AIM: To describe developmental aspects of the sympatho-vagal heart rate regulation in the human fetus by applying numerics to visual descriptions of fetal heart rate patterns throughout the third trimester of pregnancy. The focus is to determine potential benefits of this alternative means of assessing the maturation of the fetal autonomic nervous system by analysis of fetal heart rate variability (fHRV). SUBJECTS AND METHODS: The magnetocardiograms of 103 normal fetuses between 24+1 and 41+6 weeks of gestation were studied. Fetal heart beat intervals were determined with a temporal precision of 1 ms. The levels of fetal activity were estimated according to characteristic heart rate patterns (I-III) prior to 32, between 32-35 and beyond 35 (groups 1-3) completed weeks. Mean heart rate (mHR), standard deviation of normal-to-normal beat intervals (SDNN) and root mean square of successive differences of normal beats (RMSSD) served as fHRV indices, mean permutation entropy (PE_Mean) as complexity measure. SDNN/RMSSD was introduced as a potential marker for sympatho-vagal balance. RESULTS: Low activity fHRP (I) were characterized by significantly lower level fHRV indices and higher PE_Mean when compared to fHRP II. We found that SDNN/RMSSD decreases with gestation in fHRP I, which suggests increasing vagal influence. In fHRP III (assigned to active awake fetuses only after 32 weeks), highest level SDNN and mHR are associated with a dramatically reduced complexity. fHRV indices cluster characteristically with the activity levels. CONCLUSIONS: We conclude that a combined analysis of fHRV, based on SDNN/RMSSD and PE_Mean, and fHRP is advantageous in the assessment of maturation of the fetal autonomic nervous system.
AIM: To describe developmental aspects of the sympatho-vagal heart rate regulation in the human fetus by applying numerics to visual descriptions of fetal heart rate patterns throughout the third trimester of pregnancy. The focus is to determine potential benefits of this alternative means of assessing the maturation of the fetal autonomic nervous system by analysis of fetal heart rate variability (fHRV). SUBJECTS AND METHODS: The magnetocardiograms of 103 normal fetuses between 24+1 and 41+6 weeks of gestation were studied. Fetal heart beat intervals were determined with a temporal precision of 1 ms. The levels of fetal activity were estimated according to characteristic heart rate patterns (I-III) prior to 32, between 32-35 and beyond 35 (groups 1-3) completed weeks. Mean heart rate (mHR), standard deviation of normal-to-normal beat intervals (SDNN) and root mean square of successive differences of normal beats (RMSSD) served as fHRV indices, mean permutation entropy (PE_Mean) as complexity measure. SDNN/RMSSD was introduced as a potential marker for sympatho-vagal balance. RESULTS: Low activity fHRP (I) were characterized by significantly lower level fHRV indices and higher PE_Mean when compared to fHRP II. We found that SDNN/RMSSD decreases with gestation in fHRP I, which suggests increasing vagal influence. In fHRP III (assigned to active awake fetuses only after 32 weeks), highest level SDNN and mHR are associated with a dramatically reduced complexity. fHRV indices cluster characteristically with the activity levels. CONCLUSIONS: We conclude that a combined analysis of fHRV, based on SDNN/RMSSD and PE_Mean, and fHRP is advantageous in the assessment of maturation of the fetal autonomic nervous system.
Authors: Saira Siddiqui; Abigail Wilpers; Michael Myers; J David Nugent; William P Fifer; Ismée A Williams Journal: Early Hum Dev Date: 2015-02-04 Impact factor: 2.079
Authors: Wisse P van der Meijden; Bart H W Te Lindert; Jennifer R Ramautar; Yishul Wei; Joris E Coppens; Maarten Kamermans; Christian Cajochen; Patrice Bourgin; Eus J W Van Someren Journal: Proc Biol Sci Date: 2018-07-18 Impact factor: 5.349
Authors: Dirk Hoyer; Jan Żebrowski; Dirk Cysarz; Hernâni Gonçalves; Adelina Pytlik; Célia Amorim-Costa; João Bernardes; Diogo Ayres-de-Campos; Otto W Witte; Ekkehard Schleußner; Lisa Stroux; Christopher Redman; Antoniya Georgieva; Stephen Payne; Gari Clifford; Maria G Signorini; Giovanni Magenes; Fernando Andreotti; Hagen Malberg; Sebastian Zaunseder; Igor Lakhno; Uwe Schneider Journal: Physiol Meas Date: 2017-02-10 Impact factor: 2.833
Authors: M R Ortiz; J C Echeverría; J Alvarez-Ramírez; A Martínez; M A Peña; M T García; C Vargas-García; R González-Camarena Journal: Med Biol Eng Comput Date: 2012-12-16 Impact factor: 2.602
Authors: Peter R Stone; Wendy Burgess; Jordan P R McIntyre; Alistair J Gunn; Christopher A Lear; Laura Bennet; Edwin A Mitchell; John M D Thompson Journal: J Physiol Date: 2016-12-11 Impact factor: 5.182
Authors: Bhargavi Sriram; Margret A Mencer; Samantha McKelvey; Eric R Siegel; Srinivasan Vairavan; James D Wilson; Hubert Preissl; Hari Eswaran; Rathinaswamy B Govindan Journal: Early Hum Dev Date: 2013-07-29 Impact factor: 2.079
Authors: Dirk Hoyer; Alexander Schmidt; Kathleen M Gustafson; Silvia M Lobmaier; Igor Lakhno; Peter van Leeuwen; Dirk Cysarz; Hubert Preisl; Uwe Schneider Journal: Physiol Meas Date: 2019-07-03 Impact factor: 2.833
Authors: R B Govindan; S Vairavan; U D Ulusar; J D Wilson; S S McKelvey; H Preissl; H Eswaran Journal: Ann Biomed Eng Date: 2010-12-08 Impact factor: 3.934