Cardiotocography and beyond: a review of one-dimensional Doppler ultrasound application in fetal monitoring

One-dimensional Doppler ultrasound (1D-DUS) provides a low-cost and simple method for acquiring a rich signal for use in cardiovascular screening. However, despite the use of 1D-DUS in cardiotocography (CTG) for decades, there are still challenges that limit the effectiveness of its users in reducing fetal and neonatal morbidities and mortalities. This is partly due to the noisy, transient, complex and nonstationary nature of the 1D-DUS signals. Current challenges also include lack of efficient signal quality metrics, insufficient signal processing techniques for extraction of fetal heart rate and other vital parameters with adequate temporal resolution, and lack of appropriate clinical decision support for CTG and Doppler interpretation. Moreover, the almost complete lack of open research in both hardware and software in this field, as well as commercial pressures to market the much more expensive and difficult to use Doppler imaging devices, has hampered innovation. This paper reviews the basics of fetal cardiac function, 1D-DUS signal generation and processing, its application in fetal monitoring and assessment of fetal development and wellbeing. It also provides recommendations for future development of signal processing and modeling approaches, to improve the application of 1D-DUS in fetal monitoring, as well as the need for annotated open databases.

[1]  D. Hoyer,et al.  Human fetal heart rate variability-characteristics of autonomic regulation in the third trimester of gestation , 2008, Journal of perinatal medicine.

[2]  K. Maeda Computerized analysis of cardiotocograms and fetal movements. , 1990, Bailliere's clinical obstetrics and gynaecology.

[3]  N Athayde,et al.  The fetal cardiac isovolumetric contraction time in normal pregnancy and in pregnancy with placental vascular disease: the first clinical report using a new ultrasound technique , 2001, BJOG : an international journal of obstetrics and gynaecology.

[4]  M. Sherman,et al.  Interventions for perinatal hypoxic-ischemic encephalopathy. , 1998, Pediatrics.

[5]  Joseph Picone,et al.  Hybrid SVM/HMM architectures for speech recognition , 2000, INTERSPEECH.

[6]  Janusz Jezewski,et al.  Extraction of Fetal Heart-Rate Signal as the Time Event Series From Evenly Sampled Data Acquired Using Doppler Ultrasound Technique , 2008, IEEE Transactions on Biomedical Engineering.

[7]  M. Druzin,et al.  The relationship of the nonstress test to gestational age. , 1985, American journal of obstetrics and gynecology.

[8]  Jean-Marc Girault,et al.  Robust estimation of fetal heart rate from US Doppler signals , 2010 .

[9]  Marimuthu Palaniswami,et al.  Estimating fetal gestational age using cardiac valve intervals , 2016, 2016 Computing in Cardiology Conference (CinC).

[10]  C. Kouskouti,et al.  Cardiotocography and the evolution into computerised cardiotocography in the management of intrauterine growth restriction , 2017, Archives of Gynecology and Obstetrics.

[11]  G Magenes,et al.  Comparison between Fetal Heart Rate Standard Parameters and Complexity Indexes for the Identification of Severe Intrauterine Growth Restriction , 2007, Methods of Information in Medicine.

[12]  Marimuthu Palaniswami,et al.  Quantifying the Interactions between Maternal and Fetal Heart Rates by Transfer Entropy , 2015, PloS one.

[13]  Otto W. Witte,et al.  Assessment of fetal maturation age by heart rate variability measures using random forest methodology , 2016, Comput. Biol. Medicine.

[14]  Silvia Hostettler,et al.  Technologies for Development. What is Essential , 2015 .

[15]  Tsuyoshi Koga,et al.  A New Ultrasound Technique to Measure the Isovolumetric Contraction Time as an Index of Cardiac Contractility: Fetal Lamb Validation , 2003, Journal of the Society for Gynecologic Investigation.

[16]  M B Sampson Antepartum measurement of the preejection period in high-risk pregnancy. , 1980, Obstetrics and gynecology.

[17]  B. N. Krupa,et al.  The application of empirical mode decomposition for the enhancement of cardiotocograph signals , 2009, Physiological measurement.

[18]  P. Maas,et al.  Fetal magnetocardiography: Methods for rapid data reduction , 1997 .

[19]  Denis Kouame,et al.  New Estimators and Guidelines for Better Use of Fetal Heart Rate Estimators with Doppler Ultrasound Devices , 2014, Comput. Math. Methods Medicine.

