Esquinas RodriguezAM, ScalaR, SorokskyA, BaHammamA, de KlerkA, ValipourA, et al. Clinical review: humidifiers during non-invasive ventilation: key topics and practical implications. Crit Care, 2012; 16(1):203.
2.
LelloucheF, PignataroC, MaggioreSM, GirouE, DeyeN, TailléS, et al. Short-term effects of humidification devices on respiratory pattern and arterial blood gases during noninvasive ventilation. Respir Care, 2012; 57(11):1879-1886.
3.
LucatoJJ, TucciMR, SchettinoGP, AdamsAB, FuC, FortiGJr, et al. Evaluation of resistance in 8 different heat-and-moisture exchangers: effects of saturation and flow rate/profile. Respir Care, 2005; 50(5):636-643.
4.
Morgan-HughesNJ, MillsGH, NorthwoodD. Air flow resistance of three heat and moisture exchanging filter designs under wet conditions: implications for patient safety. Br J Anaesth, 2001; 87(2):289-291.
5.
MartinC, ThomachotL, QuinioB, ViviandX, AlbaneseJ. Comparing two heat and moisture exchangers with one vaporizing humidifier in patients with minute ventilation greater than 10 L/min. Chest, 1995; 107(5):1411-1415.
6.
CampbellRS, DavisKJr, JohannigmanJA, BransonRD. The effects of passive humidifier dead space on respiratory variables in paralyzed and spontaneously breathing patients. Respir Care, 2000; 45(3):306-312.
7.
LelloucheF, TailléS, LefrançoisF, DeyeN, MaggioreSM, JouvetP, et al; Groupe de travail sur les Respirateurs de l'AP-HP. Humidification performance of 48 passive airway humidifiers: comparison with manufacturer data. Chest, 2009; 135(2):276-286.
8.
GiraultC, BretonL, RichardJC, TamionF, VandeletP, AboabJ, et al. Mechanical effects of airway humidification devices in difficult to wean patients. Crit Care Med, 2003; 31(5):1306-1311.
