Critical evaluation of American categorization of fetal heart rate (FHR) decelerations and three tier classification—Shortcomings, contradictions, remedies and need for debate

Fetal heart rate (FHR) decelerations are the commonest aberrant feature on cardiotocograph (CTG) thus having a major influence on classification ofFHRpatterns into the three tier system. The unexplained paradox of early decelerations (head compression—an invariable phenomenon in labor) being extremely rare [1] should prompt a debate about scientific validity of current categorization. This paper demonstrates that there appear to be major fallacies in the pathophysiological hypothesis (cord compression—baroreceptor mechanism) underpinning of vast majority of (variable?) decelerations. Rapid decelerations during contractions with nadir matching peak of contractions are consistent with “pure” vagal reflex (head compression) rather than result of fetal blood pressure or oxygenation changes from cord compression. Hence, many American authors have reported that the abrupt FHR decelerations attributed to cord compression are actually due to head compression [2-6]. The paper debates if there are major fundamental fallacies in current categorization of FHR decelerations based concomitantly on rate of descent (reflecting putative aetiology?) and time relationship to contractions. Decelerations with consistently early timing (constituting majority) seem to get classed as “variable” because of rapid descent. A distorted unscientific categorization of FHR decelerations could lead to clinically unhelpful three tier classification system. Hence, the current unphysiological classification needs a fresh debate with consideration of alternative models and re-evaluation of clinical studies to test these. Open debate improves patient care and safety. The clue to benign reflex versus hypoxic nature of decelerations seems to be in the timing rather than the rate of descent. Although the likelihood of fetal hypxemia is related to depth and duration ofFHRdecelerations, the cut-offs are likely to be different for early/late/variable decelerations and it seems to be of paramount importance to get this discrimination right for useful visual or computerized system of CTG interpretation.

Interpretation of British experts’ illustrations of fetal heart rate (FHR) decelerations by Consultant Obstetricians, registrars and midwives: A prospective study—Reasons for major disagreement with experts and implications for clinical practice

Objective: To test the reproducibility of British experts’ (eFM, K2MS, Gibb and Arulkumaran) [1-3] illustrations of fetal heart rate (FHR) decelerations by trained British Obstetricians and midwives. To analyze reasons for any discrepancies by examining factors relating to the participants, British experts’ descriptions and NICE guidelines [4]. Design: Prospective observational study. Setting: National Health Service (NHS) Hospitals. Participants: 38 Obstetric Consultants, 49 registrars and 45 midwives. Methods: Printed questionnaire. Statistical Analysis: Fisher’s Exact test. Results: This largest study of its kind showed almost unbelievably high disconnect between CTG interpretation by experts and participants. 98% - 100% midwives, 80% - 100% Registrars and 74% - 100% Consultants categorized FHR decelerations differently from the five experts’ illustrations/interpretations (p < 0.0001). Remarkably, the three experts’ illustrations of early (supposedly most benign) decelerations were classed as atypical variable by 56% Consultants, 78% Registrars and 99% midwives and the CTGs as pathological by 85% of the participants. Conclusions: The high degree of disagreement with the experts’ illustrations (p < 0.0001) did not appear to be due to participant factors. The immediate reasons seemed to be the conflicting illustrations and heterogeneity of experts’ descriptions. But most importantly, these appeared to stem from non-standardized ambiguous definitions of FHR decelerations and many intrinsic systemic flaws in the current NICE guidelines [4]. The NICE concept of “true uniform” (identical) early and late decelerations seems biologically implausible (a myth) and no examples can be found. Another myth seems to be that early and late decelerations should be gradual. Only very shallow decelerations will look “gradual” on the British CTG. These systemic flaws lead to dysfunctional CTG interpretation increasing intervention as well as impairing diagnosis of fetal hypoxemia. This is because the vast majority of FHR decelerations fall in a single heterogeneous “variable” group with many further classed as “atypical” (pathological) based on disproven and discredited criteria [5-7]. There is increasing evidence in USA that a system with variable decelerations as the majority is clinically unhelpful because of loss of information [5-9]. In the interest of patient care and safety, open debate is necessary regarding a better way forward. Classification of FHR decelerations based primarily and solely on time relationship to contractions appears more scientific and clinically useful.

