Qin Yi, Hua Hong
3D Visualization and Imaging Lab, College of Optical Sciences, University of Arizona, 1630 E University Blvd., Tucson, AZ, 85721, USA.
Biomed Opt Express. 2016 Mar 7;7(4):1175-82. doi: 10.1364/BOE.7.001175. eCollection 2016 Apr 1.
In modern minimally invasive surgeries (MIS), standard laparoscopes suffer from the tradeoff between the spatial resolution and field of view (FOV). The inability of simultaneously acquiring high-resolution images for accurate operation and wide-angle overviews for situational awareness limits the efficiency and outcome of the MIS. A dual view multi-resolution foveated laparoscope (MRFL) which can simultaneously provide the surgeon with a high-resolution view as well as a wide-angle overview was proposed and demonstrated to have great potential for improving the MIS. Although experiment results demonstrated the high-magnification probe has an adequate magnification for viewing surgical details, the dual-view MRFL is limited to two fixed levels of magnifications. A fine adjustment of the magnification is highly desired for obtaining high resolution images with desired field coverage. In this paper, a high magnification probe with continuous zooming capability without any mechanical moving parts is demonstrated. By taking the advantages of two electrically tunable lenses, one for optical zoom and the other for image focus compensation, the optical magnification of the high-magnification probe varies from 2 × to 3 × compared with that of the wide-angle probe, while the focused object position stays the same as the wide-angle probe. The optical design and the tunable lens analysis are presented, followed by prototype demonstration.
在现代微创手术(MIS)中,标准腹腔镜存在空间分辨率和视野(FOV)之间的权衡。无法同时获取用于精确操作的高分辨率图像和用于态势感知的广角概览限制了MIS的效率和效果。提出了一种双视图多分辨率中央凹腹腔镜(MRFL),它可以同时为外科医生提供高分辨率视图和广角概览,并已证明在改善MIS方面具有巨大潜力。尽管实验结果表明高倍探头具有足够的放大倍数来观察手术细节,但双视图MRFL仅限于两种固定的放大倍数级别。为了获得具有所需视野覆盖范围的高分辨率图像,非常需要对放大倍数进行精细调整。本文展示了一种具有连续变焦能力且无任何机械运动部件的高倍探头。通过利用两个电调谐透镜的优势,一个用于光学变焦,另一个用于图像聚焦补偿,与广角探头相比,高倍探头的光学放大倍数从2倍变化到3倍,而聚焦物体位置与广角探头保持相同。介绍了光学设计和可调谐透镜分析,随后进行了原型演示。