Induction versus expectant monitoring for intrauterine growth restriction at term: Randomised equivalence trial (DIGITAT)

K. E. Boers; S. M.C. Vijgen; D. Bijlenga; J. A.M. Van Der Post; D. J. Bekedam; A. Kwee; P. C.M. Van Der Salm; M. G. Van Pampus; M. E.A. Spaanderman; K. De Boer; J. J. Duvekot; H. A. Bremer; T. H.M. Hasaart; F. M.C. Delemarre; K. W.M. Bloemenkamp; C. A. Van Meir; C. Willekes; E. J. Wijnen; M. Rijken; S. Le Cessie; F. J.M.E. Roumen; J. G. Thornton; J. M.M. Van Lith; B. W.J. Mol; S. A. Scherjon

doi:10.1136/bmj.c7087

Induction versus expectant monitoring for intrauterine growth restriction at term: Randomised equivalence trial (DIGITAT)

K. E. Boers
, S. M.C. Vijgen
, D. Bijlenga
, J. A.M. Van Der Post
, D. J. Bekedam
, A. Kwee
, P. C.M. Van Der Salm
, M. G. Van Pampus
, M. E.A. Spaanderman
, K. De Boer
, J. J. Duvekot
, H. A. Bremer
, T. H.M. Hasaart
, F. M.C. Delemarre
, K. W.M. Bloemenkamp
, C. A. Van Meir
, C. Willekes
, E. J. Wijnen
, M. Rijken
, S. Le Cessie

F. J.M.E. Roumen, J. G. Thornton, J. M.M. Van Lith, B. W.J. Mol, S. A. Scherjon

Leiden University
University of Amsterdam
Onze Lieve Vrouwe Gasthuis
Utrecht University
Meander Medical Center
Radboud University Nijmegen
Rijnstate Hospital
Erasmus University Rotterdam
Reinier de Graaf Groep
Catharina Hospital
Elkerliek Hospital
Groene Hart Hospital
Maastricht University
VieCuri Medisch Centrum
St. Franciscus Hospital
Nottingham University Hospitals NHS Trust

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Objective: To compare the effect of induction of labour with a policy of expectant monitoring for intrauterine growth restriction near term. Design: Multicentre randomised equivalence trial (the Disproportionate Intrauterine Growth Intervention Trial At Term (DIGITAT)). Setting: Eight academic and 44 non-academic hospitals in the Netherlands between November 2004 and November 2008. Participants: Pregnant women who had a singleton pregnancy beyond 36+0 weeks' gestation with suspected intrauterine growth restriction. Interventions: Induction of labour or expectant monitoring. Main outcome measures: The primary outcome was a composite measure of adverse neonatal outcome, defined as death before hospital discharge, five minute Apgar score of less than 7, umbilical artery pH of less than 7.05, or admission to the intensive care unit. Operative delivery (vaginal instrumental delivery or caesarean section) was a secondary outcome. Analysis was by intention to treat, with confidence intervals calculated for the differences in percentages or means. Results: 321 pregnant women were randomly allocated to induction and 329 to expectant monitoring. Induction group infants were delivered 10 days earlier (mean difference -9.9 days, 95% CI -11.3 to -8.6) and weighed 130 g less (mean difference -130 g, 95% CI -188 g to -71 g) than babies in the expectant monitoring group. A total of 17 (5.3%) infants in the induction group experienced the composite adverse neonatal outcome, compared with 20 (61%) in the expectant monitoring group (difference -0.8%, 95% CI -4.3% to 3.2%). Caesarean sections were performed on 45 (14.0%) mothers in the induction group and 45 (13.7%) in the expectant monitoring group (difference 0.3%, 95% CI -5.0% to 5.6%). Conclusions: In women with suspected intrauterine growth restriction at term, we found no important differences in adverse outcomes between induction of labour and expectant monitoring. Patients who are keen on non-intervention can safely choose expectant management with intensive maternal and fetal monitoring; however, it is rational to choose induction to prevent possible neonatal morbidity and stillbirth. Trial registration: International Standard Randomised Controlled Trial number ISRCTN10363217.

Original language	English
Article number	c7087
Pages (from-to)	c7087
Journal	BMJ (Clinical research ed.)
Volume	342
Issue number	7787
DOIs	https://doi.org/10.1136/bmj.c7087 https://doi.org/10.1136/bmj.c7087
Publication status	Published - 1 Jan 2011

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SDG 3 Good Health and Well-being

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Boers, K. E., Vijgen, S. M. C., Bijlenga, D., Van Der Post, J. A. M., Bekedam, D. J., Kwee, A., Van Der Salm, P. C. M., Van Pampus, M. G., Spaanderman, M. E. A., De Boer, K., Duvekot, J. J., Bremer, H. A., Hasaart, T. H. M., Delemarre, F. M. C., Bloemenkamp, K. W. M., Van Meir, C. A., Willekes, C., Wijnen, E. J., Rijken, M., ... Scherjon, S. A. (2011). Induction versus expectant monitoring for intrauterine growth restriction at term: Randomised equivalence trial (DIGITAT). BMJ (Clinical research ed.), 342(7787), c7087. Article c7087. https://doi.org/10.1136/bmj.c7087, https://doi.org/10.1136/bmj.c7087