Imperative for improvements and international convergence of intrapartum fetal monitoring: A bird's eye view

Intrapartum fetal monitoring has been criticized for the lack of evidence of improvement in fetal outcome despite causing increased operative intervention. Paradoxically, cardiotocography （CTG） has been a major driver for litigation for neonatal neurological injury. This analytical review tries to explore why extensive clinical studies and trials over 50 years have failed to demonstrate or bring about signifcant improvement in intrapartum fetal monitoring. There seems a need for significant reform. International congruence on most aspects of CTG interpretation [defnitions of fetal heart rate （FHR） parameters, CTG recording speed, 3-tier systems, etc .] is highly desirable to facilitate future meaningful clinical studies, evaluation and progress in this field. The FHR changes are non-specific and poor surrogate for fetal well-being. As a compromise for maintaining low false-negative results for fetal acidemia, a high false-positive value may have to be accepted. The need for redefning the place of adjuvant tests of fetal well-being like fetal blood sampling or fetal electrocardiography （ECG） is discussed. The FHR decelerations are often deterministic （center-stage） in CTG interpretation and 3-tier categorization. It is discussed if their scientifc and physiological classifcation （avoiding framing and confirmation biases） may be best based on time relationship to uterine contractions alone. This may provide a more sound foundation which could improve the reliability and further evolution of 3-tier systems. Results of several trials of fetal ECG （STAN） have been inconclusive and a need for a fresh approach or strategy is considered. It is hoped that the long anticipated Computer-aided analysis of CTG will be more objective and reliable （overcome human factors） and will offer valuable support or may eventually replace visual CTG interpretation. In any case, the recording and archiving all CTGs digitally and testing cord blood gases routinely in every delivery would be highly desirable for future research. This would facilitate well designed retrospective studies which can be very informative especially when prospective randomised controlled trials are often diffcult and resource-intensive.

非Ⅲ级胎监胎心率基线变异消失时长与频率变化规律

目的探索非Ⅲ级胎监胎心率基线变异消失时长与频率变化规律。方法随机选取2020年1月至2023年5月规律产检并住院分娩的宫内单活胎孕妇2000例,依孕期是否有高危因素,分为高危组与低危组。孕28周开始行胎心监护,每天一次直至分娩,观察其基线变异消失时长与频率变化。结果孕28~40^(+6)周胎心率基线变异消失时长中位数:低危组为5.45~12.40 s/次、高危组为5.95~12.00 s/次;频率中位数:低危组为2.00~3.00次/20 min、高危组为2.00~3.00次/20 min。重复测量方差分析示:两组间胎心率基线变异消失时长与频率:时间效应、组间效应、交互效应差异均有统计学意义(P<0.05)。胎心率基线变异消失事件前12 h内:胎心率基线变异消失时长[M(P_(25),P_(75))]低危组为12.40(11.80,13.50)s/次,高危组为12.70(11.80,13.50)s/次;低危组与高危组胎心率基线变异消失频率[M(P_(25),P_(75))]均为4.00(3.00,5.00)次/20 min;重复测量方差分析示:两组间胎心率基线变异消失时长时间效应有统计学意义(P<0.05)。结论非Ⅲ级胎监胎心率基线变异消失是胎儿心率生理不成熟的表现,也受监测临床环境影响,胎儿越危险,其变异消失持续时间越长,当变异消失时长≥10 s/次,频率≥3次/20 min提示胎心率基线变异消失事件,需及时干预。

胎心仪产品服务体验优化设计策略与实践研究

随着人民对美好生活需求的日益增长,医疗康养产品设计成为设计研究的热点之一。本文以孕期胎心仪为例,对其开展体验优化的应用性设计研究。首先基于对孕妇群体的深度访谈,总结出两类典型用户画像;其后以服务可视化分析,寻找设计机会点,制订设计策略;最后完成胎心仪设计实践。实践表明,采用服务设计理念对胎心仪产品进行创新设计,能够形成具有深层特征的形态语言,完成体验结构的升级,能为相关产品的开发提供有益参考。