[20]  S. Homma,et al.  Patent Foramen Ovale and Stroke , 2005, Circulation.

[21]  Tomas Jansson,et al.  Doppler Audio Signal Analysis as an Additional Tool in Evaluation of Umbilical Artery Circulation , 2015, Ultraschall in der Medizin - European Journal of Ultrasound.

[22]  Janusz Jezewski,et al.  Automated detection of fetal movements in Doppler ultrasound signals versus maternal perception , 2014 .

[23]  Radek Bukowski,et al.  Stillbirth and fetal growth restriction. , 2010, Clinical obstetrics and gynecology.

[24]  Chrysostomos D. Stylios,et al.  Feature Extraction and Classification of Fetal Heart Rate Using Wavelet Analysis and Support Vector Machines , 2006, Int. J. Artif. Intell. Tools.

[25]  Gari D. Clifford,et al.  mHealth intervention to improve the continuum of maternal and perinatal care in rural Guatemala: a pragmatic, randomized controlled feasibility trial , 2018, Reproductive Health.

[26]  Sana Fathima,et al.  A low-cost perinatal monitoring system for use in rural Guatemala , 2014 .

[27]  P. Steer Has electronic fetal heart rate monitoring made a difference. , 2008, Seminars in fetal & neonatal medicine.

[28]  M Miodovnik,et al.  Relationship of Nonstress Test Reactivity and Gestational Age , 1984, Obstetrics and gynecology.

[29]  L. Devoe,et al.  Antenatal fetal assessment: contraction stress test, nonstress test, vibroacoustic stimulation, amniotic fluid volume, biophysical profile, and modified biophysical profile--an overview. , 2008, Seminars in perinatology.

[30]  Marimuthu Palaniswami,et al.  Antepartum non-invasive evaluation of opening and closing timings of the cardiac valves in fetal cardiac cycle , 2009, Medical & Biological Engineering & Computing.

[31]  João Bernardes,et al.  Interobserver agreement in CTG interpretation using the 2015 FIGO guidelines for intrapartum fetal monitoring. , 2016, European journal of obstetrics, gynecology, and reproductive biology.

[32]  A. Peaceman,et al.  Identification, assessment and management of fetal compromise. , 2012, Clinics in perinatology.

[33]  Doina Precup,et al.  Classification of Normal and Hypoxic Fetuses From Systems Modeling of Intrapartum Cardiotocography , 2010, IEEE Transactions on Biomedical Engineering.

[34]  Lawrence R. Rabiner,et al.  A tutorial on hidden Markov models and selected applications in speech recognition , 1989, Proc. IEEE.

[35]  Marimuthu Palaniswami,et al.  Automated Estimation of Fetal Cardiac Timing Events From Doppler Ultrasound Signal Using Hybrid Models , 2014, IEEE Journal of Biomedical and Health Informatics.

[36]  Claudio Coco,et al.  Two-dimensional fetal echocardiography: where we are. , 2008, Journal of prenatal medicine.

[37]  Janusz Wrobel,et al.  Improving the periodicity measurement in fetal heart activity signal , 2010 .

[38]  D. Sahn,et al.  Rhythm abnormalities of the fetus , 2007, Heart.

[39]  Puneeta Kaur Arora,et al.  COMPARISION OF VIBROACOUSTIC STIMULATION TEST & NON ST RESS TEST IN HIGH RISK PREGNANCIES , 2015 .

[40]  John M. O'Toole,et al.  Time-Frequency Processing of Nonstationary Signals: Advanced TFD Design to Aid Diagnosis with Highlights from Medical Applications , 2013, IEEE Signal Processing Magazine.

[41]  Tomas Jansson,et al.  Audio spectrum analysis of umbilical artery Doppler ultrasound signals applied to a clinical material , 2014, Acta obstetricia et gynecologica Scandinavica.

[42]  J. A. Crowe,et al.  The information content of Doppler ultrasound signals from the fetal heart , 2001, Medical and Biological Engineering and Computing.

[43]  Gari D Clifford,et al.  Non-invasive fetal ECG analysis , 2014, Physiological measurement.

[44]  Isao Shiraishi,et al.  Intrapartum fetal heart rate monitoring in cases of congenital heart disease. , 2009, American journal of obstetrics and gynecology.

[45]  Ronald T. Wakai,et al.  Fetal cardiac arrhythmia detection and in utero therapy , 2010, Nature Reviews Cardiology.

