Augmented reality-based software (Echo-QR) for guiding the echographic probe toward the acoustic window: a pilot study

A. Thevenon, F. Derache, O. Faucoz, K. Zuj, D. Chaput, P. Arbeille
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Abstract

With current technology, ultrasound imaging in remote conditions, such as the International Space Station, is performed with vocal guidance or using a teleoperated echograph controlled by an expert. Both methods require real-time communications between the novice operator and expert to locate the probe over the appropriate acoustic windows (AW). The current study presents the development and testing of a new augmented reality software (Echo-QR) that would allow novice operators (with no medical imaging background) to correctly locate the ultrasound probe over the AW of interest without expert assistance.On the first day of the study, the positions of the probe over the AWs were identified for each organ by an expert sonographer and saved in the Echo-QR software. On the second day, the novices independently performed the ultrasound investigation using the Echo-QR software to correctly position the probe over each organ’s AW.Using the Echo-QR software, novice operators found the AW in 73 (92%) of the 79 organs. The 2D images acquired by the novices “2D direct image” were acceptable for medical evaluation in 41% of the cases. However, when the “2D direct image” did not show the entire organ, a 3D capture of the volume below the probe was also performed, which allowed for the extraction of the appropriate 2D image “2D/3D image” for medical evaluation in 85% of the cases.Therefore, in the absence of real-time communication between an isolated participant and an expert sonographer, novel software (Echo-QR) and automated 3D volume capture can be used to obtain images usable for ultrasound diagnostics.
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基于增强现实技术的软件(Echo-QR)用于引导回声探头指向声窗:一项试点研究
利用现有技术,在国际空间站等偏远条件下进行超声波成像时,需要通过声音引导或使用由专家控制的远程操作回声仪。这两种方法都需要新手操作员和专家进行实时交流,以便在适当的声窗 (AW) 上确定探头的位置。本研究介绍了一种新的增强现实软件(Echo-QR)的开发和测试情况,该软件可让新手操作员(没有医学影像背景)在没有专家协助的情况下正确定位超声探头在感兴趣的声窗上的位置。第二天,新手使用 Echo-QR 软件独立进行超声检查,以正确定位探头在每个器官 AW 上的位置。新手操作员使用 Echo-QR 软件找到了 79 个器官中 73 个(92%)的 AW。在 41% 的病例中,新手获得的二维图像 "二维直接图像 "可用于医学评估。然而,当 "二维直接图像 "无法显示整个器官时,还需要对探头下方的体积进行三维捕捉,这样就能在 85% 的病例中提取适当的二维图像 "二维/三维图像 "用于医学评估。
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