Simulation of thermal damage to bone tissue during bone drilling

Shun Li, Yim-Pan Chui, P. Heng
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引用次数: 1

Abstract

Drilling of bone, which is an essential part in temporal bone surgeries, is applied for making a tiny surgical entrance(incision) to the target. Because the temporal bone has a remarkable complex anatomy structures responsible for hearing and balance, VR (virtual reality)-based simulator is desirable for the trainee to interactively localize and operate on the target in a virtual space. In the surgical process, vast heat is generated while the drill bit cuts the bone tissue. For the human body, the tolerance of the bone tissue to the temperature is limited and a persistently high temperature may possibly result in thermal necrosis. In this paper, we have proposed a framework to evaluate the thermal damage to bone tissue during the bone drilling process. Heat generation and conduction were both modelled physically in our framework. The profile of temperature distribution in the bone tissue was used to determine the region of thermal necrosis which is treated as one of the metrics to assess the quality of the virtual surgical case.
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骨钻孔过程中骨组织热损伤的模拟
骨钻孔是颞骨手术中必不可少的部分,用于在目标上形成微小的手术入口(切口)。由于颞骨具有非常复杂的解剖结构,负责听力和平衡,因此基于VR(虚拟现实)的模拟器是学员在虚拟空间中交互式定位和操作目标的理想选择。在手术过程中,钻头切割骨组织时产生巨大的热量。对于人体来说,骨组织对温度的耐受性是有限的,持续的高温可能导致热坏死。在本文中,我们提出了一个评估骨钻孔过程中骨组织热损伤的框架。在我们的框架中,热的产生和传导都是物理模拟的。骨组织的温度分布曲线用于确定热坏死区域,热坏死区域被视为评估虚拟手术病例质量的指标之一。
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