Rapid target allopurinol concentrations in the hypoxic fetus after maternal administration during labour

Joepe J. Kaandorp, M. P.H. Van Den Broek, M. J.N.L. Benders, M. A. Oudijk, M. M. Porath, S. Bambang Oetomo, M. G.A.J. Wouters, Ruurd Van Elburg, M. T.M. Franssen, A. F. Bos, B. W.J. Mol, G. H.A. Visser, F. Van Bel, C. M.A. Rademaker, J. B. Derks, T. R. De Haan, J. Boon, I. P. De Boer, R. J.P. Rijnders, C. J.W.F.M. JacobsH. C.J. Scheepers, A. W. Gavilanes, K. W.M. Bloemenkamp, M. Rijken, C. A. Van Meir, J. S. Von Lindern, A. J.M. Huisjes, C. M.J.E.R. Bakker

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12 Citations (Scopus)


Objective Perinatal hypoxia-induced free radical formation is an important cause of hypoxic-ischaemic encephalopathy and subsequent neurodevelopmental disabilities. Allopurinol reduces the formation of free radicals, which potentially limits hypoxia-induced brain damage. We investigated placental transfer and safety of allopurinol after maternal allopurinol treatment during labour to evaluate its potential role as a neuroprotective agent in suspected fetal hypoxia. Design We used data from a randomised, double-blind multicentre trial comparing maternal allopurinol versus placebo in case of imminent fetal hypoxia (NCT00189007). Patients We studied 58 women in labour at term, with suspected fetal hypoxia prompting immediate delivery, in the intervention arm of the study. Setting Delivery rooms of 11 Dutch hospitals. Intervention 500 mg allopurinol, intravenously to the mother, immediately prior to delivery. Main outcome measures Drug disposition (maternal plasma concentrations, cord blood concentrations) and drug safety (maternal and fetal adverse events). Results Within 5 min after the end of maternal allopurinol infusion, target plasma concentrations of allopurinol of ≥2 mg/L were present in cord blood. Of all analysed cord blood samples, 95% (52/55) had a target allopurinol plasma concentration at the moment of delivery. No adverse events were observed in the neonates. Two mothers had a red and/or painful arm during infusion. Conclusions A dose of 500 mg intravenous allopurinol rapidly crosses the placenta and provides target concentrations in 95% of the fetuses at the moment of delivery, which makes it potentially useful as a neuroprotective agent in perinatology with very little side effects.

Original languageEnglish
Pages (from-to)F144-F148
JournalArchives of Disease in Childhood: Fetal and Neonatal Edition
Issue number2
Publication statusPublished or Issued - Mar 2014
Externally publishedYes

ASJC Scopus subject areas

  • Pediatrics, Perinatology, and Child Health
  • Obstetrics and Gynaecology

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