Purpose: Physiologic monitors are plagued with alarms that create a cacophony of sounds and visual alerts causing ‘‘alarm fatigue’’ which creates an unsafe patient environment because a life-threatening event may be missed in this milieu of sensory overload. Using a state-of-the-art technology acquisition infrastructure, all monitor data including 7 ECG leads, all pressure, SpO2, and respiration waveforms as well as user settings and alarms were stored on 461 adults treated in intensive care units. Using a well-defined alarm annotation protocol, nurse scientists with 95% inter-rater reliability annotated 12,671 arrhythmia alarms. Results: A total of 2,558,760 unique alarms occurred in the 31-day study period: arrhythmia, 1,154,201; paramete...
A phenomenon called alarm fatigue has been identified as an outcome of nearly 40 different alarms th...
Patient monitoring technology has been used to guide therapy and alert staff when a vital sign leave...
Background Alarm fatigue is hypothesized to be caused by vast amount of patient monitor alarms. Obje...
Physiologic monitors are plagued with alarms that create a cacophony of sounds and visual alerts cau...
PurposePhysiologic monitors are plagued with alarms that create a cacophony of sounds and visual ale...
Modern hospitals are plagued by excessive alarms generated by patient monitoring technologies with v...
Introduction: Physiologic monitors play a vital role in saving patients' lives but expose clinicians...
BACKGROUND:Clinicians in intensive care units experience alarm fatigue related to frequent false and...
The Intermediate Cardiology Unit (4RC) and the Cardiovascular Intensive Care Unit (CVICU) at the Uni...
Alarm fatigue, the progressive desensitization of clinical staff to audible alarms in their environm...
Introduction A high rate of false arrhythmia alarms in the intensive care unit (ICU) leads to alarm ...
BackgroundClinicians in intensive care units experience alarm fatigue related to frequent false and ...
BackgroundExcessive electrocardiographic alarms contribute to "alarm fatigue," which can lead to pat...
OBJECTIVES: to identify the number of electro-medical pieces of equipment in a coronary care unit, c...
A phenomenon called alarm fatigue has been identified as an outcome of nearly 40 different alarms th...
Patient monitoring technology has been used to guide therapy and alert staff when a vital sign leave...
Background Alarm fatigue is hypothesized to be caused by vast amount of patient monitor alarms. Obje...
Physiologic monitors are plagued with alarms that create a cacophony of sounds and visual alerts cau...
PurposePhysiologic monitors are plagued with alarms that create a cacophony of sounds and visual ale...
Modern hospitals are plagued by excessive alarms generated by patient monitoring technologies with v...
Introduction: Physiologic monitors play a vital role in saving patients' lives but expose clinicians...
BACKGROUND:Clinicians in intensive care units experience alarm fatigue related to frequent false and...
The Intermediate Cardiology Unit (4RC) and the Cardiovascular Intensive Care Unit (CVICU) at the Uni...
Alarm fatigue, the progressive desensitization of clinical staff to audible alarms in their environm...
Introduction A high rate of false arrhythmia alarms in the intensive care unit (ICU) leads to alarm ...
BackgroundClinicians in intensive care units experience alarm fatigue related to frequent false and ...
BackgroundExcessive electrocardiographic alarms contribute to "alarm fatigue," which can lead to pat...
OBJECTIVES: to identify the number of electro-medical pieces of equipment in a coronary care unit, c...
A phenomenon called alarm fatigue has been identified as an outcome of nearly 40 different alarms th...
Patient monitoring technology has been used to guide therapy and alert staff when a vital sign leave...
Background Alarm fatigue is hypothesized to be caused by vast amount of patient monitor alarms. Obje...