Authors:
C. Benalcazar Parra
1
;
A. I. Tendero
1
;
Y. Ye-Lin
1
;
J. Alberola-Rubio
2
;
A. Perales Marin
2
;
J. Garcia-Casado
1
and
G. Prats-Boluda
1
Affiliations:
1
Universitat Politècnica de València, Spain
;
2
Hospital Universitario y Politécnico La Fe de Valencia, Spain
Keyword(s):
Labor Induction, Electrohysterogram, EHG, EHG-Bursts, Spectral Analysis, Deciles, Vaginal Delivery, Cesarean Section, Active Phase of Labor.
Abstract:
Labor induction using prostaglandins (PG) is a common practice to promote uterine contractions and to facilitate cervical ripening. However, not all cases of labor inductions result in vaginal deliveries and it has been associated with an increased risk of cesarean delivery. This last situation is associated to a greater healthcare economic impact and to an increment in the maternal and fetal mortality and morbidity. Obstetricians face different scenarios daily during a labor induction and it would be advantageous to be able to infer the result of the labor induction for a better labor management. Uterine electrohysterogram (EHG) has been proven to play an outstanding role in monitoring uterine dynamics and in characterizing the uterine myoelectrical activity. Therefore, the aim of this study was to characterize and to compare the response of uterine myoelectrical activity to labor induction drugs for different labor induction outcomes by obtaining and analyzing the evolution of spec
tral parameters from EHG records picked up during the first 4 hours after labor induction onset. Specifically, deciles from the EHG-bursts’ power spectral density (PSD) were worked out. Our results showed that deciles D8 and D9 are able to discriminate between women who achieved active phase of labor and those who did not. For women who achieved active phase of labor, D5 makes it possible to separate women who delivered vaginally and those who underwent a cesarean section; finally D2-D6 enabled us to distinguish vaginal deliveries within 24 hours after induction onset from the other outcomes. Thus, deciles computed from EHG PSD are potentially useful to discriminate the different outcomes of a labor induction, suggesting the feasibility of induction success prediction based on EHG recording.
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