Background: Identification and measurement of fetal heart tracings throughout pregnancy and labor is crucial to the well-being of the fetus. Non reassuring fetal heart rate is one of the most common indications for operative vaginal delivery or cesarean section. Therefore, management of labor requires reliable and accurate information about fetal heart rate. In most normal spontaneous labors, fetal heart rate is characterized by the baseline heart rate (from 110 to 160 beats per minute), variability (beat to beat changes) and periodic changes (accelerations or decelerations). In each stage of labor the tracing may have different characteristics, with variable decelerations much more common at the end of the second stage of labor. Objective: To Show non inferiority of the EUM to the fetal doppler and scalp electrode by comparing the reliability and accuracy of the EUM versus fetal doppler compared to scalp electrode in the same patients.
Background: Identification and measurement of fetal heart tracings throughout pregnancy and labor is crucial to the well-being of the fetus. Non reassuring fetal heart rate is one of the most common indications for operative vaginal delivery or cesarean section. Therefore, management of labor requires reliable and accurate information about fetal heart rate. In most normal spontaneous labors, fetal heart rate is characterized by the baseline heart rate (from 110 to 160 beats per minute), variability (beat to beat changes) and periodic changes (accelerations or decelerations). In each stage of labor the tracing may have different characteristics, with variable decelerations much more common at the end of the second stage of labor. Objective: To Show non inferiority of the EUM to the fetal doppler and scalp electrode by comparing the reliability and accuracy of the EUM versus fetal doppler compared to scalp electrode in the same patients. METHODS The current method for detecting fetal heart rate is fetal Doppler, which is routinely used in practically all labors, is based on the Doppler technology of detecting heart valves motion and blood velocity. The fetal Doppler transducer is placed on the abdomen of the parturient and is susceptible to positional changes of the parturient. Moreover, among obese gravidas, fetal heart rate tracings via external fetal Doppler may be difficult to achieve. Another method for monitoring fetal heart rate is the scalp electrode which is attached to the fetal scalp and records the heart rate patterns. This method is invasive and can be used only after the amniotic membranes are ruptured. Monitoring with scalp electrode is superior to the fetal Doppler as it is direct and non-affected by maternal position. However, it is an invasive method and may contribute to the development fever during or after labor.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
DOUBLE
Enrollment
400
the parturient will be connected to the routine fetal Doppler and to the EUM. and When necessary to the scalp electrode will be connected. Tracings will be recorded simultaneously from all three devices until delivery. three separate outputs will be processed Output of the scalp electrode recording. Output of the fetal doppler. Output of the EUM. Three noncontinuous segments of 30 minutes each with two segments occurring during the first stage of labor and the third occurring during the second stage of labor, will be randomly picked from the scalp electrode recording with 3 matching segments in time from the EUM100pro and the fetal doppler
the parturient will be connected to the routine fetal Doppler and to the EUM. and When necessary to the scalp electrode will be connected. Tracings will be recorded simultaneously from all three devices until delivery. three separate outputs will be processed Output of the scalp electrode recording. Output of the fetal doppler. Output of the EUM. Three noncontinuous segments of 30 minutes each with two segments occurring during the first stage of labor and the third occurring during the second stage of labor, will be randomly picked from the scalp electrode recording with 3 matching segments in time from the EUM100pro and the fetal doppler
the parturient will be connected to the routine fetal Doppler and to the EUM. and When necessary to the scalp electrode will be connected. Tracings will be recorded simultaneously from all three devices until delivery. three separate outputs will be processed Output of the scalp electrode recording. Output of the fetal doppler. Output of the EUM. Three noncontinuous segments of 30 minutes each with two segments occurring during the first stage of labor and the third occurring during the second stage of labor, will be randomly picked from the scalp electrode recording with 3 matching segments in time from the EUM100pro and the fetal doppler
The difference between the fetal scalp electrode tracings and the EUM tracings of the fetal heart activity.
Mean Positive Percent Agreement (PPA) for interpretable/un interpretable traces (between EUM, scalp electrode and fetal doppler).
Time frame: Up to 72 hours
Reliability
Mean sensitivity for individual tracing identification (between EUM, scalp electrode and fetal doppler)
Time frame: Up to 72 hours
Reliability
Mean Positive Predictive Value (PPV) for individual tracing identification (between EUM, scalp electrode and fetal doppler)
Time frame: Up to 72 hours
Reliability
The mean False Positive Rate (FPR) for individual tracing identification (between EUM, scalp electrode and fetal Doppler)
Time frame: Up to 72 hours
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