BarskyEE, GiancolaLM, BaxiSN, GaffinJM. A practical approach to severe asthma in children. Ann Am Thorac Soc, 2018; 15(4):399-408.
2.
MiksaM, KaushikS, AntovertG, BrownS, UshayHM, KatyalC. Implementation of a critical care asthma pathway in the PICU. Crit Care Explor, 2021; 3(2):e0334.
3.
BrattonSL, OdetolaFO, McColleganJ, CabanaMD, LevyFH, KeenanHT. Regional variation in ICU care for pediatric patients with asthma. J Pediatr, 2005; 147(3):355-361.
4.
BrattonSL, NewthCJ, ZuppaAF, MolerFW, MeertKL, BergRA, et al. Eunice Kennedy Shriver National Institute of Child Health and Human Development Collaborative Pediatric Critical Care Research Network. Critical care for pediatric asthma: wide care variability and challenges for study. Pediatr Crit Care Med, 2012; 13(4):407-414.
5.
KucherNM, DSD, FischerGA, DaveyCS, GuptaS. Implementation of a critical asthma protocol in a pediatric ICU. Respir Care, 2021; 66(4):635-643.
6.
LewA, MorrisonJ, AmankwahE, SochetA. Heliox prescribing trends for pediatric critical asthma: a multi-center, registry-based study. Respir Care, 2022; 67(5):510-519.
7.
HuntT, WilliamsMT, FrithP, SchembriD. Heliox, dyspnea, and exercise in COPD. Eur Respir Rev, 2010; 19(115):30-38.
8.
RodrigoGJ, Castro-RodriguezJA. Heliox-driven beta2-agonists nebulization for children and adults with acute asthma: a systematic review with meta-analysis. Ann Allergy Asthma Immunol, 2014; 112(1):29-34.
9.
ReubenAD, HarrisAR. Heliox for asthma in the emergency department: a review of the literature. Emerg Med J, 2004; 21(2):131-135.
10.
SmithA, FrancaUL, McManusML. Trends in the use of noninvasive and invasive ventilation for severe asthma. Pediatrics, 2020; 146(4).
11.
PilarJ, ModestoIAV, Lopez-FernandezYM, Lopez-MaciasO, Garcia-UrabayenD, Amores-HernandezI. High-flow nasal cannula therapy versus noninvasive ventilation in children with severe acute asthma exacerbation: an observational cohort study. Med Intensiva, 2017; 41(7):418-424.
12.
RiveraML, KimTY, StewartGM, MinasyanL, BrownL. Albuterol nebulized in heliox in the initial ED treatment of pediatric asthma: a blinded, randomized controlled trial. Am J Emerg Med, 2006; 24(1):38-42.
13.
KudukisTM, ManthousCA, SchmidtGA, HallJB, WylamME. Inhaled helium-oxygen revisited: effect of inhaled helium-oxygen during the treatment of status asthmaticus in children. J Pediatr, 1997; 130(2):217-224.
14.
LeathermanJW, RomeroRS, ShapiroRS. Lack of benefit of heliox during mechanical ventilation of subjects with severe air flow obstruction. Respir Care, 2018; 63(4):375-379.
15.
GuptaVK, CheifetzIM. Heliox administration in the pediatric intensive care unit: an evidence-based review. Pediatr Crit Care Med, 2005; 6(2):204-211.
16.
Abd-AllahSA, RogersMS, TerryM, GrossM, PerkinRM. Helium-oxygen therapy for pediatric acute severe asthma requiring mechanical ventilation. Pediatr Crit Care Med, 2003; 4(3):353-357.
17.
ShiueST, GluckEH. The use of helium-oxygen mixtures in the support of patients with status asthmaticus and respiratory acidosis. J Asthma, 1989; 26(3):177-180.
18.
BasnetS, ManderG, AndohJ, KlaskaH, VerhulstS, KoiralaJ. Safety, efficacy, and tolerability of early initiation of noninvasive positive-pressure ventilation in pediatric patients admitted with status asthmaticus: a pilot study. Pediatr Crit Care Med, 2012; 13(4):393-398.
19.
RehderKJ. Adjunct therapies for refractory status asthmaticus in children. Respir Care, 2017; 62(6):849-865.
20.
CarrollCL, SekaranAK, LererTJ, SchrammCM. A modified pulmonary index score with predictive value for pediatric asthma exacerbations. Ann Allergy Asthma Immunol, 2005; 94(3):355-359.
21.
MillerAG, HaynesKE, GatesRM, ZimmermanKO, BartlettKW, McLeanHS, et al. Initial modified pulmonary index score predicts hospital length of stay for asthma subjects admitted to the pediatric intensive care unit. Respir Care, 2020; 65(9):1227-1232.