@article{a1cc14e6f3d9462c975fa0ba5c75c948,

title = "Induction versus expectant monitoring for intrauterine growth restriction at term: Randomised equivalence trial (DIGITAT)",

abstract = "Objective: To compare the effect of induction of labour with a policy of expectant monitoring for intrauterine growth restriction near term. Design: Multicentre randomised equivalence trial (the Disproportionate Intrauterine Growth Intervention Trial At Term (DIGITAT)). Setting: Eight academic and 44 non-academic hospitals in the Netherlands between November 2004 and November 2008. Participants: Pregnant women who had a singleton pregnancy beyond 36+0 weeks' gestation with suspected intrauterine growth restriction. Interventions: Induction of labour or expectant monitoring. Main outcome measures: The primary outcome was a composite measure of adverse neonatal outcome, defined as death before hospital discharge, five minute Apgar score of less than 7, umbilical artery pH of less than 7.05, or admission to the intensive care unit. Operative delivery (vaginal instrumental delivery or caesarean section) was a secondary outcome. Analysis was by intention to treat, with confidence intervals calculated for the differences in percentages or means. Results: 321 pregnant women were randomly allocated to induction and 329 to expectant monitoring. Induction group infants were delivered 10 days earlier (mean difference -9.9 days, 95\% CI -11.3 to -8.6) and weighed 130 g less (mean difference -130 g, 95\% CI -188 g to -71 g) than babies in the expectant monitoring group. A total of 17 (5.3\%) infants in the induction group experienced the composite adverse neonatal outcome, compared with 20 (61\%) in the expectant monitoring group (difference -0.8\%, 95\% CI -4.3\% to 3.2\%). Caesarean sections were performed on 45 (14.0\%) mothers in the induction group and 45 (13.7\%) in the expectant monitoring group (difference 0.3\%, 95\% CI -5.0\% to 5.6\%). Conclusions: In women with suspected intrauterine growth restriction at term, we found no important differences in adverse outcomes between induction of labour and expectant monitoring. Patients who are keen on non-intervention can safely choose expectant management with intensive maternal and fetal monitoring; however, it is rational to choose induction to prevent possible neonatal morbidity and stillbirth. Trial registration: International Standard Randomised Controlled Trial number ISRCTN10363217.",

author = "Boers, \{K. E.\} and Vijgen, \{S. M.C.\} and D. Bijlenga and \{Van Der Post\}, \{J. A.M.\} and Bekedam, \{D. J.\} and A. Kwee and \{Van Der Salm\}, \{P. C.M.\} and \{Van Pampus\}, \{M. G.\} and Spaanderman, \{M. E.A.\} and \{De Boer\}, K. and Duvekot, \{J. J.\} and Bremer, \{H. A.\} and Hasaart, \{T. H.M.\} and Delemarre, \{F. M.C.\} and Bloemenkamp, \{K. W.M.\} and \{Van Meir\}, \{C. A.\} and C. Willekes and Wijnen, \{E. J.\} and M. Rijken and \{Le Cessie\}, S. and Roumen, \{F. J.M.E.\} and Thornton, \{J. G.\} and \{Van Lith\}, \{J. M.M.\} and Mol, \{B. W.J.\} and Scherjon, \{S. A.\}",

year = "2011",

month = jan,

day = "1",

doi = "10.1136/bmj.c7087",

language = "English",

volume = "342",

pages = "c7087",

journal = "BMJ (Clinical research ed.)",

issn = "0959-8138",

publisher = "British Medical Association",

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}

Boers, KE, Vijgen, SMC, Bijlenga, D, Van Der Post, JAM, Bekedam, DJ, Kwee, A, Van Der Salm, PCM, Van Pampus, MG, Spaanderman, MEA, De Boer, K, Duvekot, JJ, Bremer, HA, Hasaart, THM, Delemarre, FMC, Bloemenkamp, KWM, Van Meir, CA, Willekes, C, Wijnen, EJ, Rijken, M, Le Cessie, S, Roumen, FJME, Thornton, JG, Van Lith, JMM, Mol, BWJ & Scherjon, SA 2011, 'Induction versus expectant monitoring for intrauterine growth restriction at term: Randomised equivalence trial (DIGITAT)', BMJ (Clinical research ed.), vol. 342, no. 7787, c7087, pp. c7087. https://doi.org/10.1136/bmj.c7087, https://doi.org/10.1136/bmj.c7087

TY - JOUR

T1 - Induction versus expectant monitoring for intrauterine growth restriction at term

T2 - Randomised equivalence trial (DIGITAT)

AU - Boers, K. E.

AU - Vijgen, S. M.C.

AU - Bijlenga, D.

AU - Van Der Post, J. A.M.

AU - Bekedam, D. J.

AU - Kwee, A.

AU - Van Der Salm, P. C.M.

AU - Van Pampus, M. G.

AU - Spaanderman, M. E.A.

AU - De Boer, K.

AU - Duvekot, J. J.

