Table 17

Impact of intrapartum cardiotocography with or without pulse oximetry on stillbirth and perinatal outcomes

Source

Location and Type of Study

Intervention

Stillbirths/Perinatal Outcomes


Reviews and meta-analyses


East et al. 2007 [149]

USA, Australia, Germany.

Meta-analysis (Cochrane). 4 RCTs included (N = 1789).

To compare the effectiveness and safety of fetal pulse oximetry + cardiotocography (intervention) vs. conventional surveillance techniques (cardiotocography only).

Fetal death (miscarriage+SB)/NMR: RR = 0.93 (95% CI: 0.20–4.44) [NS].

[3/942 vs. 3/847 in intervention and control groups, respectively] for gestation from 36 weeks and fetal blood sampling (FBS) not required prior to study entry.


Neilson 2006 [154]

Sweden, Finland, UK, Hong Kong, Netherlands, Singapore.

Meta-analysis (Cochrane). 4 RCTs included (N = 9829).

To compare the effects of analysis of fetal ECG waveforms during labour (intervention) vs. alternative methods of fetal monitoring (no ECG) (controls).

PMR: RR = 2.29 (95% CI: 0.59–8.83) [NS].

[6/4953 vs. 2/4876 in intervention and control groups, respectively].


Alfirevic et al. 2006 [2]

Athens, Copenhagen, Denver, Dublin, Australia, Pakistan, USA, Sheffield.

Meta-analysis (Cochrane) 11 RCTs included (N = 33,513).

To assess the effectiveness of continuous cardiotocography during labour (intervention) vs. intermittent auscultation (controls).

PMR: RR = 0.85 (95% CI: 0.59–1.23) [NS].

[50/16849 vs. 57/16664 in intervention and control groups, respectively].


Observational studies


Seelbach Gobel 1999 [183]

Germany. Multicentred study involving 3 obstetric centres.

Observational study. N = 400 deliveries monitored by fetal pulse oximetry.

Compared the durations of different fetal arterial oxygen saturations in neonates with a pH < 7.15 vs. ≥ 7.15, base excess < -12 mmol/L vs. > -12 mmol/L in the umbilical artery post partum and in neonates with an Apgar score < 7 vs. ≥ 7.

Duration of low fetal arterial oxygen saturation: significantly longer in neonates with a 1-minute Apgar score <7 vs. ≥ 7, with pH < 7.15 vs. = 7.15 and with base excess < -12 mmol/L vs. ≥ -12 mmol/L.

Duration of medium fetal arterial oxygen saturation: no significant differences between the groups.

Duration of high fetal arterial oxygen saturation: significantly shorter for children with pH < 7.15 vs. ≥ 7.15 and with base excess < -12 mmol/L vs. ≥ -12 mmol/L; no significant difference in children with Apgar score < 7 vs. ≥ 7.

The duration of low fetal arterial oxygen saturation proved to be the best predictor of a decline of scalp pH between 2 fetal scalp blood samples. The pH declined significantly with a longer duration of low fetal arterial oxygen saturation (0.02 per 10 minutes). No decrease of pH by more than 0.05 was observed unless fetal arterial oxygen saturation had remained at ≤ 30% for ≥ 10 minutes.


Stiller et al. 2002 [184]

Switzerland.

Test sensitivity and specificity analysis. N = 107 sets of measures.

To determine the sensitivity and specificity for acidosis of intrapartum fetal oxygen saturation measured by reflectance pulse oximetry.

Mean fetal oxygen saturation was 42.8%, over the mean 132 minutes of 107 recordings.

Depending on stage and umbilical artery parameter, fetal oxygen saturation cutoffs were 33% to 36%, with sensitivities of 0.67 to 0.8 and specificities of 0.62 to 0.90.

Umbilical artery values tended to be less favorable at SpO2 levels < 40%; above 40% no unfavorable values were reported.


Haws et al. BMC Pregnancy and Childbirth 2009 9(Suppl 1):S5   doi:10.1186/1471-2393-9-S1-S5

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