右心导管——虚拟现实

IF 3.9 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
M. Brown, N. Krishnananthan, V. Paul
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引用次数: 0

摘要

右心导管(RHC)是评估肺动脉高压患者的金标准。医生需要在一个安全友好的环境中进行这一过程的培训,对患者的风险最小。由于新冠肺炎大流行,我国取消了正式的右心导管教学研讨会,因此我们寻求开发虚拟现实右心导管(VRRHC)培训计划,以满足这一领域的需求,而无需面对面接触。其目的是通过改进诊断技能和减少程序错误,提高对这项技术的培训、能力和信心。方法在现有RHC仿真工作坊的基础上,与一家健康科技公司合作,设计VRRHC培训模块。第一阶段在超声引导下,采用微穿刺、双Seldinger技术经右颈内静脉虚拟置入RHC,然后通过实时压力描图和透视将RHC置入肺动脉闭塞的右心房、右心室和肺动脉。还进行了热稀释、心输出量和腔室饱和度测定。该专有平台技术通过笔记本电脑和VR耳机提供。临床医生通过成像、监测和触觉反馈来执行VRRHC,并收集实时性能跟踪,从而捕获用户数据(例如失败步骤和熟练程度分数),并随后在学习管理系统中可视化。我们收集了用户参与度、体验和留存率、目标学习结果和学习曲线、降低运营成本、由于熟练程度提高而减少手术时间、早期诊断肺动脉高压、减少并发症、改进解释和诊断等方面的分析和数据。项目于2021年10月启动。初步数据显示,学习曲线与使用VR(10-15分钟)和RHC程序本身有关。RHC的初始完成时间为30-40分钟,有经验者缩短至20-30分钟,专家缩短至15分钟。随着经验的增加,完井率从40-50%提高到100%,错误率随着完井频率的增加而降低。结论虚拟现实右心导管训练方案安全、可行、无创。经验的增加提高了完成率,减少了操作时间,减少了错误。使用该程序将对医生培训、结果、患者安全和健康经济产生潜在的有益影响,而对真正的患者没有风险。资金来源类型:私人资助及/或赞助。主要资金来源:杨森制药VRRHC图像VRRHC硬件及使用
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Right heart catherisation – a virtual reality
Abstract Introduction Right heart catheterisation (RHC) is the gold standard for assessing patients with pulmonary hypertension. Doctors require training in this procedure in a safe and friendly environment with minimal risk to patients. Due to the Covid pandemic, formal RHC teaching workshops were cancelled in our country, so we sought to develop a Virtual Reality Right Heart Catheterisation (VRRHC) training program to fulfil this area of need without the need for face to face contact. The aim was to improve training, competency and confidence in this technique with improved diagnostic skills and reduction of procedural errors. Method We approached a health technology company to design a VRRHC training module based on our current RHC simulation workshops. Phase 1 required virtual insertion of RHC via the right internal jugular vein using micro-puncture, double Seldinger technique under ultrasound guidance, followed by insertion of the RHC to the right atrium, right ventricle and pulmonary artery with pulmonary artery occlusion using real time pressure tracings and fluoroscopy. Thermodilution cardiac outputs and chamber saturations were also performed. The proprietary platform technology was delivered via a laptop and VR headset. Clinicians perform the VRRHC with imaging, monitoring and haptic feedback with the collection of real time performance tracking allowing user data (e.g. failed steps and proficiency scores) to be captured and subsequently visualised in the learning management system. We collected analytics and data on user engagement, experience and retention, targeted learning outcomes and learning curve, reduction in operating costs, reduction in procedure times due to higher proficiency, early diagnosis of pulmonary hypertension, reduced complications, improved interpretation and diagnosis. Results The program was launched in October 2021. Preliminary data shows a learning curve is associated with both using VR (10–15 minutes) and the RHC procedure itself. Initial time to completion of the RHC was 30–40 mins, reducing to 20–30 minutes with experience and 15 minutes in experts. Completion rates increase with experience from 40–50% to 100% and error rates reduce with frequency of completion. Conclusion A Virtual Reality Right Heart Catheter training program is safe, feasible and non-invasive. Increased experience results in increased completion rates, reduced procedure time and reduced errors. Using this program will potentially have beneficial effects on doctor training, outcomes, patient safety and health economics with no risk to a real patient. Funding Acknowledgement Type of funding sources: Private grant(s) and/or Sponsorship. Main funding source(s): Janssen Pharmaceuticals VRRHC images VRRHC hardware and utilisation
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