Review

. 2011:2011:848794.

doi: 10.1155/2011/848794. Epub 2011 Sep 13.

Use of continuous electronic fetal monitoring in a preterm fetus: clinical dilemmas and recommendations for practice

Karolina Afors¹, Edwin Chandraharan

Affiliations

PMID: 21922045
PMCID: PMC3172974
DOI: 10.1155/2011/848794

Review

Use of continuous electronic fetal monitoring in a preterm fetus: clinical dilemmas and recommendations for practice

Karolina Afors et al. J Pregnancy. 2011.

. 2011:2011:848794.

doi: 10.1155/2011/848794. Epub 2011 Sep 13.

Authors

Karolina Afors¹, Edwin Chandraharan

Affiliation

¹ St.George's Healthcare NHS Trust, Blackshaw Road, London SW17 0QT, UK.

PMID: 21922045
PMCID: PMC3172974
DOI: 10.1155/2011/848794

Abstract

The aim of intrapartum continuous electronic fetal monitoring using a cardiotocograph (CTG) is to identify a fetus exposed to intrapartum hypoxic insults so that timely and appropriate action could be instituted to improve perinatal outcome. Features observed on a CTG trace reflect the functioning of somatic and autonomic nervous systems and the fetal response to hypoxic or mechanical insults during labour. Although, National Guidelines on electronic fetal monitoring exist for term fetuses, there is paucity of recommendations based on scientific evidence for monitoring preterm fetuses during labour. Lack of evidence-based recommendations may pose a clinical dilemma as preterm births account for nearly 8% (1 in 13) live births in England and Wales. 93% of these preterm births occur after 28 weeks, 6% between 22-27 weeks, and 1% before 22 weeks. Physiological control of fetal heart rate and the resultant features observed on the CTG trace differs in the preterm fetus as compared to a fetus at term making interpretation difficult. This review describes the features of normal fetal heart rate patterns at different gestations and the physiological responses of a preterm fetus compared to a fetus at term. We have proposed an algorithm "ACUTE" to aid management.

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Figures

**Figure 1**
Pathophysiology of fetal heart rate changes.

**Figure 2**
CTG of a fetus at 26 weeks of gestation: note higher baseline heart rate, apparent reduction in baseline variability, and “shallow” variable decelerations.

**Figure 3**
CTG of a fetus at 34 weeks of gestation: note baseline heart rate within the normal range, normal baseline variability with “cycling”.

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References

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Use of continuous electronic fetal monitoring in a preterm fetus: clinical dilemmas and recommendations for practice

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Use of continuous electronic fetal monitoring in a preterm fetus: clinical dilemmas and recommendations for practice

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