Published on in Vol 3, No 1 (2016): Jan-Jun

Changes in Default Alarm Settings and Standard In-Service are Insufficient to Improve Alarm Fatigue in an Intensive Care Unit: A Pilot Project

Changes in Default Alarm Settings and Standard In-Service are Insufficient to Improve Alarm Fatigue in an Intensive Care Unit: A Pilot Project

Changes in Default Alarm Settings and Standard In-Service are Insufficient to Improve Alarm Fatigue in an Intensive Care Unit: A Pilot Project

Journals

  1. Shanmugham M, Strawderman L, Babski-Reeves K, Bian L. Alarm-Related Workload in Default and Modified Alarm Settings and the Relationship Between Alarm Workload, Alarm Response Rate, and Care Provider Experience: Quantification and Comparison Study. JMIR Human Factors 2018;5(4):e11704 View
  2. Sowan A, Vera A, Fonseca E, Reed C, Tarriela A, Berndt A. Nurse Competence on Physiologic Monitors Use: Toward Eliminating Alarm Fatigue in Intensive Care Units. The Open Medical Informatics Journal 2017;11(1):1 View
  3. Kaur D, Panos R, Badawi O, Bapat S, Wang L, Gupta A. Evaluation of clinician interaction with alerts to enhance performance of the tele-critical care medical environment. International Journal of Medical Informatics 2020;139:104165 View
  4. Rayo M, Moffatt-Bruce S. Diagnosing and Treating “Alarm Fatigue”: Pragmatic and Evidence-Based Approaches Needed. The Joint Commission Journal on Quality and Patient Safety 2016;42(7):291 View
  5. Dinis S, Rabiais I. Fatores que interferem na resposta dos enfermeiros na monitorização dos alarmes clínicos. Revista Brasileira de Enfermagem 2017;70(1):172 View
  6. Vitoux R, Schuster C, Glover K. Perceptions of Infusion Pump Alarms. Journal of Infusion Nursing 2018;41(5):309 View
  7. Freysdóttir G, Björnsdóttir K, Svavarsdóttir M. Nurses’ use of monitors in patient surveillance: an ethnographic study on a coronary care unit. European Journal of Cardiovascular Nursing 2019;18(4):272 View
  8. Anderson D, Jackson A, Halpern N. Informatics for the Modern Intensive Care Unit. Critical Care Nursing Quarterly 2018;41(1):60 View
  9. Glover K, Vitoux R, Schuster C, Curtin C. Types and Frequency of Infusion Pump Alarms: Protocol for a Retrospective Data Analysis. JMIR Research Protocols 2018;7(6):e10446 View
  10. Johnson K, Hagadorn J, Sink D. Alarm Safety and Alarm Fatigue. Clinics in Perinatology 2017;44(3):713 View
  11. Fernandes C, Miles S, Lucena C, Cowan D. Artificial Intelligence Technologies for Coping with Alarm Fatigue in Hospital Environments Because of Sensory Overload: Algorithm Development and Validation. Journal of Medical Internet Research 2019;21(11):e15406 View
  12. Sowan A, Reed C, Staggers N. Role of Large Clinical Datasets From Physiologic Monitors in Improving the Safety of Clinical Alarm Systems and Methodological Considerations: A Case From Philips Monitors. JMIR Human Factors 2016;3(2):e24 View
  13. Pelter M, Suba S, Sandoval C, Zègre-Hemsey J, Berger S, Larsen A, Badilini F, Hu X. Actionable Ventricular Tachycardia During In-Hospital ECG Monitoring and Its Impact on Alarm Fatigue. Critical Pathways in Cardiology: A Journal of Evidence-Based Medicine 2020;19(2):79 View
  14. Bach T, Berglund L, Turk E. Managing alarm systems for quality and safety in the hospital setting. BMJ Open Quality 2018;7(3):e000202 View
  15. . Managing Alarms in Acute Care Across the Life Span: Electrocardiography and Pulse Oximetry. Critical Care Nurse 2018;38(2):e16 View
  16. Milhomme D, Douville F, Beaulieu D, Pomerleau É. Étude descriptive des facteurs influençant la décision des infirmières de régler et moduler les paramètres d’alarme des systèmes de monitorage aux soins intensifs. Revue Francophone Internationale de Recherche Infirmière 2019;5(3) View
