Humidification during high-frequency oscillation ventilation is affected by ventilator circuit and ventilatory setting

Summary Background:  High‐frequency oscillation ventilation (HFOV) is an accepted ventilatory mode for acute respiratory failure in neonates. As conventional mechanical ventilation, inspiratory gas humidification is essential. However, humidification during HFOV has not been clarified. In this bench...

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Bibliographic Details
Published in:Pediatric anesthesia 2009-08, Vol.19 (8), p.779-783
Main Authors: CHIKATA, YUSUKE, IMANAKA, HIDEAKI, ONISHI, YOSHIAKI, UETA, MASAHIKO, NISHIMURA, MASAJI
Format: Article
Language:English
Subjects:
absolute humidity
Heating - methods
high-frequency oscillation ventilation
High-Frequency Ventilation - instrumentation
High-Frequency Ventilation - methods
Humans
humidification
Humidity
ICU
Infant, Newborn
Inhalation
Intensive Care, Neonatal - methods
Respiratory Insufficiency - therapy
Temperature
Ventilators, Mechanical - standards
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Summary:Summary Background:  High‐frequency oscillation ventilation (HFOV) is an accepted ventilatory mode for acute respiratory failure in neonates. As conventional mechanical ventilation, inspiratory gas humidification is essential. However, humidification during HFOV has not been clarified. In this bench study, we evaluated humidification during HFOV in the open circumstance of ICU. Our hypothesis is that humidification during HFOV is affected by circuit design and ventilatory settings. Methods/Materials:  We connected a ventilator with HFOV mode to a neonatal lung model that was placed in an infant incubator set at 37°C. We set a heated humidifier (Fisher & Paykel) to obtain 37°C at the chamber outlet and 40°C at the distal temperature probe. We measured absolute humidity and temperature at the Y‐piece using a rapid‐response hygrometer. We evaluated two types of ventilator circuit: a circuit with inner heating wire and another with embedded heating element. In addition, we evaluated three lengths of the inspiratory limb, three stroke volumes, three frequencies, and three mean airway pressures. Results:  The circuit with embedded heating element provided significantly higher absolute humidity and temperature than one with inner heating wire. As an extended tube lacking a heating wire was shorter, absolute humidity and temperature became higher. In the circuit with inner heating wire, absolute humidity and temperature increased as stroke volume increased. Conclusion:  Humidification during HFOV is affected by circuit design and ventilatory settings.
ISSN:1155-5645
1460-9592
DOI:10.1111/j.1460-9592.2009.03068.x