胎儿脐血流监测及胎心监护监测在高危妊娠中的预测价值

目的探讨高危妊娠应用胎儿脐血流监测及胎心监护监测的预测价值。方法回顾性分析2021年3月—2023年3月中国人民解放军空军特色医学中心妇产科收治的180例高危妊娠孕妇的临床资料,均开展胎儿脐血流监测和胎心监护监测。根据产前脐血流和胎心的监测结果,将研究对象分为甲组、乙组、丙组、丁组4组。对比4组的分娩指标(剖宫产、胎儿窘迫、脐带缠绕、羊水过少、胎粪污染、新生儿出生1 min内阿氏评分)、脐血流指标[脐动脉血流比值(systolic to diastolic velocity ratio,S/D)、脐动脉阻力指数(resistance index,RI)、脐动脉搏动指数(pulsatility index,PI)]。结果丁组剖宫产(79.17%)、胎儿窘迫(50.00%)、脐带缠绕(50.00%)、羊水过少(70.83%)、胎粪污染(100.00%)的不良分娩情况发生率最高,显著高于甲组、乙组,差异有统计学意义(P<0.05)。甲组新生儿出生1 min内阿氏评分8~10分比例显著高于乙组、丙组、丁组(P<0.05)。乙组和丙组新生儿出生1 min内阿氏评分8~10分比例均高于丁组(P<0.05)。丁组脐动脉血流指标(S/D值、RI、PI)高于甲组、乙组、丙组,差异有统计学意义(P<0.05)。结论对高危妊娠孕妇应用胎儿脐血流监测及胎心监护监测,可对不良妊娠结局提高预测准确性,有助于围产期的治疗与管理,减少不良分娩结局的产生,提高分娩质量。

基于物联网的胎心监护系统在孕晚期羊水量过少孕妇胎儿监测中的应用研究

目的:探讨基于物联网的胎心监护系统在孕晚期羊水量过少孕妇胎儿监测中的应用。方法:将2019年6月—2020年6月商丘市妇幼保健院产科收治的68例孕晚期羊水量过少孕妇设为对照组,将2020年7月—2021年7月收治的70例孕晚期羊水量过少孕妇设为观察组。对照组孕妇采用传统产前监护,观察组孕妇采用基于物联网的胎心监护系统实施监护。比较两组孕妇胎动异常发生率、新生儿无刺激性胎心监护(NST)异常检出率、孕妇不良妊娠结局及孕妇胎心监护满意度。结果:观察组新生儿NST异常检出率高于对照组,差异有统计学意义(U=9.992,P<0.05)。观察组胎动异常发生率比较,差异无统计学意义(χ^(2)=0.032,P>0.05)。观察组新生儿窒息发生率、早产发生率低于对照组,差异有统计学意义(χ^(2)=6.356、2.630,P<0.05);两组产妇不良妊娠结局中中转剖宫产率、新生儿吸入羊水发生率、产后出血发生率、术后感染发生率、新生儿缺血缺氧性脑病发生率比较,差异无统计学意义(χ^(2)=0.708、0.239、0.759、0.183、0.371,P>0.05)。观察组孕妇胎心监护满意度高于对照组,差异有统计学意义(χ^(2)=8.742,P<0.05)。结论:基于物联网的胎心监护系统可有效提高孕晚期羊水量过少孕妇胎儿的监测效果,有效降低孕妇不良妊娠结局发生率,提高孕妇胎心监护满意度。

