Comparison of ECG-based physiological markers for hypoxia in a preterm ovine model

A.A. Zwanenburg; B.J. Hermans; Peter Andriessen; H.J. Niemarkt; R. Jellema; D. Ophelders; R. Vullings; T. Wolfs; B.W. Kramer; T. Delhaas

doi:10.1038/pr.2016.21

Comparison of ECG-based physiological markers for hypoxia in a preterm ovine model

A.A. Zwanenburg
, B.J. Hermans
, Peter Andriessen
, H.J. Niemarkt
, R. Jellema
, D. Ophelders
, R. Vullings
, T. Wolfs
, B.W. Kramer
, T. Delhaas

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

8 Citaten (Scopus)

Samenvatting

BACKGROUND:
Current methods for assessing perinatal hypoxic conditions did not improve infant outcomes. Various waveform-based and interval-based ECG markers have been suggested, but not directly compared. We compare performance of ECG markers in a standardized ovine model for fetal hypoxia.
METHODS:
Sixty-nine fetal sheep of 0.7 gestation had ECG recorded 4 h before, during, and 4 h after a 25-min period of umbilical cord occlusion (UCO), leading to severe hypoxia. Various ECG markers were calculated, among which were heart rate (HR), HR-corrected ventricular depolarization/repolarization interval (QTc), and ST-segment analysis (STAN) episodic and baseline rise markers, analogue to clinical STAN device alarms. Performance of interval- and waveform-based ECG markers was assessed by correlating predicted and actual hypoxic/normoxic state.
RESULTS:
Of the markers studied, HR and QTc demonstrated high sensitivity (≥86%), specificity (≥96%), and positive predictive value (PPV) (≥86%) and detected hypoxia in ≥90% of fetuses at 4 min after UCO. In contrast, STAN episodic and baseline rise markers displayed low sensitivity (≤20%) and could not detect severe fetal hypoxia in 65 and 28% of the animals, respectively.
CONCLUSION:
Interval-based HR and QTc markers could assess the presence of severe hypoxia. Waveform-based STAN episodic and baseline rise markers were ineffective as markers for hypoxia.

Originele taal-2	Engels
Pagina's (van-tot)	907-915
Tijdschrift	Pediatric Research
Volume	79
Nummer van het tijdschrift	6
DOI's	https://doi.org/10.1038/pr.2016.21
Status	Gepubliceerd - jun. 2016

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10.1038/pr.2016.21

Perinatal Medicine
van der Hout-van der Jagt, B. (Content manager) & Delvaux, E. (Content manager)
Impact: Research Topic/Theme (at group level)

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@article{f09202b87a8944d58e4228cb1951358e,

title = "Comparison of ECG-based physiological markers for hypoxia in a preterm ovine model",

abstract = "BACKGROUND: Current methods for assessing perinatal hypoxic conditions did not improve infant outcomes. Various waveform-based and interval-based ECG markers have been suggested, but not directly compared. We compare performance of ECG markers in a standardized ovine model for fetal hypoxia. METHODS: Sixty-nine fetal sheep of 0.7 gestation had ECG recorded 4 h before, during, and 4 h after a 25-min period of umbilical cord occlusion (UCO), leading to severe hypoxia. Various ECG markers were calculated, among which were heart rate (HR), HR-corrected ventricular depolarization/repolarization interval (QTc), and ST-segment analysis (STAN) episodic and baseline rise markers, analogue to clinical STAN device alarms. Performance of interval- and waveform-based ECG markers was assessed by correlating predicted and actual hypoxic/normoxic state. RESULTS: Of the markers studied, HR and QTc demonstrated high sensitivity (≥86\%), specificity (≥96\%), and positive predictive value (PPV) (≥86\%) and detected hypoxia in ≥90\% of fetuses at 4 min after UCO. In contrast, STAN episodic and baseline rise markers displayed low sensitivity (≤20\%) and could not detect severe fetal hypoxia in 65 and 28\% of the animals, respectively. CONCLUSION: Interval-based HR and QTc markers could assess the presence of severe hypoxia. Waveform-based STAN episodic and baseline rise markers were ineffective as markers for hypoxia.",

author = "A.A. Zwanenburg and B.J. Hermans and Peter Andriessen and H.J. Niemarkt and R. Jellema and D. Ophelders and R. Vullings and T. Wolfs and B.W. Kramer and T. Delhaas",

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T1 - Comparison of ECG-based physiological markers for hypoxia in a preterm ovine model

AU - Zwanenburg, A.A.

