Abstract WP267: Clinical Simulation-based Usability Testing of a Mobile Telestroke System
Background: Mobile prehospital telestroke presents a novel solution to improve stroke diagnosis and reduce treatment times. This study aims to 1) understand perceptions of a mobile ambulance-based telestroke system from all users and 2) evaluate system usability during ambulance transport.
Methods: A Critical Care ambulance was equipped with a mobile telemedicine system to perform remote stroke assessments. Scripted scenarios were performed by trained actors during transport and evaluated by physicians using the NIH stroke scale (NIHSS). Scores obtained during transport were compared with independent bedside and original scripted NIHSS scores. Participants completed the System Usability Scale (SUS), NASA task load index (NASA TLX), audio-video quality scale and a modified Acceptability of Technology survey after completing the NIHSS evaluations. In addition, interviews were conducted to evaluate user’s experience and perceptions. Descriptive analysis was used for all surveys. Weighted kappa was used to compare the agreement in NIHSS scores. A regression model was used to further account for variations.
Results: Ten scripted scenarios were simulated twice during the mobile transport and once at bedside. All simulations were completed except for one. NIHSS scores between mobile, bedside and original scripted scenarios revealed good agreement [weighted kappa=0.76 (95% CI: 0.63-0.9, p=0.63)]. There were no statistically significant differences in NIHSS scores between mobile and bedside evaluations. The results were independent of stroke scenarios, physicians, and actors. Overall, 92% and 81% raters deemed video and audio quality as “good” or “excellent” (rating <3) respectively. The overall mean SUS score was 69.1 (13.3). Content analysis identified strengths, usability issues (i.e. audibility and equipment stability during transport), and safety concerns.
Conclusion: This study used in-situ simulation to evaluate the viability of a mobile telestroke system. Simulating stroke scenarios using actors during a real ambulance transport allowed us to assess a health technology without risking patient safety while capturing realistic environmental factors.
Author Disclosures: S.N. Chapman Smith: Research Grant; Modest; UL1TR000058 from the NCRR. Research Grant; Significant; VCU CTSA (ULTR000058 from the National Center for Advancing Translational Sciences), CCTR Endowment Fund of VCU, VCU Dean’s Enhancement Fund. P. Mehndiratta: None. J. Ricks: None. J. Heath: None. P. Bennam: None. Q. Toqeer: None. K. Heath: None. A. Ruiz: None. M. Feldman: None. K. Hekmatdoost: None. B. Blankson: None. M. Bhatti: None. J. Henry: None. B. Rahim: None. T. Madu: None. R. Decker: None. D. Fellows: None. D. Whitt: None. V. Lavrentyev: None. J. Wong: None. P. Brown: None. F. Warren III: None. J. Ornato: None.
- © 2017 by American Heart Association, Inc.