Background: Knowledge decay can be present in a lot of different careers but it is especially important when affecting the anesthesia provider. Knowledge decay can lead to skill decay. Therefore, it leads to worse patient outcomes. It is important to know how knowledge decay occurs and to know how to prevent it. Purpose: The purpose of this review was to explore the contributing factors of knowledge decay while also examining how different learning activities can be used to prevent it from occurring. Methods: A systematic literature search was performed in PubMed, Cochrane databases, and Embase. The American Association of Nurse Anesthesiology website was also examined. Findings: Knowledge decay usually occurs when either the anesthesia provider is in a new area of practice or when the provider has had a significant amount of time pass since the latest implementation of an anesthesia skill. The type of activity shown to best combat knowledge decay is the use of a simulation-based learning activity. Classroom learning can also help combat knowledge decay, but not to the same extent. Conclusions: The most significant way to prevent knowledge decay in the anesthesia provider is to implement simulation-based learning activities, as well as keep anesthesia providers comfortable with the skills that they practice.
References
[1]
Debenham, J. (2002) Estimating Knowledge Decay. In: Musen, M.A., Neumann, B. and Studer, R., Eds., Intelligent Information Processing. IIP 2002. IFIP—The International Federation for Information Processing, Vol 93, Springer, Boston, 189-200. https://doi.org/10.1007/978-0-387-35602-0_17
[2]
Blanié, A., Gorse, S., Roulleau, P., Figueiredo, S. and Benhamou, D. (2018) Impact of Learners’ Role (Active Participant-Observer or Observer Only) on Learning Outcomes during High-Fidelity Simulation Sessions in Anaesthesia: A Single Center, Prospective and Randomised Study. Anaesthesia, Critical Care & Pain Medicine, 37, 417-422. https://doi.org/10.1016/j.accpm.2017.11.016
[3]
Nofi, C., Roberts, B., Demyan, L., Sodhi, N., DePeralta, D., Zimmern, A., Aronsohn, J., Molmenti, E. and Patel, V. (2022) A Survey of the Impact of the COVID-19 Crisis on Skill Decay among Surgery and Anesthesia Residents. Journal of Surgical Education, 79, 330-341. https://doi.org/10.1016/j.jsurg.2021.09.005
[4]
Dang, D., Dearholt, S., Bissett, K., Ascenzi, J. and Whalen, M. (2022) Johns Hopkins Evidence-Based Practice for Nurses and Healthcare Professionals: Model and Guidelines. 4th Edition, Sigma Theta Tau International, Indianapolis.
[5]
Gisriel, C., Dalley, C. and Walker, A. (2020) Supplementing Pharmacologic Didactic Lectures with High Fidelity Simulation: A Pilot Study. Clinical Simulation in Nurisng, 53, 59-65. https://doi.org/10.1016/j.ecns.2020.10.007
[6]
Kumar, S., Purva, M., Chander M, S. and Parameswari, A. (2020) Impact of Repeated Simulation on Learning Curve Characteristics of Residents Exposed to Rare Life-Threatening Situations. BMJ Simulation & Technology Enhanced Learning, 6, 351-355. https://doi.org/10.1136/bmjstel-2019-000496
[7]
Miller, C., Jackson, E., Lee, B., Gottschalk, A. and Schiavi, A. (2020) Anesthesia Simulation Boot Camp—A Decade of Experience Enhancing Self-Efficacy in First-Year Residents. The Journal of Education in Perioperative Medicine: JEPM, 22, E653. https://doi.org/10.46374/volxxii-issue4-schiavi
