Inhaled Nitric Oxide by Oxygen Hood in Neonates

University of Alabama at Birmingham8 enrolled

Overview

Inhaled nitric oxide (iNO) improves oxygenation in term infants with respiratory failure. However, iNO has been primarily used in infants receiving mechanical ventilation. This study is a pilot study to determine if iNO given into an oxygen hood is effective in improving oxygenation in term and near-term infants who have poor oxygenation but who are not yet mechanically ventilated.

Inhaled nitric oxide (iNO) is currently used in the management of ventilated neonates with hypoxemic respiratory failure. We have shown that iNO administered by oxygen hood reduces pulmonary vascular resistance in hypoxia- and group B streptococcus-induced pulmonary hypertension in an animal model (J Perinatol 2002; 22:50-6). Our objective was to determine the feasibility of iNO administration by oxygen hood in neonates with respiratory failure. Methods: A masked randomized controlled trial was performed on eight infants with respiratory failure. Inclusion criteria were: gestation\>34 weeks, age\<7 days, with post-ductal arterial line, and A-aDO2 400-600 on two consecutive blood gases. Infants were randomized to study gas (iNO at 20 ppm or equivalent flow of O2) for 1 hr which was then weaned over the next 4 hours. The iNO was introduced into an oxygen hood using an INOvent (INO Therapeutics, Inc). The primary outcome was the PaO2 one hour after randomization. Environmental leakage of NO and NO2 were measured. Results: Four infants were randomized to iNO and four to O2 (controls). Two of the four infants given iNO had an increase in PaO2 of \>100 mm Hg, while oxygenation was unchanged in the controls. Methemoglobinemia and other adverse effects were not noted in any infant. Environmental levels of NO and NO2 were minimal (\<1ppm) to undetectable at \>0.3m from the hood. Conclusions: Administration of iNO by oxygen hood is feasible. Larger randomized controlled trials are required to measure the efficacy and determine an appropriate target population for this technique.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

TRIPLE

Enrollment

Conditions

Respiratory Failure Infant Persistent Fetal Circulation

Interventions

inhaled Nitric OxideDRUG

iNO started at 20 ppm for 1 hour, then weaned hourly over the next 4 hours (20 ppm to 10 to 5 to 2.5 to 1 to off). If \>5% drop in oxygen saturation was observed during weaning, study gas was increased to the previous concentration and weaning done 2 hourly. If \> 5% drop in oxygen saturation or \>5% Methemoglobin was observed during initial administration, the study gas would be weaned over 30 minutes and the infant would exit. The iNO was introduced into an oxygen hood (Oxydome ™ disposable hood from Maxtex ® Inc.) using an INOvent (Datex-Ohmeda). The INOvent ® was connected to the oxyhood by placing the injector module inline on the dry side of the humidifier chamber. Monitoring of O2, NO2, NO was done by placing the end of the sample line inside the oxyhood. A "Masking Shield" covered the Display/Control Panel and Cylinder Gauges, in order to maintain masking of the intervention. Only the respiratory therapist and research coordinator was aware of the allocation assignment.

Oxygen (>90% by hood) - standard therapyDRUG

Oxygen (\>90% by hood, standard therapy for PPHN prior to intubation) was introduced into an oxygen hood (Oxydome ™ disposable hood from Maxtex ® Inc.) using an INOvent (Datex-Ohmeda). The INOvent ® was connected to the oxyhood by placing the injector module inline on the dry side of the humidifier chamber. If the baby was randomized to the control group and did not receive NO, the INOmax® cylinder was opened and used only to pressurize the system, which prevented the "Low NO Pressure" alarm. A "Masking Shield" covered the Display/Control Panel and Cylinder Gauges, in order to maintain masking of the intervention. Only the respiratory therapist and research coordinator was aware of the allocation assignment.

Eligibility

Sex: ALLMin age: 1 HourMax age: 1 Week

Medical Language ↔ Plain English

Inclusion Criteria: * gestation \>34 weeks at birth * age \<7 days * post-ductal arterial line * an A-aDO2 of 400 to 600 on two blood gases, at least 30 minutes apart. Exclusion Criteria: * Infants with major malformations * Infants with cardiac disease

Locations (1)

Regional Neonatal ICU, University of Alabama at Birmingham

Birmingham, Alabama, United States

Outcomes

Primary Outcomes

PaO2 one hour after the first hour of study gas

Time frame: one hour after the first hour of study gas

Secondary Outcomes

Alveolar-arterial oxygen gradient (A-a DO2)

Time frame: one hour of exposure to treatment gas

oxygen saturation by pulse oximetry (SpO2)

Time frame: continuously through the study

need for mechanical ventilation

Time frame: Continuously through the study

duration of oxygen therapy

Time frame: continuously through the study

Methemoglobin level in post-ductal arterial blood (MetHb)

Time frame: Hourly until completion of study in infant

Platelet count

Time frame: As needed if bleeding

Systemic blood pressure

Time frame: hourly

Environmental NO and NO2 exposure

Time frame: Hourly

Data from ClinicalTrials.gov

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