[46]  Adam Gacek,et al.  Fetal heart rate variability: clinical experts versus computerized system interpretation , 2002, Proceedings of the Second Joint 24th Annual Conference and the Annual Fall Meeting of the Biomedical Engineering Society] [Engineering in Medicine and Biology.

[47]  D. L. Tuck Improvement in Doppler ultrasound human foetal heart rate records by signal correlation , 2006, Medical and Biological Engineering and Computing.

[48]  Z. Alfirevic,et al.  Antenatal cardiotocography for fetal assessment. , 2012, The Cochrane database of systematic reviews.

[49]  A. Gilchrist Congenital Heart Disease , 1948, Edinburgh medical journal.

[50]  Maria G. Signorini,et al.  New indexes from the Fetal Heart Rate analysis for the identification of severe intra uterine growth restricted fetuses , 2006, 2006 International Conference of the IEEE Engineering in Medicine and Biology Society.

[51]  Ronald T Wakai,et al.  Magnetophysiologic and echocardiographic comparison of blocked atrial bigeminy and 2:1 atrioventricular block in the fetus. , 2013, Heart rhythm.

[52]  J. Himes,et al.  A United States National Reference for Fetal Growth , 1996, Obstetrics and gynecology.

[53]  Ronald T. Wakai,et al.  Assessment of Left Ventricular Pre-Ejection Period in the Fetus Using Simultaneous Magnetocardiography and Echocardiography , 2010, Fetal Diagnosis and Therapy.

[54]  G. Clifford,et al.  A Review of Fetal ECG Signal Processing; Issues and Promising Directions. , 2010, The open pacing, electrophysiology & therapy journal.

[55]  Krishna Ramavath Chapter-26 Twin Pregnancy , 2014 .

[56]  Paul Bobby,et al.  Multiple assessment techniques evaluate antepartum fetal risks. , 2003, Pediatric annals.

[57]  U. Gembruch,et al.  Biometry of the Fetal Heart between 10 and 17 Weeks of Gestation , 2000, Fetal Diagnosis and Therapy.

[58]  L W Organ,et al.  The pre-ejection period as an antepartum indicator of fetal well-being. , 1980, American journal of obstetrics and gynecology.

[59]  S. Blackburn Maternal, Fetal, and Neonatal Physiology: A Clinical Perspective , 1992 .

[60]  S Campbell,et al.  Absence of end diastolic frequencies in umbilical artery: a sign of fetal hypoxia and acidosis. , 1988, BMJ.

[61]  Marimuthu Palaniswami,et al.  A multi-dimensional Hidden Markov Model approach to automated identification of fetal cardiac valve motion , 2014, 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[62]  Yoshitaka Kimura,et al.  Recent Advances in Fetal Electrocardiography , 2012 .

[63]  Chengyu Liu,et al.  Improving the Quality of Point of Care Diagnostics with Real-Time Machine Learning in Low Literacy LMIC Settings , 2018, COMPASS.

[64]  Hiroi,et al.  Comparison of the accuracy of gestational age estimation from fetal heart rate and crown-rump length. , 1998, Primary care update for Ob/Gyns.

[65]  J. Hiller,et al.  Cerebral palsy and placental infection: a case-cohort study , 2004, BMC pregnancy and childbirth.

[66]  Robert C. Waag,et al.  Physical principles of medical ultrasonics , 1989 .

[67]  Marimuthu Palaniswami,et al.  Automated measurement of fetal Isovolumic Contraction Time from Doppler Ultrasound Signals without using Fetal Electrocardiography , 2014, Computing in Cardiology 2014.

[68]  Uwe Schneider,et al.  Fetal heart rate variability in growth restricted fetuses , 2006, Biomedizinische Technik. Biomedical engineering.

[69]  Lenka Lhotská,et al.  Using nonlinear features for fetal heart rate classification , 2012, Biomed. Signal Process. Control..

[70]  A. Romo,et al.  Intrauterine growth retardation (IUGR): epidemiology and etiology. , 2009, Pediatric endocrinology reviews : PER.

[71]  N. Yaegashi,et al.  Understanding congenital heart defects through abdominal fetal electrocardiography: Case reports and clinical implications , 2011, The journal of obstetrics and gynaecology research.

[72]  Puneeta Kaur Arora,et al.  Vibroacoustic stimulation test as adjunct to non-stress test for antepartum fetal well-being. , 2015 .