AU - Bremer, H. A.

AU - Hasaart, T. H.M.

AU - Delemarre, F. M.C.

AU - Bloemenkamp, K. W.M.

AU - Van Meir, C. A.

AU - Willekes, C.

AU - Wijnen, E. J.

AU - Rijken, M.

AU - Le Cessie, S.

AU - Roumen, F. J.M.E.

AU - Thornton, J. G.

AU - Van Lith, J. M.M.

AU - Mol, B. W.J.

AU - Scherjon, S. A.

PY - 2011/1/1

Y1 - 2011/1/1

N2 - Objective: To compare the effect of induction of labour with a policy of expectant monitoring for intrauterine growth restriction near term. Design: Multicentre randomised equivalence trial (the Disproportionate Intrauterine Growth Intervention Trial At Term (DIGITAT)). Setting: Eight academic and 44 non-academic hospitals in the Netherlands between November 2004 and November 2008. Participants: Pregnant women who had a singleton pregnancy beyond 36+0 weeks' gestation with suspected intrauterine growth restriction. Interventions: Induction of labour or expectant monitoring. Main outcome measures: The primary outcome was a composite measure of adverse neonatal outcome, defined as death before hospital discharge, five minute Apgar score of less than 7, umbilical artery pH of less than 7.05, or admission to the intensive care unit. Operative delivery (vaginal instrumental delivery or caesarean section) was a secondary outcome. Analysis was by intention to treat, with confidence intervals calculated for the differences in percentages or means. Results: 321 pregnant women were randomly allocated to induction and 329 to expectant monitoring. Induction group infants were delivered 10 days earlier (mean difference -9.9 days, 95% CI -11.3 to -8.6) and weighed 130 g less (mean difference -130 g, 95% CI -188 g to -71 g) than babies in the expectant monitoring group. A total of 17 (5.3%) infants in the induction group experienced the composite adverse neonatal outcome, compared with 20 (61%) in the expectant monitoring group (difference -0.8%, 95% CI -4.3% to 3.2%). Caesarean sections were performed on 45 (14.0%) mothers in the induction group and 45 (13.7%) in the expectant monitoring group (difference 0.3%, 95% CI -5.0% to 5.6%). Conclusions: In women with suspected intrauterine growth restriction at term, we found no important differences in adverse outcomes between induction of labour and expectant monitoring. Patients who are keen on non-intervention can safely choose expectant management with intensive maternal and fetal monitoring; however, it is rational to choose induction to prevent possible neonatal morbidity and stillbirth. Trial registration: International Standard Randomised Controlled Trial number ISRCTN10363217.

AB - Objective: To compare the effect of induction of labour with a policy of expectant monitoring for intrauterine growth restriction near term. Design: Multicentre randomised equivalence trial (the Disproportionate Intrauterine Growth Intervention Trial At Term (DIGITAT)). Setting: Eight academic and 44 non-academic hospitals in the Netherlands between November 2004 and November 2008. Participants: Pregnant women who had a singleton pregnancy beyond 36+0 weeks' gestation with suspected intrauterine growth restriction. Interventions: Induction of labour or expectant monitoring. Main outcome measures: The primary outcome was a composite measure of adverse neonatal outcome, defined as death before hospital discharge, five minute Apgar score of less than 7, umbilical artery pH of less than 7.05, or admission to the intensive care unit. Operative delivery (vaginal instrumental delivery or caesarean section) was a secondary outcome. Analysis was by intention to treat, with confidence intervals calculated for the differences in percentages or means. Results: 321 pregnant women were randomly allocated to induction and 329 to expectant monitoring. Induction group infants were delivered 10 days earlier (mean difference -9.9 days, 95% CI -11.3 to -8.6) and weighed 130 g less (mean difference -130 g, 95% CI -188 g to -71 g) than babies in the expectant monitoring group. A total of 17 (5.3%) infants in the induction group experienced the composite adverse neonatal outcome, compared with 20 (61%) in the expectant monitoring group (difference -0.8%, 95% CI -4.3% to 3.2%). Caesarean sections were performed on 45 (14.0%) mothers in the induction group and 45 (13.7%) in the expectant monitoring group (difference 0.3%, 95% CI -5.0% to 5.6%). Conclusions: In women with suspected intrauterine growth restriction at term, we found no important differences in adverse outcomes between induction of labour and expectant monitoring. Patients who are keen on non-intervention can safely choose expectant management with intensive maternal and fetal monitoring; however, it is rational to choose induction to prevent possible neonatal morbidity and stillbirth. Trial registration: International Standard Randomised Controlled Trial number ISRCTN10363217.

UR - https://www.scopus.com/pages/publications/78650796973

U2 - 10.1136/bmj.c7087

DO - 10.1136/bmj.c7087

M3 - Article

C2 - 21177352

SN - 0959-8138

VL - 342

SP - c7087

JO - BMJ (Clinical research ed.)

JF - BMJ (Clinical research ed.)

IS - 7787

M1 - c7087

ER -

Induction versus expectant monitoring for intrauterine growth restriction at term: Randomised equivalence trial (DIGITAT)

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