Division of Urologic Surgery, Comprehensive Kidney Stone Center, Duke University Medical Center, Durham, North Carolina 27710, USA.
J Endourol. 2011 Mar;25(3):519-22. doi: 10.1089/end.2010.0206. Epub 2011 Mar 1.
Recent advances in endoscope design have placed the charged coupled device chip on the tip of the endoscope. The image is instantly digitalized and converted into an electrical signal for transmission. Digital technology was first introduced into flexible cystoscopes/nephroscopes and subsequently into rigid and flexible ureteroscopes. Herein, we assess the image characteristics and advantages of a new generation of digital flexible ureteroscopes.
The Olympus URF-V flexible digital ureteroscope and the Olympus URF-P3 fiberoptic ureteroscope were assessed in vitro for image resolution, distortion, color representation, grayscale imaging, field of view, and depth of field.
The digital ureteroscope had a higher resolution at 3, 5, 10, and 20 mm (25.2 lines/mm vs. 8.0, 14.1 vs. 5.0, 6.3 vs. 2.8, and 3.2 vs. 1.3), respectively. Distortion with the digital flexible ureteroscope was lower, though not statistically significant. Color representation was better with the digital ureteroscope, whereas contrast evaluation was comparable between both scopes. The digital flexlible ureteroscope produced a 5.3 times larger image size compared with the standard fiberoptic flexible uretersocpe with a narrower field of view. The depth of field was limited by light and not the optic or the camera for both ureteroscopes.
The development of digital flexible ureteroscopes represents a significant technological advance in urology. These devices offer significantly improved resolution and color reproduction as compared with traditional fiberoptic flexible ureteroscopes. Future clinical trials are warranted to ultimately determine the advantages of these innovative endoscopes.
最近在内窥镜设计方面的进展将电荷耦合器件芯片放置在内窥镜的尖端。图像立即数字化,并转换为电信号进行传输。数字技术最初被引入到软性膀胱镜/肾镜中,随后又被引入到硬性和软性输尿管镜中。在此,我们评估了新一代数字软性输尿管镜的图像特征和优势。
对奥林巴斯 URF-V 软性数字输尿管镜和奥林巴斯 URF-P3 纤维输尿管镜进行了体外评估,以评估其图像分辨率、失真、颜色再现、灰度成像、视野和景深。
数字输尿管镜在 3、5、10 和 20 毫米处的分辨率更高(分别为 25.2 线/mm 对 8.0、14.1 对 5.0、6.3 对 2.8 和 3.2 对 1.3)。虽然数字软性输尿管镜的失真程度较低,但没有统计学意义。数字输尿管镜的颜色再现更好,而对比度评估在两种镜之间相当。与标准纤维输尿管镜相比,数字柔性输尿管镜可产生 5.3 倍大的图像尺寸,但其视野更窄。景深受光的限制,而不是光学器件或相机,这两种输尿管镜都是如此。
数字软性输尿管镜的发展代表了泌尿科的一项重大技术进步。与传统的纤维光学软性输尿管镜相比,这些设备提供了显著提高的分辨率和颜色再现。需要进行未来的临床试验,以最终确定这些创新内窥镜的优势。
