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Citing this Article

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Published on 11.01.16 in Vol 3, No 1 (2016): Jan-Jun

This paper is in the following e-collection/theme issue:

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

According to Crossref, the following articles are citing this article (DOI 10.2196/humanfactors.5098):

(note that this is only a small subset of citations)

  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
    CrossRef
  2. Sowan AK, Vera AG, Fonseca EI, Reed CC, Tarriela AF, Berndt AE. Nurse Competence on Physiologic Monitors Use: Toward Eliminating Alarm Fatigue in Intensive Care Units. The Open Medical Informatics Journal 2017;11(1):1
    CrossRef
  3. Kaur D, Panos RJ, Badawi O, Bapat SS, 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
    CrossRef
  4. Rayo MF, Moffatt-Bruce SD. Diagnosing and Treating “Alarm Fatigue”: Pragmatic and Evidence-Based Approaches Needed. The Joint Commission Journal on Quality and Patient Safety 2016;42(7):291
    CrossRef
  5. Dinis SMM, Rabiais ICM. Fatores que interferem na resposta dos enfermeiros na monitorização dos alarmes clínicos. Revista Brasileira de Enfermagem 2017;70(1):172
    CrossRef
  6. Vitoux RR, Schuster C, Glover KR. Perceptions of Infusion Pump Alarms. Journal of Infusion Nursing 2018;41(5):309
    CrossRef
  7. Freysdóttir GR, Björnsdóttir K, Svavarsdóttir MH. Nurses’ use of monitors in patient surveillance: an ethnographic study on a coronary care unit. European Journal of Cardiovascular Nursing 2019;18(4):272
    CrossRef
  8. Anderson DC, Jackson AA, Halpern NA. Informatics for the Modern Intensive Care Unit. Critical Care Nursing Quarterly 2018;41(1):60
    CrossRef
  9. Glover KR, Vitoux RR, Schuster C, Curtin CR. Types and Frequency of Infusion Pump Alarms: Protocol for a Retrospective Data Analysis. JMIR Research Protocols 2018;7(6):e10446
    CrossRef
  10. Johnson KR, Hagadorn JI, Sink DW. Alarm Safety and Alarm Fatigue. Clinics in Perinatology 2017;44(3):713
    CrossRef
  11. Fernandes CO, Miles S, Lucena CJPD, 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
    CrossRef
  12. Sowan AK, Reed CC, 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
    CrossRef
  13. Pelter MM, Suba S, Sandoval C, Zègre-Hemsey JK, 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 2020;19(2):79
    CrossRef
  14. Bach TA, Berglund L, Turk E. Managing alarm systems for quality and safety in the hospital setting. BMJ Open Quality 2018;7(3):e000202
    CrossRef
  15. . Managing Alarms in Acute Care Across the Life Span: Electrocardiography and Pulse Oximetry. Critical Care Nurse 2018;38(2):e16
    CrossRef
  16. Milhomme D, Douville F, Beaulieu D, Pomerleau . 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)
    CrossRef
  17. Wung S, Schatz MR. Critical Care Nurses’ Cognitive Ergonomics Related to Medical Device Alarms. Critical Care Nursing Clinics of North America 2018;30(2):191
    CrossRef
  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
    CrossRef
  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
    CrossRef
  20. Alsaad AA, Alman CR, Thompson KM, Park SH, Monteau RE, Maniaci MJ. A multidisciplinary approach to reducing alarm fatigue and cost through appropriate use of cardiac telemetry. Postgraduate Medical Journal 2017;93(1101):430
    CrossRef
  21. Vitoux RR, Schuster C, Glover KR, Dekker M. Frequency and Duration of Infusion Pump Alarms: Establishing National Benchmarks. Biomedical Instrumentation & Technology 2018;52(6):433
    CrossRef
  22. Assis APD, Oliveira FTD, Camerini FG, Silva RCLD, Moraes CMD. Individualized parameterization of multiparametric monitors alarms in infarcted patients. Revista Brasileira de Enfermagem 2019;72(3):609
    CrossRef

According to Crossref, the following books are citing this article (DOI 10.2196/humanfactors.5098):

  1. Kobler I, Angerer A, Schwappach D. Structural Approaches to Address Issues in Patient Safety. 2019. :1
    CrossRef
  2. Pelter MM, Hu X. Sex and Cardiac Electrophysiology. 2020. :595
    CrossRef
  3. Kaur P, Rickard C, S. Domer G, R. Glover K. Vignettes in Patient Safety - Volume 4 [Working Title]. 2019.
    CrossRef