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AuthorMahmoud, Abdulrahman
AuthorAlsalemi, Abdullah
AuthorBensaali, Faycal
AuthorHssain, Ali A.
AuthorHassan, Ibrahim
Available date2022-12-29T07:34:45Z
Publication Date2021
Publication NameMembranes
ResourceScopus
URIhttp://dx.doi.org/10.3390/membranes11100744
URIhttp://hdl.handle.net/10576/37846
Abstract(1) Background: Simulation-based training (SBT) is the practice of using hands-on training to immerse learners in a risk-free and high-fidelity environment. SBT is used in various fields due to its risk-free benefits from a safety and an economic perspective. In addition, SBT provides immersive training unmatched by traditional teaching the interactive visualization needed in particular scenarios. Medical SBT is a prevalent practice as it allows for a platform for learners to learn in a risk-free and cost-effective environment, especially in critical care, as mistakes could easily cause fatalities. An essential category of care is human circulatory system care (HCSC), which includes essential-to-simulate complications such as cardiac arrest. (2) Methods: In this paper, a deeper look onto existing human circulatory system medical SBT is presented to assess and highlight the important features that should be present with a focus on extracorporeal membrane oxygenation cannulation (ECMO) simulators and cardiac catheterization. (3) Results: A list of features is also suggested for an ideal simulator to bridge the gap between medical studies and simulator engineering, followed by a case study of an ECMO SBT system design. (4) Conclusions: A collection and discussion of existing work for HCSC SBT are portrayed as a guide for researchers and practitioners to compare existing SBT and recreating them effectively. 2021 by the authors.
SponsorAcknowledgments: This publication was made possible by an Award (GSRA6-2-0418-19015) from the Qatar National Research Fund (a member of the Qatar Foundation). The contents herein are solely the responsibility of the authors. This publication was also supported by Qatar University Internal Grant No. M-CTP-CENG-2020-1. The findings achieved herein are solely the responsibility of the authors.
Languageen
PublisherMDPI
SubjectCannulation
Catheterization
Critical care
Embedded systems
Simulation-based training
TitleA review of human circulatory system simulation: Bridging the gap between engineering and medicine
TypeArticle
Issue Number10
Volume Number11
dc.accessType Open Access


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