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Anaesth Intensive Care · Jan 2021
Reducing medical device alarms by an order of magnitude: A human factors approach.
- Erik Koomen, Craig S Webster, David Konrad, Johannes G van der Hoeven, Thomas Best, Jozef Kesecioglu, Diederik Ampj Gommers, Willem B de Vries, and Teus H Kappen.
- Department of Paediatrics, Paediatric Intensive Care, Wilhelmina Children's Hospital, Academic Medical Centre Utrecht, Utrecht, The Netherlands.
- Anaesth Intensive Care. 2021 Jan 1; 49 (1): 52-61.
AbstractThe intensive care unit (ICU) is one of the most technically advanced environments in healthcare, using a multitude of medical devices for drug administration, mechanical ventilation and patient monitoring. However, these technologies currently come with disadvantages, namely noise pollution, information overload and alarm fatigue-all caused by too many alarms. Individual medical devices currently generate alarms independently, without any coordination or prioritisation with other devices, leading to a cacophony where important alarms can be lost amongst trivial ones, occasionally with serious or even fatal consequences for patients. We have called this approach to the design of medical devices the single-device paradigm, and believe it is obsolete in modern hospitals where patients are typically connected to several devices simultaneously. Alarm rates of one alarm every four minutes for only the physiological monitors (as recorded in the ICUs of two hospitals contributing to this paper) degrades the quality of the patient's healing environment and threatens patient safety by constantly distracting healthcare professionals. We outline a new approach to medical device design involving the application of human factors principles which have been successful in eliminating alarm fatigue in commercial aviation. Our approach comprises the networked-device paradigm, comprehensive alarms and humaniform information displays. Instead of each medical device alarming separately at the patient's bedside, our proposed approach will integrate, prioritise and optimise alarms across all devices attached to each patient, display information more intuitively and hence increase alarm quality while reducing the number of alarms by an order of magnitude below current levels.
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