在封闭的天空条件下,沿着给定的方向精确地穿过一点的一种装置

G. Danieli, G. Fragomeni, E. Giuzio
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引用次数: 0

摘要

本文提出了一种新的装置,它可以通过一个点和一个给定的方向精确定位一个引导器,或者可以允许到达一个给定的骨部分。其他设备主要用于将螺钉插入到髓内钉的正确位置,但这些设备通常是基于对钉的几何形状的了解,因此由钉的制造者制造。在其他情况下,医生通常在透视下使用试验钻孔将克氏针放置在所需位置。而实际的装置仅仅基于基于几何考虑的瞄准方法。这一点的位置和方向,可以通过属于钢板或髓内钉的孔来给出,也可以是患者骨结构的一部分,以前的知识是没有必要的。这是由于使用了透视镜,结合了两个瞄准平面的定位,在两个瞄准平面上放置了感兴趣的线。由于瞄准过程中使用的第一个运动链的复杂性和人为错误,根据这一原理开发的第一个仪器在临床上的成功有限。一个新的版本已经设计并正在建造中,它通过仔细选择一系列约束来解决运动学问题,使瞄准过程划分为子过程,从而逐步控制最终结果。
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A Device for Driving a Wire or a Drill Precisely in a Given Direction Through a Point Under Closed Sky Conditions
The paper presents a new device which allows the precise positioning of a guide through a point and in a given direction, or which can permit to reach a given bone section. Other devices exist mainly addressed to the insertion of a screw in the correct position on endo-medullary nails, but these are usually based on the knowledge of the geometry of the nail, and are therefore made by the maker of the nail. In other instances, often the doctors use trial drilling under fluoroscopy to place a kirshner wire in the required position. The actual device is instead based only on an aiming methodology resting on geometrical considerations. Previous knowledge of the position of such a point and direction, which can be given by a hole belonging to a plate or to an endo-medullary nail or can be part of the patient’s bone structure, is not necessary. This is due to the use of fluoroscopy coupled to the localisation of two aiming planes on whose interception is placed the line of interest. A first instrument developed on this principle found limited clinical success due to the complexity of the first kinematic chain used in the aiming process and to human error. A new version has been designed and is at present under construction, which solves the kinematic problem through a careful choice of a series of constraints enabling the aiming process to be divided in sub processes, thus gradually controlling the final result.
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