李阳, 程萧云, 窦梅杰, 纪明明. 虚拟现实技术在武警部队基层卫生员集训中的应用探讨[J]. 武警医学, 2024, 35(3): 269-272.
LI Yang, CHENG Xiaoyun, DOU Meijie, et al. Discussion on the application of virtual reality technology in the training of basic health personnel of Chinese People’s Armed Police Force. Med. J. Chin. Peop. Armed Poli. Forc., 2024, 35(3): 269-272.
Aebersold M. The history of simulation and its impact on the future[J]. AACN Adv Crit Care, 2016, 27: 56-61.
[12]
Alinier G, Platt A. International overview of high-level simulation education initiatives in relation to critical care[J]. Nurs Crit Care,2014,19: 42-49.
[13]
Linde A S, Kunkler K. The evolution of medical training simulation in the US military[J]. Stud Health Technol Inform, 2016, 220:209-214.
[14]
Polk T M, Greer J, Alex J, et al. Simulation training for operational medicine providers (STOMP):design and implementation of a novel comprehensive skills-based curriculum for military general medical officers[J]. Mil Med, 2018, 183: 40-46.
[15]
Spooner M T, Alex J E, Greer J A, et al. Simulation training for operational medicine providers (STOMP): impact of a comprehensive skills-based curriculum for military general medical officers[J/OL]. Mil Med, 2019, 184: e141-e146.
Lkhagvatseren S, Hogan K M, Boldbatar B, et al.Discrepancies between self-reported tick bites and evidence of tick-borne disease expo-sure among nomadic Mongolian herders[J].Zonoses Public Health,2019,6(5):480-486.
[20]
Hua W,Chen Q,Wan M, et al.The incidence of military training-re-lated injuries in Chinese new recruits:a systematic review and meta-analysis[J].J R Army Med Corps,2018,164(4):309-313.