Heliox improves pulmonary mechanics in a pediatric porcine model of induced severe bronchospasm and independent lung mechanical ventilation

Background: A helium-oxygen gas mixture (heliox) has low gas density and low turbulence and resistance through narrowed airways. The effects of heliox on pulmonary mechanics following severe methacholine-induced bronchospasm were investigated and compared to those of a nitrogen-oxygen gas mixture (nitrox) in an innovative pediatric porcine, independent lung, mechanical ventilation model.

      Results:
      All of the lungs showed evidence of severe bronchospasm after
            methacholine challenge. Prospective definition of 'heliox response'
            was a 15% or greater improvement in lung function in the lung receiving heliox
            compared with the matched lung receiving nitrox. Seven out of 10 pigs responded
            to heliox therapy with respect to resistance and eight out of 10 pigs responded
            to heliox therapy with respect to compliance and tidal volume (P
            < 0.03). After crossover from nitrox to heliox, eight out of eight lungs
            significantly improved with respect to tidal volume, resistance and compliance
            (P < 0.001). After crossover from heliox to nitrox all eight lungs
            showed a significant increase in resistance and a significant decrease in tidal
            volume (P < 0.001).


      Conclusions:
      In a pediatric porcine model of acute, severe methacholine-induced
            bronchospasm and independent lung mechanical ventilation, administration of
            heliox improves pulmonary mechanics, gas flow, and ventilation. Administration
            of heliox should be considered for support of pediatric patients with acute,
            severe bronchospasm requiring mechanical ventilation through small artificial
            airways.

Data e Risorse

Campo Valore
accessLevel public
bureauCode {009:25}
catalog_@context https://project-open-data.cio.gov/v1.1/schema/catalog.jsonld
catalog_@id https://healthdata.gov/data.json
catalog_conformsTo https://project-open-data.cio.gov/v1.1/schema
catalog_describedBy https://project-open-data.cio.gov/v1.1/schema/catalog.json
identifier https://healthdata.gov/api/views/ysus-tnrj
issued 2025-07-13
landingPage https://healthdata.gov/d/ysus-tnrj
modified 2025-09-06
programCode {009:048}
publisher National Institutes of Health
resource-type Dataset
source_datajson_identifier true
source_hash bfe95ca18599d7d40b6e10034c0c0d36e79088c97d798febacd62ee995a8af26
source_schema_version 1.1
theme {NIH}
Gruppi
  • AmeriGEOSS
  • National Provider
  • North America
Tag
  • AmeriGEO
  • AmeriGEOSS
  • CKAN
  • GEO
  • GEOSS
  • National
  • North America
  • United States
  • heliox-therapy
  • nih
  • pediatric-bronchospasm
  • porcine-model
  • pulmonary-mechanics
isopen False
license_id notspecified
license_title License not specified
maintainer NIH
maintainer_email info@nih.gov
metadata_created 2025-09-24T21:12:38.290082
metadata_modified 2025-09-24T21:12:38.290091
notes Background: A helium-oxygen gas mixture (heliox) has low gas density and low turbulence and resistance through narrowed airways. The effects of heliox on pulmonary mechanics following severe methacholine-induced bronchospasm were investigated and compared to those of a nitrogen-oxygen gas mixture (nitrox) in an innovative pediatric porcine, independent lung, mechanical ventilation model. Results: All of the lungs showed evidence of severe bronchospasm after methacholine challenge. Prospective definition of 'heliox response' was a 15% or greater improvement in lung function in the lung receiving heliox compared with the matched lung receiving nitrox. Seven out of 10 pigs responded to heliox therapy with respect to resistance and eight out of 10 pigs responded to heliox therapy with respect to compliance and tidal volume (P < 0.03). After crossover from nitrox to heliox, eight out of eight lungs significantly improved with respect to tidal volume, resistance and compliance (P < 0.001). After crossover from heliox to nitrox all eight lungs showed a significant increase in resistance and a significant decrease in tidal volume (P < 0.001). Conclusions: In a pediatric porcine model of acute, severe methacholine-induced bronchospasm and independent lung mechanical ventilation, administration of heliox improves pulmonary mechanics, gas flow, and ventilation. Administration of heliox should be considered for support of pediatric patients with acute, severe bronchospasm requiring mechanical ventilation through small artificial airways.
num_resources 1
num_tags 13
title Heliox improves pulmonary mechanics in a pediatric porcine model of induced severe bronchospasm and independent lung mechanical ventilation