TY - JOUR
T1 - Use of a mixed reality system for navigational mapping during cardiac electrophysiological testing does not prolong case duration
T2 - A subanalysis from the Cardiac Augmented REality study
AU - Bloom, David
AU - Catherall, David
AU - Miller, Nathan
AU - Southworth, Michael K.
AU - Glatz, Andrew
AU - Silva, Jonathan R.
AU - Avari Silva, Jennifer N.
N1 - Funding Information:
This work has been supported by the National Heart, Lung, and Blood Institute (National Institute of Health) R44 HL140896. Additional fundingfor this project was provided by the Children's Discovery Institute of Washington University and St. Louis Children’s Hospital CH-II-2017-575.
Funding Information:
This work has been supported by the National Heart, Lung, and Blood Institute (National Institute of Health) R44 HL140896. Additional fundingfor this project was provided by the Children's Discovery Institute of Washington University and St. Louis Children's Hospital CH-II-2017-575. Dr Avari Silva and Dr Silva are co-founders and consultants to SentiAR, Inc. Dr Avari Silva, Mr Michael K. Southworth, and Dr Silva hold equity in SentiAR. Mr Michael K. Southworth is an employee of SentiAR. The technology has been licensed by Washington University to SentiAR. All other authors have no conflicts of interest to disclose. All authors attest they meet the current ICMJE criteria for authorship. This study was deemed exempt from patient consent by the Washington University Institutional Review Board (WU-IRB). The research protocol used in this study was reviewed and approved by the institutional review board (WU-IRB). In this matched case-controlled analysis, expedited IRB approval was obtained from the Washington University Institutional Review Board
Publisher Copyright:
© 2023
PY - 2023/8
Y1 - 2023/8
N2 - Background: CommandEP™ is a mixed reality (MXR) system for cardiac electrophysiological (EP) procedures that provides a real-time 3-dimensional digital image of cardiac geometry and catheter locations. In a previous study, physicians using the system demonstrated improved navigational accuracy. This study investigated the impact of the CommandEP system on EP procedural times compared to the standard-of-care electroanatomic mapping system (EAMS) display. Objective: The purpose of this retrospective case-controlled analysis was to evaluate the impact of a novel MXR interface on EP procedural times compared to a case-matched cohort. Methods: Cases from the Cardiac Augmented REality (CARE) study were matched for diagnosis and weight using a contemporary cohort. Procedural time was compared from the roll-in and full implementation cohort. During routine EP procedures, operators performed tasks during the postablation waiting phase, including creation of cardiac geometry and 5-point navigation under 2 conditions: (1) EAMS first; and (2) CommandEP. Results: From a total of 16 CARE study patients, the 10 full implementation patients were matched to a cohort of 20 control patients (2 controls:1 CARE, matched according to pathology and age/weight). No statistical difference in total case times between CARE study patients vs control group (118 ± 29 minutes vs 97 ± 20 minutes; P = .07) or fluoroscopy times (6 ± 4 minutes vs 7 ± 6 minutes; P = .9). No significant difference in case duration for CARE study patients comparing roll-in vs full-implementation cohort (121 ± 26 minutes vs 118 ± 29 minutes; P = .96). CommandEP wear time during cases was significantly longer in full implementation cases (53 ± 24 minutes vs 24 ± 5 minutes; P = .0009). During creation of a single cardiac geometry, no significant time difference was noted between CommandEP vs EAMS (284 ± 45 seconds vs 268 ± 43 seconds; P = .1) or fluoroscopy use (9 ± 19 seconds vs 6 ± 18 seconds; P = .25). During point navigation tasks, there was no difference in total time (CommandEP 31 ± 14 seconds vs EAMS 28 ± 15 seconds; P = .16) or fluoroscopy time (CommandEP 0 second vs EAMS 0 second). Conclusion: MXR did not prolong overall procedural time compared to a matched cohort. There was no prolongation in study task completion time. Future studies with experienced CommandEP users directly assessing procedural time and task completion time in a randomized study population would be of interest.
AB - Background: CommandEP™ is a mixed reality (MXR) system for cardiac electrophysiological (EP) procedures that provides a real-time 3-dimensional digital image of cardiac geometry and catheter locations. In a previous study, physicians using the system demonstrated improved navigational accuracy. This study investigated the impact of the CommandEP system on EP procedural times compared to the standard-of-care electroanatomic mapping system (EAMS) display. Objective: The purpose of this retrospective case-controlled analysis was to evaluate the impact of a novel MXR interface on EP procedural times compared to a case-matched cohort. Methods: Cases from the Cardiac Augmented REality (CARE) study were matched for diagnosis and weight using a contemporary cohort. Procedural time was compared from the roll-in and full implementation cohort. During routine EP procedures, operators performed tasks during the postablation waiting phase, including creation of cardiac geometry and 5-point navigation under 2 conditions: (1) EAMS first; and (2) CommandEP. Results: From a total of 16 CARE study patients, the 10 full implementation patients were matched to a cohort of 20 control patients (2 controls:1 CARE, matched according to pathology and age/weight). No statistical difference in total case times between CARE study patients vs control group (118 ± 29 minutes vs 97 ± 20 minutes; P = .07) or fluoroscopy times (6 ± 4 minutes vs 7 ± 6 minutes; P = .9). No significant difference in case duration for CARE study patients comparing roll-in vs full-implementation cohort (121 ± 26 minutes vs 118 ± 29 minutes; P = .96). CommandEP wear time during cases was significantly longer in full implementation cases (53 ± 24 minutes vs 24 ± 5 minutes; P = .0009). During creation of a single cardiac geometry, no significant time difference was noted between CommandEP vs EAMS (284 ± 45 seconds vs 268 ± 43 seconds; P = .1) or fluoroscopy use (9 ± 19 seconds vs 6 ± 18 seconds; P = .25). During point navigation tasks, there was no difference in total time (CommandEP 31 ± 14 seconds vs EAMS 28 ± 15 seconds; P = .16) or fluoroscopy time (CommandEP 0 second vs EAMS 0 second). Conclusion: MXR did not prolong overall procedural time compared to a matched cohort. There was no prolongation in study task completion time. Future studies with experienced CommandEP users directly assessing procedural time and task completion time in a randomized study population would be of interest.
KW - Accuracy
KW - Electrophysiology
KW - Fluoroscopy
KW - Mixed reality
KW - Procedural times
KW - Virtual reality
UR - http://www.scopus.com/inward/record.url?scp=85164363706&partnerID=8YFLogxK
U2 - 10.1016/j.cvdhj.2023.06.003
DO - 10.1016/j.cvdhj.2023.06.003
M3 - Article
C2 - 37600447
AN - SCOPUS:85164363706
SN - 2666-6936
VL - 4
SP - 111
EP - 117
JO - Cardiovascular Digital Health Journal
JF - Cardiovascular Digital Health Journal
IS - 4
ER -