Assessment of the concordance among 2-tier, 3-tier, and 5-tier fetal heart rate classification systems




Objective


In 2008, a National Institute of Child Health and Human Development/Society for Maternal-Fetal Medicine-sponsored workshop on electronic fetal monitoring recommended a new fetal heart tracing interpretation system. Comparison of this 3-tier system with other systems is lacking. Our purpose was to determine the relationships between fetal heart rate categories for the 3 existing systems.


Methods


Three Maternal-Fetal Medicine specialists reviewed 120 fetal heart rates. All tracings were from term, singleton pregnancies with known umbilical artery pH. The fetal heart rates were classified by a 2-tier, 3-tier, and 5-tier system.


Results


Each Maternal-Fetal Medicine examiner reviewed 120 fetal heart rate segments. When compared with the 2-tier system, 0%, 54%, and 100% tracings in categories 1, 2, and 3 were “nonreassuring . ” There was strong concordance between category 1 and “green” as well as category 3 and “red” tracings.


Conclusion


The 3-tier and 5-tier systems were similar in fetal heart rate interpretations for tracings that were either very normal or very abnormal. Whether one system is superior to the others in predicting fetal acidemia remains unknown.


In 2008, a National Institute of Child Health and Human Development (NICHD) and Society for Maternal-Fetal Medicine (SMFM) co-sponsored workshop recommended a 3-tier system of fetal heart rate (FHR) classification. This system replaced an older classification system that rated fetal heart tracings as either “reassuring” or “nonreassuring.” This system was thought to be vague and difficult for practitioners to reproduce. In addition, it did not correlate with fetal acidemia. Furthermore, the system could not match interventions to the designated category. To create a new system, the NICHD held a workshop inviting experts from around the country to form a consensus on improved classification of the fetal heart tracing. It was thought that management decisions could be made after designation into 1 of the 3 categories. A 5-tier fetal heart interpretation system also has been developed and is in use in Japan and parts of California. This more complex system uses the Federal Homeland Security Classification of Risk in United States airports. Direct comparison of this new 3-tier system and the other 2 systems (2-tier and 5-tier) has not yet been performed.


Therefore, our objective was to compare these 3 srystems hypothesizing the following: (1) that FHR tracings classified as “reassuring” would always be in 3-tier category 1 and 5-tier Parer green/blue; (2) FHR tracings classified as “noneassuring” would always be 3-tier category 2 and 3 or 5-tier orange/yellow; (3) FHR tracing classified as 3-tier category 1 wound always be in 5-tier green/blue; (4) FHR tracing classified as 3-tier category 3 would always be in 5-tier red; (5) there would be strong concordance between classifications systems with very normal and very abnormal tracings (ie, at the extremes).


Methods


This was a retrospective, cohort study design. Women with term, singleton pregnancies with known umbilical artery pH results (n = 40) who delivered between Jan. 1, 2008, to Dec. 31, 2009, had their fetal heart tracings reviewed. Eligible patients were term (≥37 weeks’ gestation) and undergoing a trial of labor with the intention to deliver vaginally. Patients were also excluded if there were not at least 2 hours of tracing available, or if they were induced for an intrauterine fetal demise. Reviewers were blinded to the patients’ clinical circumstances. The tracings were deidentified, placed in random order, and provided to the reviewers in bulk.


Forty tracings were selected from 3 different groups of women: (1) pH >7.1, (2) pH from 7.0 to 7.1, (3) pH <7.0 and base excess <−12 mEq. To have a wide spectrum of FHR to evaluate, we chose those pH categories for eligibility. To identify potentially abnormal FHR tracing segments and particularly those that may fit into category 3, we chose a pH <7.0. This pH has association with increased adverse outcome, and is also the designation for “pathologic” acidemia. When randomly choosing a limited number of tracings, it would be very unlikely that we would identify any category 3 tracings without prespecifying an abnormal group (in our case by pH). We would not be able to accomplish our objective of identifying concordance at the extremes of the systems. We chose a pH 7.0-7.10 for an intermediary category because 7.10 represent the 5th percentile. Finally, we chose >7.10 to evaluate more normal FHR tracings because this pH is considered “normal.” Thus, cord pH was used to define the 3 study groups, but it played no further role in our analyses. The sample size, though arbitrary, was based on practicality and evaluation of other studies in the literature. The patients were identified sequentially until we identified 40 patients who met inclusion criteria. There were 3 fetal heart tracings per patient, for a total of 120 tracings. Each reviewer analyzed all 120 tracings. FHR tracings were divided into 15-20 minute epochs and random samples were selected. One segment was chosen from the 60 minutes immediately preceding birth, whereas the other 2 were randomly chosen from the last 180 minutes before birth. Because the segments were distributed to the reviewers randomly, there was no way to know which 3 segments belonged to one individual, or the order of the segments. No segment overlapped.


Three board-certified MFM specialists, after having undergone a structured education and training program in each FHR classification system, independently reviewed 120 unique FHR tracings. These MFM specialists all participated in the NICHD/SMFM workshop on establishing new criteria for fetal heart tracing interpretation. Before the review, an interactive training session was performed using sample FHR tracings (training cases). Laminated cards with definitions of NICHD categories were provided during FHR tracing review.


Reviewers were asked to classify the FHR tracing by 2-tier system (“reassuring” vs “nonreassuring”), NICHD 3-tier (category 1, 2, 3), and the Parer 5-tier system (green, blue, yellow, orange, red). In addition, all tracings were evaluated for the presence of accelerations, decelerations (early, variable, or late), and variability (absent, minimal, moderate, or marked). The baseline fetal heart rate was noted. Tracings deemed uninterpretable were excluded.

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May 26, 2017 | Posted by in GYNECOLOGY | Comments Off on Assessment of the concordance among 2-tier, 3-tier, and 5-tier fetal heart rate classification systems

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