  17. Wung S, Schatz M. Critical Care Nurses’ Cognitive Ergonomics Related to Medical Device Alarms. Critical Care Nursing Clinics of North America 2018;30(2):191 View
  18. Poncette A, Spies C, Mosch L, Schieler M, Weber-Carstens S, Krampe H, Balzer F. Clinical Requirements of Future Patient Monitoring in the Intensive Care Unit: Qualitative Study. JMIR Medical Informatics 2019;7(2):e13064 View
  19. Waterson J, Bedner A. Types and Frequency of Infusion Pump Alarms and Infusion-Interruption to Infusion-Recovery Times for Critical Short Half-Life Infusions: Retrospective Data Analysis. JMIR Human Factors 2019;6(3):e14123 View
  20. Alsaad A, Alman C, Thompson K, Park S, Monteau R, Maniaci M. A multidisciplinary approach to reducing alarm fatigue and cost through appropriate use of cardiac telemetry. Postgraduate Medical Journal 2017;93(1101):430 View
  21. Vitoux R, Schuster C, Glover K, Dekker M. Frequency and Duration of Infusion Pump Alarms: Establishing National Benchmarks. Biomedical Instrumentation & Technology 2018;52(6):433 View
  22. Assis A, Oliveira F, Camerini F, Silva R, Moraes C. Individualized parameterization of multiparametric monitors alarms in infarcted patients. Revista Brasileira de Enfermagem 2019;72(3):609 View
  23. Hagan R, Gillan C, Spence I, McAuley D, Shyamsundar M. Comparing regression and neural network techniques for personalized predictive analytics to promote lung protective ventilation in Intensive Care Units. Computers in Biology and Medicine 2020;126:104030 View
  24. Lewandowska K, Weisbrot M, Cieloszyk A, Mędrzycka-Dąbrowska W, Krupa S, Ozga D. Impact of Alarm Fatigue on the Work of Nurses in an Intensive Care Environment—A Systematic Review. International Journal of Environmental Research and Public Health 2020;17(22):8409 View
  25. Sowan A, Staggers N, Berndt A, Austin T, Reed C, Malshe A, Kilger M, Fonseca E, Vera A, Chen Q. Improving the Safety, Effectiveness, and Efficiency of Clinical Alarm Systems: Simulation-Based Usability Testing of Physiologic Monitors. JMIR Nursing 2021;4(1):e20584 View
  26. Lee S, Lee Y, Seo E, Son Y. Impact of Hospital Nurses’ Perception on Clinical Alarms and Patient Safety Culture on Alarm Management Practice. International Journal of Environmental Research and Public Health 2021;18(8):4018 View
  27. Deschamps M, Sanderson P. Nurses’ use of auditory alarms and alerts in high dependency units: A field study. Applied Ergonomics 2021;96:103475 View
  28. Claudio D, Deb S, Diegel E. A Framework to Assess Alarm Fatigue Indicators in Critical Care Staff. Critical Care Explorations 2021;3(6):e0464 View
  29. Watanakeeree K, Suba S, Mackin L, Badilini F, Pelter M. ECG alarms during left ventricular assist device (LVAD) therapy in the ICU. Heart & Lung 2021;50(6):763 View
  30. Kim E, Kim M. Intensive Care Unit Nurse's Reaction Experience to Patient Monitoring Medical Device Alarms. Journal of Korean Academy of Nursing Administration 2021;27(3):215 View
  31. Seifert M, Tola D, Thompson J, McGugan L, Smallheer B. Effect of bundle set interventions on physiologic alarms and alarm fatigue in an intensive care unit: A quality improvement project. Intensive and Critical Care Nursing 2021:103098 View

Books/Policy Documents

  1. Kobler I, Angerer A, Schwappach D. Structural Approaches to Address Issues in Patient Safety. View
  2. Pelter M, Hu X. Sex and Cardiac Electrophysiology. View
  3. Kaur P, Rickard C, S. Domer G, R. Glover K. Vignettes in Patient Safety - Volume 4 [Working Title]. View