腔内和间质超声热疗和热消融的建模:用于设备设计、反馈控制和治疗计划的应用。
Modelling of endoluminal and interstitial ultrasound hyperthermia and thermal ablation: applications for device design, feedback control and treatment planning.
机构信息
Department of Electrical and Computer Engineering, Kansas State University, Manhattan, KS 66506, USA.
出版信息
Int J Hyperthermia. 2013 Jun;29(4):296-307. doi: 10.3109/02656736.2013.800998.
Abstract
Endoluminal and catheter-based ultrasound applicators are currently under development and are in clinical use for minimally invasive hyperthermia and thermal ablation of various tissue targets. Computational models play a critical role in device design and optimisation, assessment of therapeutic feasibility and safety, devising treatment monitoring and feedback control strategies, and performing patient-specific treatment planning with this technology. The critical aspects of theoretical modelling, applied specifically to endoluminal and interstitial ultrasound thermotherapy, are reviewed. Principles and practical techniques for modeling acoustic energy deposition, bioheat transfer, thermal tissue damage, and dynamic changes in the physical and physiological state of tissue are reviewed. The integration of these models and applications of simulation techniques in identification of device design parameters, development of real time feedback-control platforms, assessing the quality and safety of treatment delivery strategies, and optimisation of inverse treatment plans are presented.
摘要
腔内和基于导管的超声治疗设备目前正在开发中,并已在微创热疗和各种组织靶区的热消融治疗中得到临床应用。计算模型在设备设计和优化、治疗可行性和安全性评估、治疗监测和反馈控制策略的制定以及使用该技术进行患者特异性治疗计划方面发挥着关键作用。本文回顾了腔内和间质超声热疗中理论建模的关键方面。回顾了用于建模声能沉积、生物传热、热组织损伤以及组织物理和生理状态动态变化的原理和实用技术。介绍了这些模型的集成以及仿真技术在确定设备设计参数、开发实时反馈控制平台、评估治疗输送策略的质量和安全性以及优化逆治疗计划中的应用。
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