Mixed reality versus manikins in basic life support simulation-based training for medical students in France: the mixed reality non-inferiority randomized controlled trial.

IF 9.3 Q1 EDUCATION, SCIENTIFIC DISCIPLINES

Journal of Educational Evaluation for Health Professions Pub Date : 2025-01-01 Epub Date: 2025-05-12 DOI:10.3352/jeehp.2025.22.15

Sofia Barlocco De La Vega, Evelyne Guerif-Dubreucq, Jebrane Bouaoud, Myriam Awad, Léonard Mathon, Agathe Beauvais, Thomas Olivier, Pierre-Clément Thiébaud, Anne-Laure Philippon

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引用次数: 0

Abstract

Purpose: To compare the effectiveness of mixed reality with traditional manikin-based simulation in basic life support (BLS) training, testing the hypothesis that mixed reality is non-inferior to manikin-based simulation.

Methods: A non-inferiority randomized controlled trial was conducted. Third-year medical students were randomized into 2 groups. The mixed reality group received 32 minutes of individual training using a virtual reality headset and a torso for chest compressions (CC). The manikin group participated in 2 hours of group training consisting of theoretical and practical sessions using a low-fidelity manikin. The primary outcome was the overall BLS performance score, assessed at 1 month through a standardized BLS scenario using a 10-item assessment scale. The quality of CC, student satisfaction, and confidence levels were secondary outcomes and assessed through superiority analyses.

Results: Data from 155 participants were analyzed, with 84 in the mixed reality group and 71 in the manikin group. The mean overall BLS performance score was 6.4 (mixed reality) vs. 6.5 (manikin), (mean difference, -0.1; 95% confidence interval [CI], -0.45 to +∞). CC depth was greater in the manikin group (50.3 mm vs. 46.6 mm; mean difference, -3.7 mm; 95% CI, -6.5 to -0.9), with 61.2% achieving optimal depth compared to 43.8% in the mixed reality group (mean difference, 17.4%; 95% CI, -29.3 to -5.5). Satisfaction was higher in the mixed reality group (4.9/5 vs. 4.7/5 in the manikin group; difference, 0.2; 95% CI, 0.07 to 0.33), as was confidence in performing BLS (3.9/5 vs. 3.6/5; difference, 0.3; 95% CI, 0.11 to 0.58). No other significant differences were observed for secondary outcomes.

Conclusion: Mixed reality is non-inferior to manikin simulation in terms of overall BLS performance score assessed at 1 month.

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混合现实与人体模型在法国医学生基础生命支持模拟训练中的对比：混合现实非劣效性随机对照试验

目的：比较混合现实与传统基于人体模型的模拟在基本生命支持（BLS）训练中的有效性，验证混合现实不劣于基于人体模型的模拟的假设。方法：采用非劣效性随机对照试验。三年级医学生随机分为两组。混合现实组接受了32分钟的个人训练，使用虚拟现实耳机和躯干胸部按压（CC）。人体模型组使用低保真度的人体模型进行了2小时的理论和实践训练。主要结果是总体BLS表现得分，在1个月时通过标准化的BLS情景使用10项评估量表进行评估。CC的质量、学生满意度和信心水平是次要结果，并通过优势分析进行评估。结果：共分析了155名参与者的数据，其中混合现实组84人，人体模型组71人。BLS的平均总分为6.4分（混合现实）vs. 6.5分（人体模型），(平均差-0.1；95%置信区间[CI]， -0.45至+∞)。假人组CC深度更大(50.3 mm vs 46.6 mm；平均差值-3.7 mm；95% CI, -6.5至-0.9)，61.2%达到最佳深度，而混合现实组为43.8%(平均差为17.4%；95% CI, -29.3至-5.5)。混合现实组满意度更高（4.9/5 vs. 4.7/5）；差异,0.2;95% CI， 0.07至0.33)，执行BLS的信心也是如此(3.9/5 vs. 3.6/5；差异,0.3;95% CI, 0.11 ~ 0.58)。在次要结果方面没有观察到其他显著差异。结论：混合现实在1个月的综合BLS性能评分方面不低于人体模拟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Educational Evaluation for Health Professions EDUCATION, SCIENTIFIC DISCIPLINES-

CiteScore

9.60

自引率

9.10%

发文量

审稿时长

5 weeks

期刊介绍： Journal of Educational Evaluation for Health Professions aims to provide readers the state-of-the art practical information on the educational evaluation for health professions so that to increase the quality of undergraduate, graduate, and continuing education. It is specialized in educational evaluation including adoption of measurement theory to medical health education, promotion of high stakes examination such as national licensing examinations, improvement of nationwide or international programs of education, computer-based testing, computerized adaptive testing, and medical health regulatory bodies. Its field comprises a variety of professions that address public medical health as following but not limited to: Care workers Dental hygienists Dental technicians Dentists Dietitians Emergency medical technicians Health educators Medical record technicians Medical technologists Midwives Nurses Nursing aides Occupational therapists Opticians Oriental medical doctors Oriental medicine dispensers Oriental pharmacists Pharmacists Physical therapists Physicians Prosthetists and Orthotists Radiological technologists Rehabilitation counselor Sanitary technicians Speech-language therapists.