Alarm fatigue

Alarm fatigue or alert fatigue occurs when one is exposed to a large number of frequent alarms (alerts) and consequently becomes desensitized to them. Desensitization can lead to longer response times or to missing important alarms.[1] Alarm fatigue occurs in many industries, including construction[2] and mining[3] (where backup alarms sound so frequently that they often become senseless background noise), healthcare[4] (where electronic monitors tracking clinical information such as vital signs and blood glucose sound alarms so frequently, and often for such minor reasons, that they lose the urgency and attention-grabbing power that they ought to have), and the nuclear power industry. Like crying wolf, such false alarms rob the valid alarms of the value they were intended to add (duly alerting people to danger).

Alarm fatigue in healthcare

The constant sounds of alarms and noises from blood pressure machines, ventilators and heart monitors causes a "tuning out" of the sounds due to the brain adjusting to stimulation. This issue is present in hospitals, in home care providers, nursing homes and other medical facilities alike. The Joint Commission’s sentinel event reports 80 alarm-related deaths and 13 alarm-related serious injuries over the course of a few years. On April 18, 2013, the Joint Commission issued a sentinel event alert that highlighted the widespread problem of alarm fatigue in hospitals. Their recommendations included establishing guidelines to tailor alarm settings, training all members of the clinical team on safe use of alarms, and sharing information about alarm-related incidents.[4] This alert has since turned into a National Patient Safety Goal for 2014 to improve the safety of clinical alarm systems. This Goal will force hospitals to establish alarm safety as a priority, identify the most important alarms, and establish policies to manage alarms by January 2016.[5][6] ECRI Institute has listed alarms on its Top Ten Hazards List since 2007; in 2014 alarms was listed as the number one hazard.

Unintended outcomes of alarms

The large number of alarms, especially of false alarms, has led to several unintended outcomes. Some consequences are disruption in patient care,[7] desensitization to alarms,[8] anxiety in hospital staff and patients,[8] sleep deprivation and depressed immune systems,[8] misuse of monitor equipment, and missed critical events.[9] Some additional outcomes include workload increase,[8] interference with communication,[9] wasted time, patient dissatisfaction,[9] and unnecessary investigations, referrals, or treatments.[9]

Solutions to alarm fatigue

Changing alarm sounds and parameters

There are many solutions proposed to reduce alarm fatigue in healthcare settings. One recommendation is to change alarm sounds to be softer and friendlier in order to improve identification of alarms by sound alone. Another recommendation is for clinicians to adjust the parameters and delays to alarms to match the patient’s traits and status. However, this directly trades sensitivity for specificity.[8][9]

Centralized alarms

Another solution that has been proposed is to use centralized alarms. In this approach, alarms don’t fire at the bedside, but fire at a central monitoring station where a trained healthcare provider evaluates each alarm and alerts the bedside clinician if they should intervene or evaluate the patient.[4][10]

Changing alarm algorithms

Biomedical engineers may improve monitors by adjusting alarm algorithms. Currently, the alarm systems are very sensitive but not specific. This leads to a large amount of false alarms. The algorithms used can be adjusted to balance between sensitivity and specificity to limit the number of false alarms and still detect true deterioration.[11]

References

  1. "Alarm Related Terms" (PDF). Retrieved 18 October 2013.
  2. Blackmon, R.B.; A. K. Gramopadhye (01 June 995). "Improving Construction Safety by Providing Positive Feedback on Backup Alarms". Journal of Construction Engineering and Management. 121 (2): 166–171. doi:10.1061/(asce)0733-9364(1995)121:2(166). ISSN 1943-7862. Check date values in: |date= (help)
  3. Bliss, JP; Gilson, RD; Deaton, JE (November 1995). "Human probability matching behaviour in response to alarms of varying reliability.". Ergonomics. 38 (11): 2300–12. doi:10.1080/00140139508925269. PMID 7498189.
  4. 1 2 3 "The Joint Commission Sentinel Event Alert" (PDF). Medical device alarm safety in hospitals. The Patient Safety Advisory Group. Retrieved 21 October 2013.
  5. The Joint Commission. "The Joint Commission Announces 2014 National Patient Safety Goal" (PDF). Retrieved 21 October 2013.
  6. Monegain, Bernie. "'Alarm Fatigue' Endangers Patients." Healthcare IT News. HIMSS Media, 9 Apr. 2013. Web. 24 Jan. 2014
  7. Healthcare Technology Foundation. "2011 National Clinical Alarms Survey" (PDF). Retrieved 21 October 2013.
  8. 1 2 3 4 5 Borowski, M; Görges, M; Fried, R; Such, O; Wrede, C; Imhoff, M (April 2011). "Medical device alarms.". Biomedizinische Technik. Biomedical engineering. 56 (2): 73–83. doi:10.1515/bmt.2011.005. PMID 21366502.
  9. 1 2 3 4 5 Graham, KC; Cvach, M (January 2010). "Monitor alarm fatigue: standardizing use of physiological monitors and decreasing nuisance alarms.". American Journal of Critical Care. 19 (1): 28–34; quiz 35. doi:10.4037/ajcc2010651. PMID 20045845.
  10. Cantillon DJ, Loy M, Burkle A, Pengel S, Brosovich D, Hamilton A, Khot UN, Lindsay BD (2016). "Association Between Off-site Central Monitoring Using Standardized Cardiac Telemetry and Clinical Outcomes Among Non-Critically Ill Patients". Jama. 316 (5): 519–24. doi:10.1001/jama.2016.10258. PMID 27483066. Retrieved 2016-09-09.
  11. Blum, JM; Tremper, KK (February 2010). "Alarms in the intensive care unit: too much of a good thing is dangerous: is it time to add some intelligence to alarms?". Critical Care Medicine. 38 (2): 702–3. doi:10.1097/ccm.0b013e3181bfe97f. PMID 20083933.
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