TY - JOUR
T1 - Avoidance of mechanical ventilation by surfactant treatment of spontaneously breathing preterm infants (AMV): An open-label, randomised, controlled trial
AU - Göpel, Wolfgang
AU - Kribs, Angela
AU - Ziegler, Andreas
AU - Laux, Reinhard
AU - Hoehn, Thomas
AU - Wieg, Christian
AU - Siegel, Jens
AU - Avenarius, Stefan
AU - Von Der Wense, Axel
AU - Vochem, Matthias
AU - Groneck, Peter
AU - Weller, Ursula
AU - Möller, Jens
AU - Härtel, Christoph
AU - Haller, Sebastian
AU - Roth, Bernhard
AU - Herting, Egbert
N1 - Funding Information:
EH has received speaking fees and travel grants from the surfactant-producing companies Abbot, Chiesi, Nycomed, Boehringer, and Altana. EH has participated in clinical trials sponsored by Abbott, Boehringer, Chiesi, Byk Gulden, Altana, and Nycomed. EH has worked on advisory boards for Chiesi, Nycomed, and Draeger Medical, a company working in the field of neonatal ventilation, monitoring, and thermal care. EH received no money personally for this study, the support was institutional to cover insurance and other regulatory costs of the trial.
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2011
Y1 - 2011
N2 - Surfactant is usually given to mechanically ventilated preterm infants via an endotracheal tube to treat respiratory distress syndrome. We tested a new method of surfactant application to spontaneously breathing preterm infants to avoid mechanical ventilation. In a parallel-group, randomised controlled trial, 220 preterm infants with a gestational age between 26 and 28 weeks and a birthweight less than 1·5 kg were enrolled in 12 German neonatal intensive care units. Infants were independently randomised in a 1:1 ratio with variable block sizes, to standard treatment or intervention, and randomisation was stratified according to centre and multiple birth status. Masking was not possible. Infants were stabilised with continuous positive airway pressure and received rescue intubation if necessary. In the intervention group, infants received surfactant treatment during spontaneous breathing via a thin catheter inserted into the trachea by laryngoscopy if they needed a fraction of inspired oxygen more than 0·30. The primary endpoint was need for any mechanical ventilation, or being not ventilated but having a partial pressure of carbon dioxide more than 65 mm Hg (8·6 kPa) or a fraction of inspired oxygen more than 0·60, or both, for more than 2 h between 25 h and 72 h of age. Analysis was by intention to treat. This study is registered, number ISRCTN05025922. 108 infants were assigned to the intervention group and 112 infants to the standard treatment group. All infants were analysed. On day 2 or 3 after birth, 30 (28) infants in the intervention group were mechanically ventilated versus 51 (46) in the standard treatment group (number needed to treat 6, 95 CI 3-20, absolute risk reduction 0·18, 95 CI 0·30-0·05, p=0·008). 36 (33) infants in the intervention group were mechanically ventilated during their stay in the hospital compared with 82 (73) in the standard treatment group (number needed to treat: 3, 95 CI 2-4, p<0·0001). The intervention group had significantly fewer median days on mechanical ventilation, (0 days. IQR 0-3 vs 2 days, 0-5) and a lower need for oxygen therapy at 28 days (30 infants [30] vs 49 infants [45], p=0·032) compared with the standard treatment group. We recorded no differences between groups for mortality (seven deaths in the intervention group vs five in the standard treatment group) and serious adverse events (21 vs 28). The application of surfactant via a thin catheter to spontaneously breathing preterm infants receiving continuous positive airway pressure reduces the need for mechanical ventilation. German Ministry of Research and Technology, University of Lübeck, and Chiesi Pharmaceuticals.
AB - Surfactant is usually given to mechanically ventilated preterm infants via an endotracheal tube to treat respiratory distress syndrome. We tested a new method of surfactant application to spontaneously breathing preterm infants to avoid mechanical ventilation. In a parallel-group, randomised controlled trial, 220 preterm infants with a gestational age between 26 and 28 weeks and a birthweight less than 1·5 kg were enrolled in 12 German neonatal intensive care units. Infants were independently randomised in a 1:1 ratio with variable block sizes, to standard treatment or intervention, and randomisation was stratified according to centre and multiple birth status. Masking was not possible. Infants were stabilised with continuous positive airway pressure and received rescue intubation if necessary. In the intervention group, infants received surfactant treatment during spontaneous breathing via a thin catheter inserted into the trachea by laryngoscopy if they needed a fraction of inspired oxygen more than 0·30. The primary endpoint was need for any mechanical ventilation, or being not ventilated but having a partial pressure of carbon dioxide more than 65 mm Hg (8·6 kPa) or a fraction of inspired oxygen more than 0·60, or both, for more than 2 h between 25 h and 72 h of age. Analysis was by intention to treat. This study is registered, number ISRCTN05025922. 108 infants were assigned to the intervention group and 112 infants to the standard treatment group. All infants were analysed. On day 2 or 3 after birth, 30 (28) infants in the intervention group were mechanically ventilated versus 51 (46) in the standard treatment group (number needed to treat 6, 95 CI 3-20, absolute risk reduction 0·18, 95 CI 0·30-0·05, p=0·008). 36 (33) infants in the intervention group were mechanically ventilated during their stay in the hospital compared with 82 (73) in the standard treatment group (number needed to treat: 3, 95 CI 2-4, p<0·0001). The intervention group had significantly fewer median days on mechanical ventilation, (0 days. IQR 0-3 vs 2 days, 0-5) and a lower need for oxygen therapy at 28 days (30 infants [30] vs 49 infants [45], p=0·032) compared with the standard treatment group. We recorded no differences between groups for mortality (seven deaths in the intervention group vs five in the standard treatment group) and serious adverse events (21 vs 28). The application of surfactant via a thin catheter to spontaneously breathing preterm infants receiving continuous positive airway pressure reduces the need for mechanical ventilation. German Ministry of Research and Technology, University of Lübeck, and Chiesi Pharmaceuticals.
UR - http://www.scopus.com/inward/record.url?scp=80555149397&partnerID=8YFLogxK
U2 - 10.1016/S0140-6736(11)60986-0
DO - 10.1016/S0140-6736(11)60986-0
M3 - Journal articles
C2 - 21963186
AN - SCOPUS:80555149397
SN - 0140-6736
VL - 378
SP - 1627
EP - 1634
JO - The Lancet
JF - The Lancet
IS - 9803
ER -