[73]  Boualem Boashash,et al.  Automated detection of perinatal hypoxia using time–frequency-based heart rate variability features , 2013, Medical & Biological Engineering & Computing.

[74]  N. V. Thakor,et al.  Detection of asphyxia using heart rate variability , 2002, Medical and Biological Engineering and Computing.

[75]  Maria G. Signorini,et al.  Quantitative Assessment of Fetal Well-Being Through CTG Recordings: A New Parameter Based on Phase-Rectified Signal Average , 2013, IEEE Journal of Biomedical and Health Informatics.

[76]  Gábor Hosszú,et al.  Fetal phonocardiography - Past and future possibilities , 2011, Comput. Methods Programs Biomed..

[77]  Christoph C Lees,et al.  Cardiac function in early onset small for gestational age and growth restricted fetuses. , 2013, European journal of obstetrics, gynecology, and reproductive biology.

[78]  D. Hoyer,et al.  Indices of fetal development derived from heart rate patterns. , 2009, Early human development.

[79]  R. Mantel,et al.  Automated analysis of near-term antepartum fetal heart rate in relation to fetal behavioral states: the Sonicaid System 8000. , 1991, American journal of obstetrics and gynecology.

[80]  Takuya Ito,et al.  A Novel Extraction Method of Fetal Electrocardiogram From the Composite Abdominal Signal , 2007, IEEE Transactions on Biomedical Engineering.

[81]  Gari D Clifford,et al.  An mHealth monitoring system for traditional birth attendant-led antenatal risk assessment in rural Guatemala , 2016, Journal of medical engineering & technology.

[82]  F. Northington,et al.  A systematic review of the role of intrapartum hypoxia-ischemia in the causation of neonatal encephalopathy. , 2008, American journal of obstetrics and gynecology.

[83]  G. Magenes,et al.  Multiparameter analysis of heart rate variability signal for the investigation of high risk fetuses , 2009, 2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[84]  Z. Alfirevic,et al.  Continuous cardiotocography (CTG) as a form of electronic fetal monitoring (EFM) for fetal assessment during labour. , 2006, The Cochrane database of systematic reviews.

[85]  J. Wrobel,et al.  Timing events in Doppler ultrasound signal of fetal heart activity , 2004, The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[86]  M. Moulden,et al.  The value of the short‐term fetal heart rate variation for timing the delivery of growth‐retarded fetuses , 2008, BJOG : an international journal of obstetrics and gynaecology.

[87]  Tsuyoshi Koga,et al.  Noninvasive measurement of isovolumetric contraction time during hypoxemia and acidemia: Fetal lamb validation as an index of cardiac contractility. , 2005, Early human development.

[88]  Marimuthu Palaniswami,et al.  Model-Based Estimation of Aortic and Mitral Valves Opening and Closing Timings in Developing Human Fetuses , 2016, IEEE Journal of Biomedical and Health Informatics.

[89]  Ian B. Wilkinson,et al.  Gestational length assignment based on last menstrual period, first trimester crown-rump length, ovulation, and implantation timing , 2016, Archives of Gynecology and Obstetrics.

[90]  Fatima Crispi,et al.  The (Pulsed-Wave) Doppler Fetal Myocardial Performance Index: Technical Challenges, Clinical Applications and Future Research , 2015, Fetal Diagnosis and Therapy.

[91]  P. Malcus Antenatal fetal surveillance , 2004, Current opinion in obstetrics & gynecology.

[92]  Janusz Jezewski,et al.  A novel technique for fetal heart rate estimation from Doppler ultrasound signal , 2011, Biomedical engineering online.

[93]  TIMOTHY R B JOHNSON,et al.  Doppler Recordings of Fetal Movement: II. Comparison With Maternal Perception , 1990, Obstetrics and gynecology.

[94]  San-Nan Yang,et al.  Perinatal Hypoxic-Ischemic Encephalopathy , 2010, Journal of biomedicine & biotechnology.

[95]  H. Murray,et al.  Antenatal foetal heart monitoring. , 2017, Best practice & research. Clinical obstetrics & gynaecology.

[96]  M. Peters,et al.  Monitoring the fetal heart non-invasively: a review of methods , 2001, Journal of perinatal medicine.

[97]  Jaideep Malhotra,et al.  Antenatal Assessment of Fetal Wellbeing , 2017 .

