Duke University, Durham, NC, USA.
Ultrason Imaging. 2013 Jan;35(1):17-29. doi: 10.1177/0161734612469372.
In this study, we investigated the feasibility of using 3.5-Fr (3 Fr = 1 mm) circular phased-array intravascular ultrasound (IVUS) catheters for minimally invasive, image-guided hyperthermia treatment of tumors in the brain. Feasibility was demonstrated in two ways: (1) by inserting a 3.5-Fr IVUS catheter through skull burr holes, for 20 MHz brain imaging in the pig model, and (2) by testing a modified circular array for therapy potential with 18.5-MHz and 9-MHz continuous wave (CW) excitation. The imaging transducer's performance was superior to our previous 9-MHz mechanical IVUS prototype. The therapy catheter transducer was driven by CW electrical power at 18.5 MHz, achieving temperature changes reaching +8°C at a depth of 2 mm in a human glioblastoma grown on the flank of a mouse with minimal transducer resistive heating of +2°C. Further hyperthermia trials showed that 9-MHz CW excitation produced temperature changes of +4.5°C at a depth of 12 mm-a sufficient temperature rise for our long-term goal of targeted, controlled drug release via thermosensitive liposomes for therapeutic treatment of 1-cm-diameter glioblastomas.
在这项研究中,我们研究了使用 3.5Fr(3Fr=1mm)圆形相控阵血管内超声(IVUS)导管进行微创、图像引导的脑肿瘤热疗的可行性。通过两种方式证明了其可行性:(1)通过颅骨钻孔插入 3.5Fr IVUS 导管,在猪模型中进行 20MHz 脑部成像;(2)通过测试改良的圆形阵列,用 18.5MHz 和 9MHz 连续波(CW)激发来测试治疗潜力。成像换能器的性能优于我们之前的 9MHz 机械 IVUS 原型。治疗导管换能器由 18.5MHz 的 CW 电力驱动,在深度为 2mm 的位置产生了+8°C 的温度变化,在小鼠侧腹生长的人类胶质母细胞瘤中,换能器的电阻加热最小,仅为+2°C。进一步的热疗试验表明,9MHz CW 激发在深度为 12mm 处产生了+4.5°C 的温度变化,这足以实现我们的长期目标,即通过热敏脂质体进行靶向、控释药物释放,以治疗 1cm 直径的胶质母细胞瘤。