产时胎心监护结合心理护理在分娩产妇中的应用

目的探讨产时胎心监护结合心理护理在分娩产妇中的应用效果。方法选取2016年11月至2020年11月在我院分娩的产妇126例,随机分为两组各63例。参照组产妇采用常规护理干预,观察组在参照组基础上采用产时胎心监护结合心理护理干预。比较两组的产妇并发症、新生儿1min Apgar评分以及新生儿不良事件。结果观察组产妇的并发症总发生率明显低于参照组,新生儿1min Apgar评分明显高于参照组,新生儿不良事件总发生率明显低于参照组(P<0.05)。结论产时胎心监护结合心理护理在分娩产妇中应用效果显著,可明显提高新生儿1minApgar评分,减少产妇并发症和新生儿不良事件的发生。

彩色多普勒血流成像联合胎心监护无负荷试验在孕晚期高危产妇胎儿宫内窘迫诊断中的效能

目的:探讨彩色多普勒血流成像(CDFI)联合胎心监护无负荷试验(NST)在孕晚期高危产妇胎儿宫内窘迫诊断中的效能。方法:回顾性分析2020年8月至2022年8月该院收治的108名孕晚期高危产妇的临床资料,入院后均行CDFI、NST检查,以产后结果为“金标准”,统计CDFI、NST单项及联合检查诊断孕晚期高危产妇发生胎儿宫内窘迫的结果,比较CDFI、NST单项及联合检查诊断孕晚期高危产妇发生胎儿宫内窘迫的效能。结果:产后结果显示,108名孕晚期高危产妇中,39名发生产前胎儿宫内窘迫;CDFI检查结果显示,25名发生产前胎儿宫内窘迫;NST检查结果显示,24名发生产前胎儿宫内窘迫;CDFI联合NST检查结果显示,38名发生产前胎儿宫内窘迫;CDFI、NST检查诊断孕晚期高危产妇发生胎儿宫内窘迫的灵敏度、特异度、准确度、漏诊率、误诊率、阳性预测值、阴性预测值比较,差异均无统计学意义(P>0.05);CDFI联合NST检查诊断孕晚期高危产妇发生胎儿宫内窘迫的灵敏度、准确度均高于二者单项检查,漏诊率低于二者单项检查,差异有统计学意义(P<0.05)。结论:CDFI联合NST检查诊断孕晚期高危产妇发生胎儿宫内窘迫的效能高于二者单项检查。

产时胎心监护联合针对性护理干预在分娩中的应用效果

目的:分析产时胎心监护联合针对性护理干预在分娩中的应用效果。方法:选取2021年3月—2023年3月于梧州市妇幼保健院分娩的产妇200例作为研究对象,随机分为观察组与对照组,各100例。对照组采用传统产时护理模式干预,观察组实施产时胎心监护联合针对性护理干预。比较两组新生儿窒息发生情况、阿普加(Apgar)评分及产妇护理满意度。结果:观察组新生儿窒息率低于对照组,差异有统计学意义(P=0.043);观察组新生儿出生1、5、10 min时Apgar评分高于对照组,差异有统计学意义(P<0.05);观察组产妇护理满意度高于对照组,差异有统计学意义(P=0.030)。结论:产时胎心监护联合针对性护理干预可降低新生儿窒息发生率,改善新生儿出生后身体情况,提高产妇护理满意度。

基于场景交互理论的家用胎心仪功能设计研究

通过“场景交互理论”分析家用胎心仪居家使用的环境适应性问题,对家用胎心仪的功能进行设计优化,提升双人监测的操作体验。基于场景交互理论内涵,将居家胎心监测语境下的角色识别细分为核心用户、辅助用户和周边用户,通过角色行为描述,发掘交互摩擦点,得出初级需求指标,通过AHP层级分析法计算,获取重要设计要求,最终从软硬件交互场景中系统性构建家用胎心仪的产品设计方案,为类似家用医疗产品的设计与开发提供借鉴。

The Efficacy of In-Phase and Quadrature Demodulation in Electronic Fetal Heart Rate Monitoring During Labor

