which were based on an arbitrary 1 cm/hour cervical dilatation rate and often led to over-intervention through unnecessary augmentations or cesareans. In contrast, the LCG employs flexible, evidence-based progress assessments, recommending cervical dilatation rates of 0.5-1 cm/hour during the active phase (starting at 5 cm dilatation rather than 4 cm) and incorporating time limits per centimeter derived from the 95th percentile of normal labor durations. This simpler, shorter format—organized into seven sections including woman-centered supportive care and second-stage monitoring—reduces the risk of premature clinical actions while maintaining safety, as demonstrated in multicountry evaluations where the LCG facilitated 91.6% spontaneous vaginal births and low stillbirth rates (1.63 per 1,000).^[4]^[6]^[42] The LCG also integrates 2020s evidence on respectful maternity care, emphasizing communication, consent, and emotional support to address issues like disrespect and abuse, which the traditional partogram overlooked in its focus on physiological metrics. Its design is inherently digital-friendly, supporting adaptation into mobile apps for real-time recording, unlike the paper-based partogram. Clinical trials from 2021-2024, including a stepped-wedge cluster-randomized study in India, have shown the LCG reduces unnecessary oxytocin augmentation by up to 18% and primary cesarean rates by approximately 50% in some settings, while preserving maternal and neonatal safety without increasing adverse outcomes. These advancements position the LCG as a bridge to digital tools, enhancing equitable and compassionate intrapartum care.^[43]^[44]^[45]

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Mar 22, 2021 · These WHO recommendations include new definitions and durations of the first and second stages of labour, and they highlight the importance of ...<|control11|><|separator|>
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[PDF] WHO Labour Care Guide - USER'S MANUAL - fogsi
Jul 6, 2020 · How to complete Section 1: Identifying information and labour characteristics at admission. 8. How to complete Section 2: Supportive care. 9.
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Usability, acceptability, and feasibility of the World Health Organization Labour Care Guide: A mixed-methods, multicountry evaluation - PubMed
### Summary of Findings from the 2021 Multicountry Evaluation of the WHO Labour Care Guide (LCG)
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https://www.who.int/publications/i/item/9789240017560
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Effects of the WHO Labour Care Guide on cesarean section in India
Jan 30, 2024 · In this pilot trial, we aimed to evaluate the effects of implementing the LCG strategy, as compared to routine intrapartum care; the latter ...Missing: digital partogram
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Effectiveness Of Who Labour Care Guide in Reducing Primary ...
May 16, 2025 · The WHO Labour Care Guide significantly reduces primary caesarean deliveries and improves maternal outcomes without compromising neonatal safety.