Influence of Ambient and Ventilator Output Temperatures on Performance of Heated-wire Humidifiers

Overview

Journal Am J Respir Crit Care Med

Specialty Critical Care

Date 2004 Jul 24

PMID 15271695

Citations 28

Authors

Francois Lellouche

Solenne Taille

Salvatore M Maggiore

Siham Qader

Erwan LHer

Nicolas Deye

Laurent Brochard

Affiliations

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Abstract

Although heated humidifiers are considered the most efficient humidification devices for mechanical ventilation, endotracheal tube occlusion caused by dry secretions has been reported with heated-wire humidifiers. We tested the hypothesis that inlet chamber temperature, influenced by ambient air and ventilator output temperatures, may affect humidifier performance, as assessed by hygrometry. Hygrometry was measured with three different humidifiers under several conditions, varying ambient air temperatures (high, 28-30 degrees C; and normal, 22-24 degrees C), ventilators with different gas temperatures, and two VE levels. Clinical measurements were performed to confirm bench measurements. Humidifier performance was strongly correlated with inlet chamber temperature in both the bench (p < 0.0001, r2 = 0.93) and the clinical study. With unfavorable conditions, absolute humidity of inspired gas was much lower than recommended (approximately 20 mg H2O/L). Performance was improved by specific settings or new compensatory algorithms. Hygrometry could be evaluated from condensation on the wall chamber only when ambient air temperature was normal but not with high air temperature. An increase in inlet chamber temperature induced by high ambient temperature markedly reduces the performance of heated-wire humidifiers, leading to a risk of endotracheal tube occlusion. Such systems should be avoided in these conditions unless automatic compensation algorithms are used.

Citing Articles

Consequences of Pausing Heated Humidification During Invasive Ventilation.

Lellouche F, Bouchard P Respir Care. 2024; 69(10):1239-1244.

PMID: 39079722 PMC: 11469002. DOI: 10.4187/respcare.12084.

Humidification during Invasive and Non-Invasive Ventilation: A Starting Tool Kit for Correct Setting.

Re R, Lassola S, De Rosa S, Bellani G Med Sci (Basel). 2024; 12(2).

PMID: 38804382 PMC: 11130810. DOI: 10.3390/medsci12020026.

Evaluation of the Humidification Performances of New Generation of Heated Wire Humidifiers.

Lellouche F, Rousseau E, Bouchard P Respir Care. 2023; 69(4):430-437.

PMID: 37734763 PMC: 11108101. DOI: 10.4187/respcare.11352.

Oribron: An Origami-Inspired Deformable Rigid Bronchoscope for Radial Support.

Su J, Zhang Y, Cheng L, Zhu L, Yang R, Niu F Micromachines (Basel). 2023; 14(4).

PMID: 37421055 PMC: 10144517. DOI: 10.3390/mi14040822.

Detection of Simulated Pediatric Breathing by CPAP/Noninvasive Ventilation Devices.

Fresnel E, Vedrenne-Cloquet M, Lebret M, Griffon L, Fauroux B, Khirani S Respir Care. 2023; 68(8):1087-1096.

PMID: 37221084 PMC: 10353172. DOI: 10.4187/respcare.10785.