使用多层容积二维磁共振热成像预测消融区域

Predicting ablation zones with multislice volumetric 2-D magnetic resonance thermal imaging.

作者信息

Campwala Zahabiya, Szewczyk Benjamin, Maietta Teresa, Trowbridge Rachel, Tarasek Matthew, Bhushan Chitresh, Fiveland Eric, Ghoshal Goutam, Heffter Tamas, Gandomi Katie, Carvalho Paulo Alberto, Nycz Christopher, Jeannotte Erin, Staudt Michael, Nalwalk Julia, Hellman Abigail, Zhao Zhanyue, Burdette E Clif, Fischer Gregory, Yeo Desmond, Pilitsis Julie G

机构信息

Department of Neuroscience and Experimental Therapeutics, Albany Medical Center, Albany, NY, USA.

Department of Neurosurgery, Albany Medical Center, Albany, NY, USA.

出版信息

Int J Hyperthermia. 2021;38(1):907-915. doi: 10.1080/02656736.2021.1936215.

DOI:10.1080/02656736.2021.1936215

PMID:34148489

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9284994/

Abstract

BACKGROUND

High-intensity focused ultrasound (HIFU) serves as a noninvasive stereotactic system for the ablation of brain metastases; however, treatments are limited to simple geometries and energy delivery is limited by the high acoustic attenuation of the calvarium. Minimally-invasive magnetic resonance-guided robotically-assisted (MRgRA) needle-based therapeutic ultrasound (NBTU) using multislice volumetric 2-D magnetic resonance thermal imaging (MRTI) overcomes these limitations and has potential to produce less collateral tissue damage than current methods.

OBJECTIVE

To correlate multislice volumetric 2-D MRTI volumes with histologically confirmed regions of tissue damage in MRgRA NBTU.

METHODS

Seven swine underwent a total of 8 frontal MRgRA NBTU lesions. MRTI ablation volumes were compared to histologic tissue damage on brain sections stained with 2,3,5-triphenyltetrazolium chloride (TTC). Bland-Altman analyses and correlation trends were used to compare MRTI and TTC ablation volumes.

RESULTS

Data from the initial and third swine's ablations were excluded due to sub-optimal tissue staining. For the remaining ablations ( = 6), the limits of agreement between the MRTI and histologic volumes ranged from -0.149 cm to 0.252 cm with a mean difference of 0.052 ± 0.042 cm (11.1%). There was a high correlation between the MRTI and histology volumes ( = 0.831) with a strong linear relationship ( = 0.868).

CONCLUSION

We used a volumetric MRTI technique to accurately track thermal changes during MRgRA NBTU in preparation for human trials. Improved volumetric coverage with MRTI enhanced our delivery of therapy and has far-reaching implications for focused ultrasound in the broader clinical setting.

摘要

背景

高强度聚焦超声（HIFU）是一种用于消融脑转移瘤的非侵入性立体定向系统；然而，治疗仅限于简单的几何形状，并且能量传递受到颅骨高声衰减的限制。使用多层容积二维磁共振热成像（MRTI）的微创磁共振引导机器人辅助（MRgRA）基于针的治疗性超声（NBTU）克服了这些限制，并且有可能比当前方法产生更少的附带组织损伤。

目的

将多层容积二维MRTI体积与MRgRA NBTU中组织学证实的组织损伤区域相关联。

方法

7头猪共接受了8次额叶MRgRA NBTU损伤。将MRTI消融体积与用2,3,5-三苯基氯化四氮唑（TTC）染色的脑切片上的组织学组织损伤进行比较。使用Bland-Altman分析和相关趋势来比较MRTI和TTC消融体积。

结果

由于组织染色不理想，最初和第三头猪的消融数据被排除。对于其余的消融（n = 6），MRTI和组织学体积之间的一致性界限为-0.149 cm至0.252 cm，平均差异为0.052±0.042 cm（11.1%）。MRTI和组织学体积之间存在高度相关性（r = 0.831），具有很强的线性关系（R = 0.868）。

结论

我们使用容积MRTI技术在MRgRA NBTU期间准确跟踪热变化，为人体试验做准备。MRTI改善的容积覆盖增强了我们的治疗效果，并且对更广泛临床环境中的聚焦超声具有深远意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/95ad/9284994/3bfac2cad1f3/nihms-1819240-f0001.jpg

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使用多层容积二维磁共振热成像预测消融区域

Predicting ablation zones with multislice volumetric 2-D magnetic resonance thermal imaging.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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