J A Myers1, D M C Powell1, S Aldington2, D Sim3, A Psirides4,5, K Hathaway5,6, M F Haney1,7. 1. Occupational and Aviation Medicine Unit, University of Otago Wellington, Wellington, New Zealand. 2. Department of Emergency Medicine, Wellington Regional Hospital, Wellington, New Zealand. 3. Biostatistical Consulting Group, University of Otago Wellington, Wellington, New Zealand. 4. Department of Intensive Care Medicine, Wellington Regional Hospital, Wellington, New Zealand. 5. University of Otago Wellington, Wellington, New Zealand. 6. Intensive Care Unit, Wellington Regional Hospital, Wellington, New Zealand. 7. Anesthesia and Intensive Care Medicine, Aeromedical Section, University Hospital of Umeå, Umeå University, Umeå, Sweden.
Abstract
BACKGROUND: The relationship between fatigue-related risk and impaired clinical performance is not entirely clear. Non-technical factors represent an important component of clinical performance and may be sensitive to the effects of fatigue. The hypothesis was that the sum score of overall non-technical performance is degraded by fatigue. METHODS: Nineteen physicians undertook two different simulated air ambulance missions, once when rested, and once when fatigued (randomised crossover design). Trained assessors blinded to participants' fatigue status performed detailed structured assessments based on expected behaviours in four non-technical skills domains: teamwork, situational awareness, task management, and decision making. Participants also provided self-ratings of their performance. The primary endpoint was the sum score of overall non-technical performance. RESULTS: The main finding, the overall non-technical skills performance rating of the clinicians, was better in rested than fatigued states (mean difference with 95% CI, 2.8 [2.2-3.4]). The findings remained consistent across individual non-technical skills domains; also when controlling for an order effect and examining the impact of a number of possible covariates. There was no difference in self-ratings of clinical performance between rested and fatigued states. CONCLUSION: Non-technical performance of critical care air transfer clinicians is degraded when they are fatigued. Fatigued clinicians may fail to recognise the degree to which their performance is compromised. These findings represent risk to clinical care quality and patient safety in the dynamic and isolated environment of air ambulance transfer.
RCT Entities:
BACKGROUND: The relationship between fatigue-related risk and impaired clinical performance is not entirely clear. Non-technical factors represent an important component of clinical performance and may be sensitive to the effects of fatigue. The hypothesis was that the sum score of overall non-technical performance is degraded by fatigue. METHODS: Nineteen physicians undertook two different simulated air ambulance missions, once when rested, and once when fatigued (randomised crossover design). Trained assessors blinded to participants' fatigue status performed detailed structured assessments based on expected behaviours in four non-technical skills domains: teamwork, situational awareness, task management, and decision making. Participants also provided self-ratings of their performance. The primary endpoint was the sum score of overall non-technical performance. RESULTS: The main finding, the overall non-technical skills performance rating of the clinicians, was better in rested than fatigued states (mean difference with 95% CI, 2.8 [2.2-3.4]). The findings remained consistent across individual non-technical skills domains; also when controlling for an order effect and examining the impact of a number of possible covariates. There was no difference in self-ratings of clinical performance between rested and fatigued states. CONCLUSION: Non-technical performance of critical care air transfer clinicians is degraded when they are fatigued. Fatigued clinicians may fail to recognise the degree to which their performance is compromised. These findings represent risk to clinical care quality and patient safety in the dynamic and isolated environment of air ambulance transfer.
Authors: Henrik Langdalen; Eirik B Abrahamsen; Stephen J M Sollid; Leif Inge K Sørskår; Håkon B Abrahamsen Journal: BMC Health Serv Res Date: 2018-07-03 Impact factor: 2.655