增强现实技术用于冷冻消融手术

Hugo Talbot, Frédérick Roy, S. Cotin
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引用次数: 3

摘要

冷冻疗法是一种快速发展的微创技术,用于治疗不同类型的肿瘤,如乳腺癌、肾癌和前列腺癌。在图像引导下,将几个空心针经皮插入目标区域,然后在针内减压气体(通常是氩气)。根据汤姆逊-焦耳原理,温度急剧下降,在针尖周围形成冰晶球。放射科医生依靠这个冰球(273 K)的几何形状,在计算机断层扫描(CT)或磁共振(MR)图像上可见,来评估消融的状态。然而,只有当温度降至233 K以下时,细胞才会死亡。因此,手术的复杂性在于规划治疗肿瘤所需的针的最佳数量、位置和方向,同时避免对周围健康组织造成任何损害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Augmented reality for cryoablation procedures
Cryotherapy is a rapidly growing minimally invasive technique for the treatment of different kinds of tumors, such as breast cancer, renal and prostate cancer. Several hollow needles are percutaneously inserted in the target area under image guidance and a gas (usually argon) is then decompressed inside the needles. Based on the Thompson-Joule principle, the temperature drops drown and a ball of ice crystals forms around the tip of each needle. Radiologists rely on the geometry of this iceball (273 K), visible on computer tomographic (CT) or magnetic resonance (MR) images, to assess the status of the ablation. However, cellular death only occurs when the temperature falls below 233 K. The complexity of the procedure therefore resides in planning the optimal number, position and orientation of the needles required to treat the tumor, while avoiding any damage to the surrounding healthy tissues.
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