实验性磁共振成像引导下的脑部间质冷冻治疗
Experimental MR imaging-guided interstitial cryotherapy of the brain.
作者信息
Tacke J, Speetzen R, Adam G, Sellhaus B, Glowinski A, Heschel I, Schäffter T, Schorn R, Grosskortenhaus S, Rau G, Günther R W
机构信息
Department of Diagnostic Radiology, University of Technology, Aachen, Germany.
出版信息
AJNR Am J Neuroradiol. 2001 Mar;22(3):431-40.
BACKGROUND AND PURPOSE
Hyperthermal ablation techniques such as laser or RF ablation require dedicated heat-sensitive MR imaging sequences for monitoring MR imaging--guided interventions. Because cryotherapy does not have these limitations, the purpose of this study was to evaluate the feasibility of MR imaging--guided percutaneous cryotherapy of the brain.
METHODS
An experimental cryoprobe with an outer diameter of 2.7 mm was inserted into the right frontal lobe of 11 healthy pigs under MR imaging control. Freezing procedures were monitored by using an interventional 1.5-T magnet and a gradient-echo sequence with radial k-space trajectories, a fast T2-weighted single-shot spin-echo sequence, and a T1-weighted single-shot gradient-echo sequence. In three animals, the procedure was also monitored by using dynamic CT. A freeze-thaw cycle with a duration of 3 minutes was repeated three times per animal. Follow-up MR images were obtained 3, 7, and 14 days after cryotherapy by using conventional MR sequences. Six animals were killed 7 days after intervention, and five animals were killed 14 days after intervention. The brains were sectioned, and the histologic findings of the lesions were compared with the MR imaging appearance.
RESULTS
No artifacts due to the probe were observed on the MR images or CT scans. The ice formation (mean diameter, 12.5 mm) was very well delineated as a signal-free sphere. MR monitoring of the freezing procedure yielded a significantly higher ice:tissue contrast than did CT. The size of the ice ball as imaged by MR imaging and CT during the intervention correlated well with the MR imaging appearance of the lesions at the 14-day follow-up examination and with the histologic findings. Histologically, coagulation necrosis and gliosis were found, surrounded by a transition zone of edema and a disrupted blood-brain barrier, corresponding to a contrast-enhancing rim around the lesions on follow-up MR images.
CONCLUSION
MR imaging-guided cryotherapy of the brain is possible and allows a precise prediction of the resulting necrosis. MR imaging of the freezing process does not require heat-sensitive sequences and is superior to CT for monitoring of cryoablation.
背景与目的
诸如激光或射频消融等热消融技术需要专门的热敏感磁共振成像序列来监测磁共振成像引导的介入操作。由于冷冻疗法不存在这些限制,本研究的目的是评估磁共振成像引导下经皮脑冷冻疗法的可行性。
方法
在磁共振成像控制下,将外径为2.7毫米的实验性冷冻探针插入11只健康猪的右侧额叶。使用1.5-T介入式磁体以及具有径向k空间轨迹的梯度回波序列、快速T2加权单次激发自旋回波序列和T1加权单次激发梯度回波序列来监测冷冻过程。在三只动物中,还使用动态CT监测该过程。每只动物重复进行三次持续3分钟的冻融循环。冷冻治疗后3天、7天和14天,使用常规磁共振序列获取随访磁共振图像。6只动物在干预后7天处死,5只动物在干预后14天处死。将大脑切片,比较病变的组织学结果与磁共振成像表现。
结果
在磁共振图像或CT扫描上未观察到因探针导致的伪影。结冰情况(平均直径12.5毫米)被很好地描绘为无信号的球体。与CT相比,磁共振成像对冷冻过程的监测产生了显著更高的冰与组织对比度。介入过程中磁共振成像和CT所成像的冰球大小与14天随访检查时病变的磁共振成像表现以及组织学结果密切相关。组织学上,发现有凝固性坏死和胶质细胞增生,周围是水肿过渡区和破坏的血脑屏障,这与随访磁共振图像上病变周围的强化边缘相对应。
结论
磁共振成像引导下的脑冷冻疗法是可行的,并且能够精确预测所导致的坏死情况。冷冻过程的磁共振成像不需要热敏感序列,并且在监测冷冻消融方面优于CT。
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