Background: The provision of acute medical care in rural and remote areas presents unique challenges for practitioners. Therefore, a tailored approach to training providers would prove beneficial. Although simulation-based medical education (SBME) has been shown to be effective, access to such training can be difficult and costly in rural and remote areas. Objective: The aim of this study was to evaluate the educational efficacy of simulation-based training of an acute care procedure delivered remotely, using a portable, self-contained unit outfitted with off-the-shelf and low-cost telecommunications equipment (mobile telesimulation unit, MTU), versus the traditional face-to-face approach. A conceptual framework based on a combination of Kirkpatrick’s Learning Evaluation Model and Miller’s Clinical Assessment Framework was used. Methods: A written procedural skills test was used to assess Miller’s learning level— knows—at 3 points in time: preinstruction, immediately postinstruction, and 1 week later. To assess procedural performance (shows how), participants were video recorded performing chest tube insertion before and after hands-on supervised training. A modified Objective Structured Assessment of Technical Skills (OSATS) checklist and a Global Rating Scale (GRS) of operative performance were used by a blinded rater to assess participants’ performance. Kirkpatrick’s reaction was measured through subject completion of a survey on satisfaction with the learning experiences and an evaluation of training. Results: A total of 69 medical students participated in the study. Students were randomly assigned to 1 of the following 3 groups: comparison (25/69, 36%), intervention (23/69, 33%), or control (21/69, 31%). For knows, as expected, no significant differences were found between the groups on written knowledge (posttest, P=.13). For shows how, no significant differences were found between the comparison and intervention groups on the procedural skills learning outcomes immediately after the training (OSATS checklist and GRS, P=1.00). However, significant differences were found for the control versus comparison groups (OSATS checklist, P<.001 grs p=".02)" and the control versus intervention groups checklist on pre- postprocedural performance. for reaction there were no statistically significant differences between comparison satisfaction with learning items or evaluation of training conclusions: our results demonstrate that simulation-based delivered remotely applying mtu concept can be an effective way to teach procedural skills. participants trained in had comparable outcomes how those face-to-face. both received higher performance scores than group. instruction equally satisfied their we believe mobile telesimulation could providing expert mentorship overcoming a number barriers delivering sbme rural remote locations.>
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