[98]  D. Altman,et al.  International standards for early fetal size and pregnancy dating based on ultrasound measurement of crown–rump length in the first trimester of pregnancy , 2014, Ultrasound in obstetrics & gynecology : the official journal of the International Society of Ultrasound in Obstetrics and Gynecology.

[99]  Riccardo Bellazzi,et al.  Multivariate analysis based on linear and non-linear FHR parameters for the identification of IUGR fetuses , 2014, 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[100]  T. Schuster,et al.  Phase-rectified signal averaging as a new method for surveillance of growth restricted fetuses , 2012, The journal of maternal-fetal & neonatal medicine : the official journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International Society of Perinatal Obstetricians.

[101]  G S Dawes,et al.  Short–Term Fetal Heart Rate Variation, Decelerations, and Umbilical Flow Velocity Waveforms Before Labor , 1992, Obstetrics and gynecology.

[102]  G S Dawes,et al.  Antenatal cardiotocogram quality and interpretation using computers , 2014, BJOG : an international journal of obstetrics and gynaecology.

[103]  Marimuthu Palaniswami,et al.  Automated Identification of fetal cardiac valve timings , 2013, 2013 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC).

[104]  Maria G. Signorini,et al.  Complexity analysis of the fetal heart rate variability: early identification of severe intrauterine growth-restricted fetuses , 2009, Medical & Biological Engineering & Computing.

[105]  Samuel Smith,et al.  The limits of electronic fetal heart rate monitoring in the prevention of neonatal metabolic acidemia , 2017, American journal of obstetrics and gynecology.

[106]  Dietrich Grönemeyer,et al.  Changes in the frequency power spectrum of fetal heart rate in the course of pregnancy , 2003, Prenatal diagnosis.

[107]  M. Nageotte,et al.  Fetal heart rate monitoring , 1997, Springer Berlin Heidelberg.

[108]  Giorgia Buscicchio,et al.  Computerized analysis of fetal heart rate in pregnancies complicated by gestational diabetes mellitus, gestational hypertension, intrauterine growth restriction and premature rupture of membranes , 2010, The journal of maternal-fetal & neonatal medicine : the official journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International Society of Perinatal Obstetricians.

[109]  L Lhotská,et al.  Automatic evaluation of intrapartum fetal heart rate recordings: a comprehensive analysis of useful features , 2011, Physiological measurement.

[110]  Philip A. Warrick,et al.  Discrimination of normal and at-risk populations from fetal heart rate variability , 2014, Computing in Cardiology 2014.

[111]  Kazuo Maeda,et al.  Quantitative Analysis of Fetal Actocardiogram: Update , 2013 .

[112]  R. Berendsen,et al.  Beat-to-beat detection of fetal heart rate: Doppler ultrasound cardiotocography compared to direct ECG cardiotocography in time and frequency domain. , 2004, Physiological measurement.

[113]  W. Fifer,et al.  Maternal stress responses and anxiety during pregnancy: effects on fetal heart rate. , 2000, Developmental psychobiology.

[114]  S. V. Vaseghi State duration modelling in hidden Markov models , 1995, Signal Process..

[115]  G Schmidt,et al.  New computerized fetal heart rate analysis for surveillance of intrauterine growth restriction , 2011, Prenatal diagnosis.

[116]  G. Lingman,et al.  A critical appraisal of the use of umbilical artery Doppler ultrasound in high‐risk pregnancies: use of meta‐analyses in evidence‐based obstetrics , 2001, Ultrasound in obstetrics & gynecology : the official journal of the International Society of Ultrasound in Obstetrics and Gynecology.

[117]  Y Murata,et al.  Antepartum evaluation of the pre-ejection period of the fetal cardiac cycle. , 1978, American journal of obstetrics and gynecology.

[118]  P. Warrick Classification of Normal and Hypoxic Fetuses using System Identification from Intra-Partum Cardiotocography , 2008 .

[119]  Z Alfirevic,et al.  Doppler ultrasound for fetal assessment in high risk pregnancies , 2010 .

[120]  Naoko Kinukawa,et al.  Noninvasive measurement of isovolumetric contraction time by Doppler cardiography can be substituted for fetal cardiac contractility: evaluation of a fetal lamb study. , 2007, Early human development.

[121]  B. Tutschek,et al.  Fetal tissue Doppler echocardiography: detection rates of cardiac structures and quantitative assessment of the fetal heart , 2003, Ultrasound in obstetrics & gynecology : the official journal of the International Society of Ultrasound in Obstetrics and Gynecology.

