Understanding soft tissue behavior for microlaparoscopic surface scan

M. S. Erden, Benoît Rosa, J. Szewczyk, G. Morel
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引用次数: 6

Abstract

This paper presents an approach for understanding the soft tissue behavior in surface contact with a hard object scanning the tissue. The application domain is confocal microlaparoscope imaging, mostly used for imaging the outer surface of the organs in the abdominal cavity. The probe (optic-head) is swept over the tissue to collect sequential images to obtain a large field of view with mosaicing. The problem we address is that the tissue also moves with the probe due to its softness; therefore the resulting mosaic is not in the same shape and dimension as traversed by the probe. Our approach inspires from the finger slip studies and adapts the idea of load-and-slip that explains the movement of the finger when dragged on a hard surface. We propose the concept of loading-distance and perform measurements with in total 84 experiments on beef liver and chicken breast tissues. Our results indicate that the loading-distance can be measured prior to a scan and be used during the scan in order to compensate the movement of the probe. In this way we can have an image-mosaic of the tissue surface in a desired shape.
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了解显微腹腔镜表面扫描的软组织行为
本文提出了一种通过扫描软组织与硬物表面接触来理解软组织行为的方法。应用领域为共聚焦显微腹腔镜成像,多用于对腹腔内器官外表面的成像。探头(光学头)在组织上扫描,收集序列图像,以获得大范围的拼接视野。我们要解决的问题是,由于软组织的柔软性,它也会随着探针移动;因此,所得到的马赛克的形状和尺寸与探针穿过的形状和尺寸不同。我们的方法是从手指滑动研究中获得灵感,并适应了解释手指在坚硬表面上被拖拽时的运动的载荷和滑动的想法。本文提出了载荷距离的概念,并对牛肝和鸡胸组织进行了84次实验。我们的结果表明,加载距离可以在扫描之前测量,并在扫描期间使用,以补偿探针的运动。通过这种方式,我们可以得到组织表面所需形状的图像镶嵌。
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