AU - Hermans, B.J.

AU - Andriessen, Peter

AU - Niemarkt, H.J.

AU - Jellema, R.

AU - Ophelders, D.

AU - Vullings, R.

AU - Wolfs, T.

AU - Kramer, B.W.

AU - Delhaas, T.

PY - 2016/6

Y1 - 2016/6

N2 - BACKGROUND: Current methods for assessing perinatal hypoxic conditions did not improve infant outcomes. Various waveform-based and interval-based ECG markers have been suggested, but not directly compared. We compare performance of ECG markers in a standardized ovine model for fetal hypoxia. METHODS: Sixty-nine fetal sheep of 0.7 gestation had ECG recorded 4 h before, during, and 4 h after a 25-min period of umbilical cord occlusion (UCO), leading to severe hypoxia. Various ECG markers were calculated, among which were heart rate (HR), HR-corrected ventricular depolarization/repolarization interval (QTc), and ST-segment analysis (STAN) episodic and baseline rise markers, analogue to clinical STAN device alarms. Performance of interval- and waveform-based ECG markers was assessed by correlating predicted and actual hypoxic/normoxic state. RESULTS: Of the markers studied, HR and QTc demonstrated high sensitivity (≥86%), specificity (≥96%), and positive predictive value (PPV) (≥86%) and detected hypoxia in ≥90% of fetuses at 4 min after UCO. In contrast, STAN episodic and baseline rise markers displayed low sensitivity (≤20%) and could not detect severe fetal hypoxia in 65 and 28% of the animals, respectively. CONCLUSION: Interval-based HR and QTc markers could assess the presence of severe hypoxia. Waveform-based STAN episodic and baseline rise markers were ineffective as markers for hypoxia.

AB - BACKGROUND: Current methods for assessing perinatal hypoxic conditions did not improve infant outcomes. Various waveform-based and interval-based ECG markers have been suggested, but not directly compared. We compare performance of ECG markers in a standardized ovine model for fetal hypoxia. METHODS: Sixty-nine fetal sheep of 0.7 gestation had ECG recorded 4 h before, during, and 4 h after a 25-min period of umbilical cord occlusion (UCO), leading to severe hypoxia. Various ECG markers were calculated, among which were heart rate (HR), HR-corrected ventricular depolarization/repolarization interval (QTc), and ST-segment analysis (STAN) episodic and baseline rise markers, analogue to clinical STAN device alarms. Performance of interval- and waveform-based ECG markers was assessed by correlating predicted and actual hypoxic/normoxic state. RESULTS: Of the markers studied, HR and QTc demonstrated high sensitivity (≥86%), specificity (≥96%), and positive predictive value (PPV) (≥86%) and detected hypoxia in ≥90% of fetuses at 4 min after UCO. In contrast, STAN episodic and baseline rise markers displayed low sensitivity (≤20%) and could not detect severe fetal hypoxia in 65 and 28% of the animals, respectively. CONCLUSION: Interval-based HR and QTc markers could assess the presence of severe hypoxia. Waveform-based STAN episodic and baseline rise markers were ineffective as markers for hypoxia.

U2 - 10.1038/pr.2016.21

DO - 10.1038/pr.2016.21

M3 - Article

C2 - 26866904

SN - 0031-3998

VL - 79

SP - 907

EP - 915

JO - Pediatric Research

JF - Pediatric Research

IS - 6

ER -

Comparison of ECG-based physiological markers for hypoxia in a preterm ovine model

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Perinatal Medicine

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