Objective:To investigate the efficacy of in-phase and quadrature(IQ)demodulation in electronic fetal heart rate monitoring(EFM)to reduce false reports of fetal heart rate(FHR)doubling or halving.Methods:This is a prospective cohort study.A total of 263 full-term pregnant women who delivered at Peking University Shenzhen Hospital between August 2019 and July 2020 were prospectively enrolled in the study.FHR monitoring began when the cervix was dilated to 2-3 cm and continued until delivery.Raw fetal Doppler audio signals and internal and external cardiotocography curves from internal electrode monitoring,EFM with conventional demodulation(external),and EFM with IQ demodulation(external)were acquired to compare FHR doubling and halving time.In cohort 1,FHR was compared between IQ demodulation and conventional demodulation.In cohort 2,FHR was compared between IQ demodulation,conventional demodulation,and internal FHR monitoring.Count data were statistically analyzed using the Chi-squared test,and measurement data were statistically analyzed usingt-test for correlation coefficients,and Bland-Altman analysis for concordance ranges.Results:To compare IQ demodulation and conventional demodulation,225 pregnant women were monitored for a total of 835,870 seconds.The beat-to-beat interval of FHRs in raw fetal Doppler audio signals was used as the reference.The results showed a doubling time of 3401 seconds(0.407%,3401/835,870)and a halving time of 2918 seconds(0.349%,2918/835,870)with conventional demodulation,compared to 241 seconds(0.029%,241/835,870)and 589 seconds(0.070%,589/835,870),respectively,with IQ demodulation.IQ demodulation reduced FHR doubling by approximately 93%(3160/3401)and FHR halving by approximately 80%(2329/2918)compared to conventional demodulation(P<0.01).Conclusion:EFM with IQ demodulation significantly reduces false FHR doubling and halving,with an efficacy similar to that of internal FHR monitoring.

Monitoring Biosignals with Low Cost Wearable Sensors

With the increase of aging population, we have been witnessing a decline in the quality of life influenced by numerous social, cultural and economic factors. Several studies have addressed these facts and some emerging technologies are capable of monitoring and anticipating these problems. With the advance in the development of smart textiles, it＇s possible to use these technologies in the acquisition of biosignals, which allows obtaining a better comfort regarding the use of smart clothes over traditional Ag/AgCI electrodes. In this way, it is possible to monitor for longer periods reducing the discomfort to the user. This paper reports the development of a low cost sensor with the capability of monitoring the electrical activity of the heart, measuring the heart rate and body temperature and is applied in the scenario： health ＆ wellbeing, targeting the continuous measurement of vital signs.

孕晚期基于胎心监护的临床护理对胎儿窘迫及新生儿窒息发生情况的影响

目的探讨孕晚期基于胎心监护的临床护理对胎儿窘迫及新生儿窒息发生情况的影响。方法选取2020年2月至2021年8月我院收治的80例孕晚期孕妇作为研究对象,按照护理方法将其分为对照组与研究组,各40例。对照组实施常规护理+胎心监护,研究组在常规护理的基础上实施基于胎心监护的临床护理。比较两组的羊水污染、胎儿窘迫、新生儿窒息发生情况以及不良分娩结局。结果研究组的羊水污染总发生率、胎儿窘迫发生率及新生儿窒息总发生率、不良分娩结局总发生率低于对照组(P<0.05)。结论基于胎心监护的临床护理用于孕晚期孕妇的效果良好,可有效减少羊水污染、胎儿窘迫及新生儿窒息的发生,改善分娩结局,值得推广及应用。

基于BiEWT算法和谱估计的非接触式心率测量研究

传统非接触式心率测量采用快速傅里叶变换和峰值检测方法,存在易受环境噪声影响、测量结果波动较大、精度较低的问题。因此,提出一种二重经验小波变换(Binary Empirical Wavelet Trans⁃form,BiEWT)和功率谱估计(Power Spectrum Estimation,PSE)相结合的非接触毫米波雷达心率测量方法。BiEWT算法融合了自适应分解方法和引入先验知识的经验小波分解方法的优势。通过R-EWT提取去除与噪声相关的多尺度分析(Multiresolution Analysis,MRA)分量,并引入心率频率先验知识进行频点筛选。通过F-EWT进一步抑制残留噪声,重构出心跳信号。利用功率谱估计方法,计算被测人的心率。实验结果表明,该方法比单次高模数的EWT算法,注意力更集中于心率频率区间。比FFT+PD算法MAPE平均下降了1.74%,比WNR+PSE算法MAPE平均下降了1.18%。

