Antenatal allopurinol for reduction of birth asphyxia induced brain damage (ALLO-Trial); a randomized double blind placebo controlled multicenter study

Joepe J. Kaandorp*, Manon J.N.L. Benders, Carin M.A. Rademaker, Helen L. Torrance, Martijn A. Oudijk, Timo R. de Haan, Kitty W.M. Bloemenkamp, Monique Rijken, Maria G. van Pampus, Arie F. Bos, Martina M. Porath, Sidarto B. Oetomo, Christine Willekes, AW Danilo Gavilanes, Maurice G.A.J. Wouters, Ruurd M. van Elburg, Anjoke J.M. Huisjes, Saskia C.M.J.E.R. Bakker, Claudia A. van Meir, Jeannette von LindernJanine Boon, Inge P. de Boer, Robbert J.P. Rijnders, Corrie J.W.F.M. Jacobs, Cuno S.P.M. Uiterwaal, Ben Willem J. Mol, Gerard H.A. Visser, Frank van Bel, Jan B. Derks

*Corresponding author for this work

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Abstract

Background: Hypoxic-ischaemic encephalopathy is associated with development of cerebral palsy and cognitive disability later in life and is therefore one of the fundamental problems in perinatal medicine. The xanthine-oxidase inhibitor allopurinol reduces the formation of free radicals, thereby limiting the amount of hypoxia-reperfusion damage. In case of suspected intra-uterine hypoxia, both animal and human studies suggest that maternal administration of allopurinol immediately prior to delivery reduces hypoxic-ischaemic encephalopathy.Methods/Design: The proposed trial is a randomized double blind placebo controlled multicenter study in pregnant women at term in whom the foetus is suspected of intra-uterine hypoxia.Allopurinol 500 mg IV or placebo will be administered antenatally to the pregnant woman when foetal hypoxia is suspected. Foetal distress is being diagnosed by the clinician as an abnormal or non-reassuring foetal heart rate trace, preferably accompanied by either significant ST-wave abnormalities (as detected by the STAN-monitor) or an abnormal foetal blood scalp sampling (pH < 7.20).Primary outcome measures are the amount of S100B (a marker for brain tissue damage) and the severity of oxidative stress (measured by isoprostane, neuroprostane, non protein bound iron and hypoxanthine), both measured in umbilical cord blood. Secondary outcome measures are neonatal mortality, serious composite neonatal morbidity and long-term neurological outcome. Furthermore pharmacokinetics and pharmacodynamics will be investigated.We expect an inclusion of 220 patients (110 per group) to be feasible in an inclusion period of two years. Given a suspected mean value of S100B of 1.05 ug/L (SD 0.37 ug/L) in the placebo group this trial has a power of 90% (alpha 0.05) to detect a mean value of S100B of 0.89 ug/L (SD 0.37 ug/L) in the 'allopurinol-treated' group (z-test2-sided). Analysis will be by intention to treat and it allows for one interim analysis.Discussion: In this trial we aim to answer the question whether antenatal allopurinol administration reduces hypoxic-ischaemic encephalopathy in neonates exposed to foetal hypoxia.

Original languageEnglish
Article number8
JournalBMC Pregnancy and Childbirth
Volume10
DOIs
Publication statusPublished - 18 Feb 2010

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    Kaandorp, J. J., Benders, M. J. N. L., Rademaker, C. M. A., Torrance, H. L., Oudijk, M. A., de Haan, T. R., Bloemenkamp, K. W. M., Rijken, M., van Pampus, M. G., Bos, A. F., Porath, M. M., Oetomo, S. B., Willekes, C., Gavilanes, AW. D., Wouters, M. G. A. J., van Elburg, R. M., Huisjes, A. J. M., Bakker, S. C. M. J. E. R., van Meir, C. A., ... Derks, J. B. (2010). Antenatal allopurinol for reduction of birth asphyxia induced brain damage (ALLO-Trial); a randomized double blind placebo controlled multicenter study. BMC Pregnancy and Childbirth, 10, [8]. https://doi.org/10.1186/1471-2393-10-8