[122]  Michael J Ackerman,et al.  Long QT syndrome-associated mutations in intrauterine fetal death. , 2013, JAMA.

[123]  Zarko Alfirevic,et al.  WITHDRAWN. Doppler ultrasound for fetal assessment in high risk pregnancies. , 2010, The Cochrane database of systematic reviews.

[124]  Marimuthu Palaniswami,et al.  Assessing the development of fetal myocardial function by a novel Doppler myocardial performance index , 2016, 2016 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC).

[125]  F. Crispi,et al.  Normal Reference Ranges from 11 to 41 Weeks’ Gestation of Fetal Left Modified Myocardial Performance Index by Conventional Doppler with the Use of Stringent Criteria for Delimitation of the Time Periods , 2012, Fetal Diagnosis and Therapy.

[126]  Robert Woods,et al.  Long-term trends in fetal mortality: implications for developing countries. , 2008, Bulletin of the World Health Organization.

[127]  Audrey Lyndon,et al.  Fetal Heart Monitoring Principles and Practices , 2009 .

[128]  T. Tongsong,et al.  Fetal isovolumetric time intervals as a marker of abnormal cardiac function in fetal anemia from homozygous alpha thalassemia‐1 disease , 2017, Prenatal diagnosis.

[129]  M. Lewis Review of electromagnetic source investigations of the fetal heart. , 2003, Medical engineering & physics.

[130]  F. Esamai,et al.  Global Network for Women's and Children's Health Research: probable causes of stillbirth in low‐ and middle‐income countries using a prospectively defined classification system , 2018, BJOG : an international journal of obstetrics and gynaecology.

[131]  G. Clifford,et al.  Monitoring fetal maturation—objectives, techniques and indices of autonomic function , 2017, Physiological measurement.

[132]  Eva Nissen,et al.  Psychometric properties of the Swedish childbirth self-efficacy inventory (Swe-CBSEI) , 2014, BMC Pregnancy and Childbirth.

[133]  Qianli D. Y. Ma,et al.  Maternal–fetal heartbeat phase synchronization , 2009, Proceedings of the National Academy of Sciences.

[134]  Marimuthu Palaniswami,et al.  Classification of Doppler Ultrasound signal quality for the application of fetal valve motion identification , 2015, 2015 Computing in Cardiology Conference (CinC).

[135]  Dotun Ogunyemi,et al.  Neonatal Hypoxia in Term Infants: Obstetrical Predictors and Perinatal Consequences [24H] , 2016 .

[136]  Chiou Peng Lam,et al.  Towards higher accuracy and better noise-tolerance for fetal heart rate monitoring using Doppler ultrasound , 2009, TENCON 2009 - 2009 IEEE Region 10 Conference.

[137]  Shunichi Homma,et al.  Patent foramen ovale and stroke , 2018, Journal of Neurology.

[138]  Everett F Magann,et al.  Prenatal Detection of Fetal Growth Restriction in Newborns Classified as Small for Gestational Age: Correlates and Risk of Neonatal Morbidity , 2013, American Journal of Perinatology.

[139]  Gari D Clifford,et al.  A practical guide to non-invasive foetal electrocardiogram extraction and analysis , 2016, Physiological measurement.

[140]  J J Struijk,et al.  Segmentation of heart sound recordings by a duration-dependent hidden Markov model , 2010, Physiological measurement.

[141]  José Luis Rojo-Álvarez,et al.  On the early detection of perinatal hypoxia with information-theory based methods , 2013, Computing in Cardiology 2013.

[142]  Lionel Tarassenko,et al.  Signal quality classification of mobile phone-recorded phonocardiogram signals , 2014, 2014 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP).

[143]  M. Sklansky,et al.  Pregnancy: maternal and fetal heart disease. , 2007, Current problems in cardiology.

[144]  C. Spong,et al.  Antenatal Testing—A Reevaluation: Executive Summary of a Eunice Kennedy Shriver National Institute of Child Health and Human Development Workshop , 2009, Obstetrics and gynecology.

[145]  Megan L. Wier,et al.  A comparison of LMP-based and ultrasound-based estimates of gestational age using linked California livebirth and prenatal screening records. , 2007, Paediatric and perinatal epidemiology.

[146]  J. Perlman,et al.  Interventions for perinatal hypoxic-ischemic encephalopathy. , 1997, Pediatrics.