超声检测脐动脉血流指标联合胎心监护评估重度先兆子痫围生儿预后的价值

目的探讨超声检测脐动脉血流指标联合胎心监护评估重度先兆子痫围生儿预后的价值。方法选择2018年5月至2022年3月我院收治的重度先兆子痫孕妇80例作为研究组,同期健康孕妇80例作为对照组,两组均行脐动脉血流超声检查及胎心监护,比较两组的脐动脉血流指标及围生儿预后。结果研究组的收缩期峰值流速/舒张末期血流速度(S/D)、搏动指数(PI)、阻力指数(RI)水平均高于对照组,早产、新生儿窒息、低体重儿发生率均高于对照组(P<0.05)。结论超声检测脐动脉血流指标联合胎心监护在重度先兆子痫中应用价值较高,有助于提高重度先兆子痫检出率,在评估围生儿预后中具有重要作用。

基于产时持续胎心监护的预见性护理干预对胎儿宫内窘迫的预防作用

目的检验对胎儿宫内窘迫产妇采用基于产时持续胎心监护的预见性护理干预的效果。方法从福建省莆田市仙游县总医院2018年1月至2021年12月诊疗的阴道试产产妇中抽取317例作为研究对象。其中以2018年1月至2019年12月诊疗的159名产妇为对照组,进行常规护理;以2020年1月至2021年12月诊疗的158名产妇为观察组,进行常规护理加基于产时持续胎心监护的预见性护理。对比两组新生儿结局及产后并发症发生率。结果观察组新生儿窒息发生率、胎儿窘迫发生率、产后并发症总发生率均低于对照组(均P<0.05)。结论在阴道试产产妇中用基于产时持续胎心监护的预见性护理干预,可改善新生儿结局,降低产妇产后并发症发生风险。

超声胎心监护用于判断全麻剖宫产胎儿取出时机的研究

目的探讨运用超声胎心监护技术选择全身麻醉下剖宫产术取出胎儿断脐的最佳时机。方法选择由美国麻醉医生协会(ASA)分级为Ⅰ~Ⅲ的需要在全身麻醉下行剖宫产术的产妇120例,随机分为胎心监测组(M组)和无胎心监测对照组(C组)两组,各组60例。两组均使用瑞芬太尼、苯磺酸顺阿曲库铵、咪达唑仑进行诱导插管,瑞芬太尼及右美托咪定麻醉维持。在产科医师手术操作到达腹膜时,M组在超声胎心监测下胎心率>120次/min时取出胎儿,C组到达腹膜时停止瑞芬太尼泵注后等待5 min,不给予胎心监护直接取出胎儿,之后两组均恢复常规全凭静脉麻醉。两组的观察指标均相同:胎儿脐动脉血血气分析数值、胎儿取出后1 min及5 min新生儿Apgar评分、新生儿的呼吸抑制情况:新生儿的面罩给氧率、气管插管率以及使用纳洛酮拮抗瑞芬太尼引起的呼吸抑制的比率;记录比较麻醉诱导开始前(T1)、气管导管插入后(T2)、手术医师切皮时(T3)、胎儿取出结扎脐带后(T4)4个时间点产妇的血流动力学指标。结果两组4个时间点(T1、2、3、4)的产妇血流动力学指标无明显差异(P>0.05)。M组新生儿面罩给氧率、气管插管率以及纳洛酮使用率均低于C组(P<0.05)。M组脐动脉血酸碱度(pH)比C组高,脐动脉血氧分压M组更高,脐动脉血二氧化碳分压对照组C组更高。M组胎儿1、5 min的Apgar评分高于C组(P<0.05)。结论运用超声下胎心监护技术,能有效减少全身麻醉下剖宫产术胎儿娩出后发生呼吸抑制的风险。

