基于聚光灯的视网膜手术三维仪器指导。

Mingchuan Zhou, Jiahao Wu, Ali Ebrahimi, Niravkumar Patel, Changyan He, Peter Gehlbach, Russell H Taylor, Alois Knoll, M Ali Nasseri, Iulian Iordachita
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引用次数: 5

摘要

视网膜手术是一项复杂的活动,对外科医生来说,有效和安全地进行手术是一项挑战。图像引导机器人辅助手术是一种很有前途的解决方案,可以显著提高手术治疗效果,减少人类外科医生的身体限制。在本文中,我们提出了一种新的基于单显微镜图像的聚焦投影的仪器三维制导方法。首先分析了射光在平面和球面上的投影机理,并建立了射光在平面和球面上的投影模型。为了验证该方法的可行性,将一根光纤集成到由稳定手眼机器人(SHER)驱动的仪器中。利用该算法对幻影视网膜上的光点进行了分割和跟踪。静态校准和动态测试结果均表明,该方法可以轻松地归档0.5 mm的尖端到表面距离,在临床上可接受的眼内视觉引导精度范围内。
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Spotlight-based 3D Instrument Guidance for Retinal Surgery.

Retinal surgery is a complex activity that can be challenging for a surgeon to perform effectively and safely. Image guided robot-assisted surgery is one of the promising solutions that bring significant surgical enhancement in treatment outcome and reduce the physical limitations of human surgeons. In this paper, we demonstrate a novel method for 3D guidance of the instrument based on the projection of spotlight in the single microscope images. The spotlight projection mechanism is firstly analyzed and modeled with a projection on both a plane and a sphere surface. To test the feasibility of the proposed method, a light fiber is integrated into the instrument which is driven by the Steady-Hand Eye Robot (SHER). The spot of light is segmented and tracked on a phantom retina using the proposed algorithm. The static calibration and dynamic test results both show that the proposed method can easily archive 0.5 mm of tip-to-surface distance which is within the clinically acceptable accuracy for intraocular visual guidance.

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