Title
Doxapram Therapy in Preterm Infants (DOXA Trial)
Doxapram Versus Placebo in Preterm Newborns: An International Double Blinded Multicenter Randomized Controlled Trial
Phase
Phase 3Lead Sponsor
Erasmus University RotterdamStudy Type
InterventionalStatus
RecruitingIndication/Condition
Apnea of Prematurity Respiratory InsufficiencyIntervention/Treatment
Doxapram ...Study Participants
398Preterm infants often suffer from apnea of prematurity (AOP; a cessation of breathing) due to immaturity of the respiratory system. AOP can lead to oxygen shortage and a low heart rate which might harm the development of the newborn, especially the central nervous system. In order to prevent oxygen shortage, infants are treated with non-invasive respiratory support and caffeine. Despite these treatments, many preterm newborns still suffer from AOP and need invasive mechanical ventilation. Although this will result in complete resolution of AOP, invasive mechanical ventilation has the disadvantage of being a major risk of chronic lung disease and impaired neurodevelopmental outcome. Restrictive invasive ventilation is therefore advocated nowadays in preterm infants. Doxapram is a respiratory stimulant that has been administered off-label to treat AOP. Doxapram, as add-on treatment, seems to be effective in treating AOP and to prevent invasive mechanical ventilation. It is unclear if a preterm infant benefit from doxapram treatment on the longer term. This study compares doxapram to placebo and hypothesizes that doxapram will protect preterm infants from both invasive ventilation (and related lung disease) and AOP related oxygen shortage (and related impaired brain development).
The main objective of the trial is to investigate if doxapram is safe and effective in reducing the composite outcome of death and neurodevelopmental impairment/severe disability at 2 years corrected age as compared to placebo. This multicenter double blinded randomized placebo-controlled superiority trial will be conducted in multiple neonatal intensive care units in the Netherlands and Belgium, including 8 years follow-up. After written informed-consent the patients will be randomized into the doxapram treatment group or the placebo treatment group. Randomization will be stratified based on center and gestational age < or >= 26 weeks.
The participating departments include Dutch and Belgian Neonatal Intensive care units. The units include both academic and non-academic level III and IV units that are specialized in the care for critically ill and preterm born infants. Postnatal ages of patients at doxapram start vary from directly after birth up to months for the most-preterm born infants.
Blinded continuous doxapram or placebo (glucose 5%) will be infused as long as needed. Therapy is down titrated or stopped based on the patients' condition. If endotracheal intubation is needed study drug is stopped. After extubation study drug may be restarted. Switch to gastro-enteral administration is allowed if no iv-access is needed for other reasons. Next to study drug infusion, there will be no other study-related interventions. All outcome variables are already collected as standard of care. In a subset of patients doxapram plasma levels will be determined to validate the doxapram pharmacokinetic (PK) model. Blood will only be collected during routine blood sampling, with a maximum amount of 0.6 ml. Economic and cost-effectiveness evaluation will be performed. The national protocol for preterm birth advices follow-up at 2, 5.5 and 8 years respectively, as in the current study. Additional questionnaires will be used to collect data on the quality of life of patients and their parents.
Loading dose and continuous placebo infusion.
Blinded doxapram (2mg/ml, in glucose 5%) loading dose of 2.0 to 2.5 mg/kg administered in 5 to 10 minutes, followed by a continuous infusion of 0.5 - 1.0 mg/kg/hr ('www.kinderformularium.nl') as long as needed. Therapy is down titrated or stopped based on the patients' respiratory condition. If endotracheal intubation is needed study drug is stopped. After extubation study drug may be restarted. Switch to gastro-enteral administration is allowed if no iv-access is needed for other reasons.
Placebo (glucose 5%) will also be administered with a loading dose and continuous infusion (in equal amounts of fluid as in experimental arm) by intravenous or gastro-intestinal infusion. The treatment protocol will be equal to the protocol in the doxapram arm.
Inclusion Criteria: Admitted to the neonatal intensvie care unit (NICU) of one of the participating centres Written informed consent of both parents or legal representatives Gestational age at birth < 29 weeks Caffeine therapy, adequately dosed (see also under co-medication) Optimal Non-invasively supported with nasal Continuous Positive Airway Pressure (CPAP) or ventilation ((S)NIPPV, NIV-NAVA, BIPAP/Duopap, SIPAP) Apnea that require a medical intervention as judged by the attending physician Exclusion Criteria: Previous use of open label doxapram Use of theophylline (to replace doxapram) Chromosomal defects (e.g. trisomy 13, 18, or 21) Major congenital malformations that: compromise lung function (e.g. surfactant protein deficiencies, congenital diaphragmatic hernia); result in chronic ventilation (e.g. Pierre Robin sequence); increase the risk of death or adverse neurodevelopmental outcome (congenital cerebral malformations, chromosomal abnormalities); Palliative care or treatment limitations because of high risk of impaired outcome.
