Abstract
ObjectiveIn recent years deceleration area has received increasing attention as a potential predictor of intrapartum fetal hypoxia. In several studies, the area has been manually esteemed as triangular in shape, which might introduce bias. In addition, the commonly used outcome acidemia in umbilical artery is affected by mode of delivery. We wanted to investigate the association between the variable deceleration features area, duration, depth and cumulative deceleration area (30 and 60 min) and intrapartum fetal acidemia measured as lactate concentration at fetal scalp blood sampling (FBS) in immediate connection to the decelerations. Study designIn the source population of 1070 labors at Karolinska University Hospital, Sweden, with FBS performed on indication, we found 507 fetuses with predominantly variable decelerations as the indication for FBS. We examined the last 60- and 30-minutes of fetal monitoring preceding the FBS with focus on deceleration area, duration and depth. The contours of the decelerations were outlined manually but the area was calculated with a computer software program. We assessed area, duration and depth both as mean values per deceleration and as cumulative values during the time period of interest. We analyzed Pearson correlations and area under receiver operating characteristics curves (AUC). We also performed an adjusted analysis, with baseline frequency, variability, and accelerations as covariates. ResultsDeceleration area and duration were the best predictors of intrapartum fetal acidemia (fetal lactate concentration >4.8 mmol/L measured with Lactate Pro™) with AUCs of 0.671 (0.682) and 0.678 (0.683) for cumulative measures during 30 (60) minutes prior to FBS, compared to deceleration depth with AUC of 0.632 (0.631). Corresponding Pearson correlations in 30-min (60-min) groups were 0.329 (0.335) and 0.358 (0.354) for deceleration area and duration and 0.212 (0.204) for deceleration depth. Using 250 beats cumulative cut-off for deceleration area during last 30 min, 71% vs. 43% were acidemic and non-acidemic, odds ratio = 3.2 (95% CI 1.7–6.1). ConclusionsDeceleration area and duration were better predictors of intrapartum fetal acidemia than deceleration depth. Cumulative deceleration area >250 beats during 30 min was associated with three-fold higher odds of intrapartum acidemia compared to <250 beats.
Highlights
Electronic fetal monitoring (EFM) was developed as a means to assess fetal status during labor to detect signs of fetal hypoxia [1].Abbreviations: area under receiver operating characteristics curves (AUC), area under curve; CTG, cardiotocography; EFM, electronic fetal monitoring; fetal blood sampling (FBS), fetal blood sample; FHR, fetal heart rate; SGA, small for gestational age.⇑ Corresponding author at: Department of Women’s and Children’s Health, the method is accompanied with disadvantages, such as a low specificity for hypoxia
In view of the above, we have in this study focused on variable decelerations in which the magnitude might be of more prognostic value
The physician on call visually interpreted the FHR recording according to the national guidelines, based on the International Federation of Gynecology and Obstetrics (FIGO) classification [11], and could decide to perform an FBS in case of a non-reassuring pattern
Summary
Electronic fetal monitoring (EFM) was developed as a means to assess fetal status during labor to detect signs of fetal hypoxia [1]. Fetal blood sampling (FBS) is used as an adjunct tool to assess the fetus during labor when there are signs of fetal distress [2,3,4]. There has been an interest in analyzing deceleration area during labor [5,6,7,8]. The studies including all present decelerations, early, late and variable, suggest that 30 min cumulative deceleration area is the best predictor of neonatal acidemia during labor.
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