A Performance Evaluation of Computerised Antepartum Fetal Heart Rate Monitoring: The Dawes-Redman Algorithm at Term

Gabriel Davis Jones, Beth Albert, William Cooke, Manu Vatish
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Abstract

Objectives: This study aims to rigorously evaluate the Dawes-Redman computerised cardiotocography algorithm's effectiveness in assessing antepartum fetal wellbeing. It focuses on analysing the algorithm's performance using extensive clinical data, examining accuracy, sensitivity, specificity, and predictive values in various scenarios. The objectives include assessing the algorithm's reliability in identifying fetal wellbeing across different risk prevalences, its efficacy in the context of temporal proximity to delivery, and its performance across ten specific adverse pregnancy outcomes. This comprehensive evaluation seeks to clarify the algorithm's utility and limitations in contemporary obstetric practice, particularly in high-risk pregnancy scenarios. Methods: Antepartum fetal heart rate recordings from term singleton pregnancies between 37 and 42 gestational weeks were extracted from the Oxford University Hospitals database, spanning 1991 to 2021. Traces with significant data gaps or incomplete Dawes-Redman analyses were excluded. For the ten adverse outcomes, only traces performed within 48 hours prior to delivery were considered, aligning with clinical decision-making practices. A healthy cohort was established using rigorous inclusion and exclusion criteria based on clinical indicators. Propensity score matching, controlling for gestational age and fetal sex, ensured balanced comparisons between healthy and adverse outcome cohorts. The Dawes-Redman algorithm's categorisation of FHR traces as either 'criteria met' (an indicator of wellbeing) or 'criteria not met' (indicating a need for further evaluation) informed the evaluation of predictive performance metrics. Performance was assessed using accuracy, sensitivity, specificity, and predictive values (PPV, NPV), adjusted for various risk prevalences. Results: 4,196 term antepartum FHR traces were identified, matched by fetal sex and gestational age. The Dawes-Redman algorithm showed a high sensitivity of 91.7% for detecting fetal wellbeing. However, specificity for adverse outcomes was low at 15.6%. The PPV varied with population prevalence, high in very low-risk settings (99.1%) and declined with increased risk. Temporal proximity to delivery indicated robust sensitivity (>91.0%). Specificity notably decreased over time, impacting the algorithm's discriminative power for identifying adverse outcomes. Across different adverse conditions, the algorithm's performance remained consistent, with high sensitivity but varying NPVs, confirming its utility in detecting fetal wellbeing rather than adverse outcomes. Conclusion: These findings reveal the Dawes-Redman algorithm is effective for detecting fetal wellbeing in term pregnancies, evidenced by its high sensitivity and PPV. However, its low specificity suggests limitations in its ability to identify fetuses at risk of adverse outcomes. The predictive accuracy of the algorithm is significantly affected by the prevalence of healthy pregnancies within the population. Clinical interpretation of FHR traces that do not satisfy the Dawes-Redman criteria should be approached with caution, as they do not necessarily correlate with heightened risk. While the algorithm proves reliable for its primary objective in low-risk contexts, the development of algorithms optimised for high-risk pregnancy scenarios remains an area for future enhancement.
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计算机化产前胎儿心率监测的性能评估:临产时的道斯-雷德曼算法
研究目的本研究旨在严格评估 Dawes-Redman 计算机化胎心造影算法在评估产前胎儿健康状况方面的有效性。研究重点是利用大量临床数据分析该算法的性能,检查各种情况下的准确性、灵敏度、特异性和预测值。目标包括评估该算法在不同风险发生率下识别胎儿健康状况的可靠性、在临近分娩的时间范围内的有效性以及在十种特定不良妊娠结局中的表现。这项综合评估旨在明确该算法在当代产科实践中的实用性和局限性,尤其是在高危妊娠情况下。方法从牛津大学医院的数据库中提取了37至42孕周的足月单胎孕妇的产前胎心率记录,时间跨度为1991年至2021年。排除了存在重大数据缺口或 Dawes-Redman 分析不完整的记录。对于十种不良结局,根据临床决策惯例,只考虑分娩前 48 小时内进行的追踪。根据临床指标,采用严格的纳入和排除标准建立了健康队列。倾向得分匹配控制了胎龄和胎儿性别,确保了健康组群和不良结果组群之间的平衡比较。Dawes-Redman 算法将 FHR 迹线分为 "符合标准"(健康指标)或 "不符合标准"(表明需要进一步评估)两类,为评估预测性能指标提供了依据。使用准确性、灵敏度、特异性和预测值(PPV、NPV)对性能进行评估,并根据各种风险发生率进行调整。结果根据胎儿性别和胎龄进行匹配后,共鉴定出 4196 个足月产前 FHR 迹线。Dawes-Redman 算法检测胎儿健康的灵敏度高达 91.7%。然而,不良结果的特异性较低,仅为 15.6%。PPV随人群患病率的变化而变化,在风险极低的情况下高(99.1%),随着风险的增加而下降。与分娩时间的临近度显示了较高的灵敏度(91.0%)。随着时间的推移,特异性明显下降,影响了该算法识别不良后果的鉴别力。在不同的不良情况下,该算法的表现保持一致,灵敏度高,但净现值各不相同,这证实了该算法在检测胎儿健康状况而非不良结局方面的实用性。结论这些研究结果表明,Dawes-Redman 算法具有较高的灵敏度和 PPV,可有效检测足月妊娠胎儿的健康状况。然而,该算法的特异性较低,表明其在识别有不良结局风险的胎儿方面存在局限性。该算法的预测准确性在很大程度上受到人群中健康孕妇比例的影响。临床解释不符合 Dawes-Redman 标准的 FHR 迹线时应谨慎,因为它们并不一定与高风险相关。虽然该算法在低风险情况下的主要目标被证明是可靠的,但针对高风险妊娠情况优化算法的开发仍是未来需要改进的领域。
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