[147]  Marimuthu Palaniswami,et al.  Assessment of Fetal Development Using Cardiac Valve Intervals , 2017, Frontiers in Physiology.

[148]  Asad Malik,et al.  Maternal and fetal risk factors for stillbirth: population based study , 2013, BMJ.

[149]  K. Maeda 9 Computerized analysis of cardiotocograms and fetal movements , 1990 .

[150]  Gari D Clifford,et al.  Doppler‐based fetal heart rate analysis markers for the detection of early intrauterine growth restriction , 2017, Acta obstetricia et gynecologica Scandinavica.

[151]  J. Kwon,et al.  Fetal heart rate monitoring: from Doppler to computerized analysis , 2016, Obstetrics & gynecology science.

[152]  Jeffrey C. Bamber,et al.  Physical principles of medical ultrasonics , 2004 .

[153]  P Anninos,et al.  Chaotic and periodic analysis of fetal magnetocardiogram recordings in growth restriction , 2003, Prenatal diagnosis.

[154]  Silke Lange,et al.  Dependency of magnetocardiographically determined fetal cardiac time intervals on gestational age, gender and postnatal biometrics in healthy pregnancies , 2004, BMC pregnancy and childbirth.

[155]  J. V. van Laar,et al.  Spectral analysis of fetal heart rate variability for fetal surveillance: review of the literature , 2008, Acta obstetricia et gynecologica Scandinavica.

[156]  古賀 剛 The fetal cardiac isovolumetric contraction time in normal pregnancy and in pregnancy with placental vascular disease : The first clinical report using a new ultrasound technique , 2002 .

[157]  Anthony D. Ricke,et al.  Automatic segmentation of heart sound signals using hidden markov models , 2005, Computers in Cardiology, 2005.

[158]  C. Tei,et al.  New non-invasive index for combined systolic and diastolic ventricular function. , 1995, Journal of cardiology.

[159]  S. Ballas,et al.  [Ultrasonography in obstetrics and gynecology]. , 1975, Harefuah.

[160]  Chrysostomos D. Stylios,et al.  Predicting the risk of metabolic acidosis for newborns based on fetal heart rate signal classification using support vector machines , 2006, IEEE Transactions on Biomedical Engineering.

[161]  Ronald T Wakai,et al.  Diagnosis and Treatment of Fetal Arrhythmia , 2014, American Journal of Perinatology.

[162]  L. W. Perry,et al.  Congenital heart disease: prevalence at livebirth. The Baltimore-Washington Infant Study. , 1985, American journal of epidemiology.

[163]  K Michael Hambidge,et al.  First look: a cluster-randomized trial of ultrasound to improve pregnancy outcomes in low income country settings , 2014, BMC Pregnancy and Childbirth.

[164]  S. Alva,et al.  Levels and trends in the use of maternal health services in developing countries , 2011 .

[165]  Lisa Stroux,et al.  A perinatal monitoring system for low-resource settings , 2015 .

[166]  V Hiilesmaa,et al.  Predicting Delivery Date by Ultrasound and Last Menstrual Period in Early Gestation , 2001, Obstetrics and gynecology.

[167]  B Vasak,et al.  Average acceleration and deceleration capacity of fetal heart rate in normal pregnancy and in pregnancies complicated by fetal growth restriction , 2012, The journal of maternal-fetal & neonatal medicine : the official journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International Society of Perinatal Obstetricians.

[168]  K. Kałużyński,et al.  The fetal heart rate estimation based on continuous ultrasonic Doppler data , 2006 .

[169]  Alkistis Skalkidou,et al.  Effects of ultrasound pregnancy dating on neonatal morbidity in late preterm and early term male infants: a register-based cohort study , 2016, BMC Pregnancy and Childbirth.

[170]  A. Boulesteix,et al.  What is the “normal” fetal heart rate? , 2013, PeerJ.

[171]  João Bernardes,et al.  Gender-specific heart rate dynamics in severe intrauterine growth-restricted fetuses. , 2013, Early human development.

[172]  Faezeh Marzbanrad Modeling fetal cardiac valve intervals and fetal-maternal interactions , 2015 .

[173]  Philip A Warrick,et al.  New perspectives in electronic fetal surveillance , 2013, Journal of perinatal medicine.

[174]  Akihiko Kikuchi,et al.  Nonlinear analyses of heart rate variability in normal and growth-restricted fetuses. , 2006, Early human development.

