深度学习3D相机的使用对CT检查中工作流程和患者定位的影响。
Impact of the use of deep-learning 3D camera on workflow and patient positioning in CT examinations.
作者信息
Ito Akio, Noda Yoshifumi, Kawai Nobuyuki, Kaga Tetsuro, Iwata Takeshi, Miyoshi Toshiharu, Omata Shingo, Takai Yukiko, Asano Masashi, Elhelaly Abdelazim Elsayed, Imai Hirohiko, Kato Hiroki, Matsuo Masayuki
机构信息
Department of Radiology, Gifu University, 1-1 Yanagido, Gifu 501-1194, Japan.
Department of Radiology, Gifu University, 1-1 Yanagido, Gifu 501-1194, Japan; Department of Radiology, Massachusetts General Hospital, Harvard Medical School, 55 Fruit Street, White 270, Boston, MA 02114, USA.
出版信息
Eur J Radiol. 2025 Oct;191:112324. doi: 10.1016/j.ejrad.2025.112324. Epub 2025 Jul 17.
PURPOSE
This study aims to assess the impact of the use of deep-learning three-dimensional (3D) camera on workflow and patient positioning in CT examinations in comparison with manual positioning by radiographers.
METHODS
This prospective study analyzed 596 participants (median age, 71 years; 364 men) who underwent unenhanced chest-abdomen-pelvis CT between October 2023 and January 2024 by either manual positioning (manual group) or automatic positioning using a deep-learning 3D camera (camera group). The scan parameters used in the two groups were completely matched. The CT room time, from entering to leaving the CT scan room, was compared between the two groups. Moreover, the off-center distance, which is the difference between the patient and scanner's isocenters, CT dose-index volume (CTDI), dose-length product (DLP), and standard deviation (SD) of the CT attenuation of the abdominal aorta at the midpoint of the scan range as background noise were compared between the two groups.
RESULTS
The median CT room time was shorter in the camera group than in the manual group (223 s vs. 255 s; P < 0.001). No difference in the median off-center distance (14 mm vs. 13 mm; P = 0.30), CTDI (5 mGy vs. 6 mGy; P = 0.58), DLP (410 mGycm vs. 416 mGycm; P = 0.64), and background noise (9 HU vs. 9 HU; P = 0.19) was observed between the manual and camera groups.
CONCLUSION
Patient positioning with a deep-learning 3D camera improved the workflow of CT examinations compared with manual positioning by radiographers. However, its impacts on off-center distance, CTDI, DLP, and background noise were minimal.
目的
本研究旨在评估与放射技师手动定位相比,使用深度学习三维(3D)相机对CT检查工作流程和患者定位的影响。
方法
这项前瞻性研究分析了596名参与者(年龄中位数为71岁;男性364名),他们在2023年10月至2024年1月期间接受了非增强胸部-腹部-骨盆CT检查,检查方式为手动定位(手动组)或使用深度学习3D相机自动定位(相机组)。两组使用的扫描参数完全匹配。比较了两组从进入到离开CT扫描室的CT室时间。此外,还比较了两组患者与扫描仪等中心之间的偏心距离、CT剂量指数体积(CTDI)、剂量长度乘积(DLP)以及扫描范围中点处腹主动脉CT衰减的标准差(SD)作为背景噪声。
结果
相机组的CT室时间中位数短于手动组(223秒对255秒;P < 0.001)。手动组和相机组之间在偏心距离中位数(14毫米对13毫米;P = 0.30)、CTDI(5毫西弗对6毫西弗;P = 0.58)、DLP(410毫西弗·厘米对416毫西弗·厘米;P = 0.64)和背景噪声(9亨氏单位对9亨氏单位;P = 0.19)方面未观察到差异。
结论
与放射技师手动定位相比,使用深度学习3D相机进行患者定位改善了CT检查的工作流程。然而,其对偏心距离、CTDI、DLP和背景噪声的影响极小。
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