Use of a radiopaque localizer grid to reduce radiation exposure.

Kee D Kim, Wentao Li, Caren L Galloway
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引用次数: 5

Abstract

Background: Minimally invasive spine surgery requires placement of the skin incision at an ideal location in the patient's back by the surgeon. However, numerous fluoroscopic x-ray images are sometimes required to find the site of entry, thereby exposing patients and Operating Room personnel to additional radiation. To minimize this exposure, a radiopaque localizer grid was devised to increase planning efficiency and reduce radiation exposure.

Results: The radiopaque localizer grid was utilized to plan the point of entry for minimally invasive spine surgery. Use of the grid allowed the surgeon to accurately pinpoint the ideal entry point for the procedure with just one or two fluoroscopic X-ray images.

Conclusions: The reusable localizer grid is a simple and practical device that may be utilized to more efficiently plan an entry site on the skin, thus reducing radiation exposure. This device or a modified version may be utilized for any procedure involving the spine.

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使用不透射线定位网格来减少辐射暴露。
背景:微创脊柱手术需要外科医生将皮肤切口放置在患者背部的理想位置。然而,有时需要大量的x线透视图像才能找到进入的位置,从而使患者和手术室人员暴露在额外的辐射下。为了减少这种暴露,设计了一个不透射线的定位网格,以提高规划效率并减少辐射暴露。结果:利用不透射线定位网格来规划微创脊柱手术的进入点。网格的使用使外科医生仅用一到两张x线透视图像就能准确地确定手术的理想进入点。结论:可重复使用的定位网格是一种简单实用的装置,可用于更有效地规划皮肤上的进入点,从而减少辐射暴露。该装置或其改良版本可用于任何涉及脊柱的手术。
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