[175]  D. Koutsouris,et al.  Computerised intrapartum diagnosis of fetal hypoxia based on fetal heart rate monitoring and fetal pulse oximetry recordings utilising wavelet analysis and neural networks , 2002, BJOG : an international journal of obstetrics and gynaecology.

[176]  Jun Zhang,et al.  The research implications of the selection of a gestational age estimation method. , 2007, Paediatric and perinatal epidemiology.

[177]  Antoniya Georgieva,et al.  Computerized data‐driven interpretation of the intrapartum cardiotocogram: a cohort study , 2017, Acta obstetricia et gynecologica Scandinavica.

[178]  Sampson Mb,et al.  Antepartum measurement of the preejection period in high-risk pregnancy. , 1980 .

[179]  Linda A Hunter Issues in pregnancy dating: revisiting the evidence. , 2009, Journal of midwifery & women's health.

[180]  M. Malik,et al.  Phase-rectified signal averaging detects quasi-periodicities in non-stationary data , 2006 .

[181]  G S Dawes,et al.  A comparison of ultrasound (with autocorrelation) and direct electrocardiogram fetal heart rate detector systems. , 1983, American journal of obstetrics and gynecology.

[182]  Jai K Das,et al.  Can available interventions end preventable deaths in mothers, newborn babies, and stillbirths, and at what cost? , 2014, The Lancet.

[183]  Tomas Jansson,et al.  Operator Auditory Perception and Spectral Quantification of Umbilical Artery Doppler Ultrasound Signals , 2013, PloS one.

[184]  Lionel Tarassenko,et al.  Logistic Regression-HSMM-Based Heart Sound Segmentation , 2016, IEEE Transactions on Biomedical Engineering.

[185]  Z. Alfirevic,et al.  Continuous cardiotocography (CTG) as a form of electronic fetal monitoring (EFM) for fetal assessment during labour. , 2017, The Cochrane database of systematic reviews.

[186]  Lenka Lhotská,et al.  Open access intrapartum CTG database , 2014, BMC Pregnancy and Childbirth.

[187]  Luo Kaiqing,et al.  A new algorithm for detecting fetal heart rate using ultrasound Doppler signals. , 2005, Ultrasonics.

[188]  Haitham M. Al-Angari,et al.  Investigating fetal myocardial function in heart anomalies by Doppler myocardial performance indices , 2017, 2017 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC).

[189]  H. V. van Geijn,et al.  Clinical significance of absent or reversed end diastolic velocity waveforms in umbilical artery , 1994, The Lancet.

[190]  O. Witte,et al.  Fetal Functional Brain Age Assessed from Universal Developmental Indices Obtained from Neuro-Vegetative Activity Patterns , 2013, PloS one.

[191]  Deepak Srivastava,et al.  Congenital heart disease: entering a new era of human genetics. , 2014, Circulation research.

[192]  Doina Precup,et al.  A Machine Learning Approach to the Detection of Fetal Hypoxia during Labor and Delivery , 2010, AI Mag..

[193]  R. E. Tainsh,et al.  Fetal heart rate monitoring. , 1983, American journal of obstetrics and gynecology.

[194]  Roberto Sassi,et al.  of the 23 rd Annual EMBS International Conference , October 25-28 , Istanbul , Turkey AUTOMATIC DIAGNOSIS OF FETAL HEART RATE : COMPARISON OF . DIFFERENT METHODOLOGICAL APPROACHES , 2004 .

[195]  D. Hoyer,et al.  Development of integrative autonomic nervous system function: an investigation based on time correlation in fetal heart rate patterns , 2012, Journal of perinatal medicine.

[196]  John Platt,et al.  Probabilistic Outputs for Support vector Machines and Comparisons to Regularized Likelihood Methods , 1999 .

[197]  R. Martínek,et al.  Is Abdominal Fetal Electrocardiography an Alternative to Doppler Ultrasound for FHR Variability Evaluation? , 2017, Front. Physiol..

[198]  Gari D. Clifford,et al.  Template-based Quality Assessment of the Doppler Ultrasound Signal for Fetal Monitoring , 2017, Front. Physiol..

[199]  Akihiko Kikuchi,et al.  Detrended Fluctuation Analysis of Heart Rate Variability in Normal and Growth-Restricted Fetuses , 2007, Gynecologic and Obstetric Investigation.