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首页> 外文期刊>International journal of hyperthermia: The official journal of European Society for Hyperthermic Oncology, North American Hyperthermia Group >Computer simulations of an irrigated radiofrequency cardiac ablation catheter and experimental validation by infrared imaging
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Computer simulations of an irrigated radiofrequency cardiac ablation catheter and experimental validation by infrared imaging

机译:灌溉射频心脏消融导管的计算机模拟和红外成像的实验验证

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Purpose To develop and validate a three-dimensional (3-D) computer model based on accurate geometry of an irrigated cardiac radiofrequency (RF) ablation catheter with microwave radiometry capability, and to test catheter performance. Methods A computer model was developed based on CAD geometry of a RF cardiac ablation catheter prototype to simulate electromagnetic heating, heat transfer, and computational fluid dynamics (blood flow, open irrigation, and natural convection). Parametric studies were performed; blood flow velocity (0–25?cm/s) and irrigation flow (0–40?ml/min) varied, both with perpendicular (PE) and parallel (PA) catheter orientations relative to tissue. Tissue Agar phantom studies were performed under similar conditions, and temperature maps were recorded via infrared camera. Computer model simulations were performed with constant voltage and with voltage adjusted to achieve maximum tissue temperatures of 95–105?°C. Results Model predicted thermal lesion width at 5?W power was 5.8–6.4?mm (PE)/6.5–6.6?mm (PA), and lesion depth was 4.0–4.3?mm (PE)/4.0–4.1?mm (PA). Compared to phantom studies, the mean errors of the computer model were as follows: 6.2?°C(PE)/4.3?°C (PA) for maximum gel temperature, 0.7?mm (10.9%) (PE)/0.1?mm (0.8%) (PA) for lesion width, and 0.3?mm (7.7%)(PE)/0.7?mm (19.1%) (PA) for lesion depth. For temperature-controlled ablation, model predicted thermal lesion width was 7–9.2?mm (PE)/8.6–9.2?mm (PA), and lesion depth was 4.3–5.5?mm (PE)/3.4–5.4?mm (PA). Conclusions Computer models were able to reproduce device performance and to enable device evaluation under varying conditions. Temperature controlled ablation of irrigated catheters enables optimal tissue temperatures independent of patient-specific conditions such as blood flow.
机译:基于微波辐射测定能力的灌溉心脏射频(RF)消融导管的精确几何,开发和验证三维(3-D)计算机模型,并以微波辐射测定能力,并测试导管性能。方法基于RF心脏消融导管原型的CAD几何体开发了计算机模型,以模拟电磁加热,传热和计算流体动力学(血流,开放灌溉和自然对流)。参数化研究进行了;血流速度(0-25·cm / s)和灌溉流动(0-40×ml / min),既有垂直(PE)和平行(PA)导管取向相对于组织。在类似条件下进行组织琼脂幻像研究,通过红外相机记录温度图。通过恒定电压和电压进行电脑模型模拟,调整电压以实现95-105°C的最大组织温度。结果模型预测5?W功率的热病变宽度为5.8-6.4?mm(PE)/6.5-6.6?MM(PA)和病变深度为4.0-4.3?mm(PE)/4.0-4.1?MM(PA )。与Phantom研究相比,计算机模型的平均误差如下:6.2?°C(PE)/4.3?°(PA)最大凝胶温度,0.7Ω(10.9%)(PE)/ 0.1 ??mm病变宽度(0.8%)(PA),0.3Ωmm(7.7%)(PE)/0.7Ωmm(19.1%)(PA),用于病变深度。对于温度控制的消融,模型预测的热病变宽度为7-9.2?mm(PE)/8.6-9.2?MM(PA),病变深度为4.3-5.5?mm(PE)/3.4-5.4?MM(PA )。结论计算机模型能够重现设备性能并在不同条件下使设备评估能够实现。灌溉导管的温度控制消融使得能够与诸如血流等患者特异性条件无关的最佳组织温度。

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