孕晚期NST可疑型胎儿的长程胎心监护特点分析

目的分析孕晚期无应激试验(NST)可疑型胎儿的长程胎心监护特点。方法选择2019年2月至2021年12月在汉中市中心医院建档的120例产妇作为研究对象。按照孕晚期NST的检测结果,将所有产妇分为研究组50例(NST可疑型)和对照组70例(NST反应型)。比较两组产妇的妊娠结局、胎心率基线、胎心率基线变异率、平均单位时间加速面积和心加速的时长比例。结果两组产妇的终止妊娠方式、终止妊娠天数、新生儿窒息率比较差异均无统计学意义(P>0.05);两组产妇的胎心监护有效时长、总时长比较差异均无统计学意义(P>0.05);研究组产妇的胎心率基线、轻度变异率、中等变异率分别为(138.09±5.67)次/min、51.18%、56.58%,明显多(高)于对照组的(135.09±5.40)次/min、40.79%、46.73%,差异均有统计学意义(P<0.05);研究组产妇的基线变异值为(5.18±1.09)次/min,明显小于对照组的(6.29±1.16)次/min,差异有统计学意义(P<0.05);两组产妇的显著变异率比较差异无统计学意义(P>0.05);研究组产妇的胎心加速时长比例的最大值与最小值分别为(29.63±5.62)%、(47.78±9.04)%,明显低于对照组的(32.85±7.91)%、(54.96±11.95)%,单位时间加速面积的最小值和最大值分别为(0.75±0.28)%、(2.76±0.63)%,明显低于对照组的(1.15±0.42)%、(4.91±1.05)%,差异均有统计学意义(P<0.05);研究组产妇的平均胎心加速时长比例和平均单位时间加速面积分别为(37.43±4.58)%、(1.41±0.47)cm^(2)/20 min,明显低于对照组(40.79±4.85)%、(2.05±0.68)cm^(2)/20 min,差异均有统计学意义(P<0.05)。结论孕晚期NST可疑型胎儿的长程胎心监护的特征为胎心率基线、轻度变异率、中等变异率均增加;基线变异值降低、轻度变异率增加和单位时间加速面积减少。

Antenatal Noninvasive Fetal Electrocardiography:A Literature Review

Fetal heart rate(FHR)monitoring is one of the central parts of obstetric care.Ultrasound-based technologies such as cardiotocography(CTG)remain the most common method for FHR monitoring.The CTG’s limitations,including subjective interpretation,high interobserver variability,and the need for skilled professionals,led to the development of computerized CTG(cCTG).While cCTG demonstrated advantages,its superiority over visual interpretation remains inconclusive.This has prompted the exploration of alternatives like noninvasive fetal electrocardiography(NIFECG).This review explores the landscape of antenatal FHR monitoring and the need for remote FHR monitoring in a patient-centered care model.Additionally,FHR monitoring needs to evolve from the traditional approach to incorporate artificial intelligence and machine learning.The review underscores the importance of aligning fetal monitoring with modern healthcare,leveraging artificial intelligence algorithms for accurate assessments,and enhancing patient engagement.The physiology of FHR variability(FHRV)is explained emphasizing its significance in assessing fetal well-being.Other measures of FHRV and their relevance are described.It delves into the promising realm of NIFECG,detailing its history and recent technological advancements.The potential advantages of NIFECG are objective FHR assessment,beat-to-beat variability,patient comfort,remote prolonged use,and less signal loss with increased maternal body mass index.Despite its promise,challenges such as signal loss must be addressed.The clinical application of NIFECG,its correlation with cCTG measures,and ongoing technological advancements are discussed.In conclusion,this review explores the evolution of antenatal FHR monitoring,emphasizing the potential of NIFECG in providing reliable,home-based monitoring solutions.Future research directions are outlined,urging longitudinal studies and evidence generation to establish NIFECG’s role in enhancing fetal well-being assessments during pregnancy.