ScottJB, De VauxL, DillsC, StricklandSL. Mechanical ventilation and alarm fatigue. Respir Care, 2019; 64(10):1308-1313.
2.
WalshBK, WaughJB. Alarm strategies and surveillance for mechanical ventilation. Respir Care, 2020; 65(6):820-831.
3.
CvachM, StokesJ, ManzoorS, BrooksP, BurgerT, GottschalkA, PustavoitauA. Ventilator alarms in intensive care units: frequency, duration, priority, and relationship to ventilator parameters. Anesth Analg, 2020; 130(1):e9-e13.
4.
The Joint Commission. Medical device alarm safety in hospitals. Sentinel Event Alert, 2013; 8(50):1-3.
5.
ECRI Institute. 2019 top 10 health technology hazards executive brief: a report from health devices. Plymouth Meeting, Pennsylvania: ECRI Institute; 2018.
JoshiR, MortelHVD, FeijsL, AndriessenP, PulCV. The heuristics of nurse responsiveness to critical patient monitor and ventilator alarms in a private room neonatal intensive care unit. PLoS ONE, 2017; 12(10):e0184567.
8.
LiptonJA, VamEM, BarendseRJ, Van DamTB, Van Der PuttenNHJJ, NelwanSP. Alarms on the intensive cardiac care unit. Comput Cardiol, 2009; 36:253-256.
9.
LawlessST. Crying wolf: false alarms in a pediatric intensive care unit. Crit Care Med, 1994; 22(6):981-985.
10.
LanggaL, OhJ, LópezD. Prevalence, proportionality, and cause of ventilator alarms in a pediatric intensive care setting. Respir Care, 2020; 66(4):541-550.
11.
FernandesCO, MilesS, LucenaCJP, CowanD. Artificial intelligence technologies for coping with alarm fatigue in hospital environments because of sensory overload: algorithm development and validation. J Med Internet Res, 2019; 21(11):e15406.
