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首页> 外文OA文献 >Active contour configuration model for estimating the posterior ablative margin in image fusion of real-time ultrasound and 3D ultrasound or magnetic resonance images for radiofrequency ablation: an experimental study
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Active contour configuration model for estimating the posterior ablative margin in image fusion of real-time ultrasound and 3D ultrasound or magnetic resonance images for radiofrequency ablation: an experimental study

机译:用于估算实时超声波和3D超声波或磁共振图像的图像融合中的后烧蚀率的主动轮廓配置模型进行射频消融:实验研究

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Purpose The purpose of this study was to evaluate the accuracy of an active contour model for estimating the posterior ablative margin in images obtained by the fusion of real-time ultrasonography (US) and 3-dimensional (3D) US or magnetic resonance (MR) images of an experimental tumor model for radiofrequency ablation. Methods Chickpeas (n=12) and bovine rump meat (n=12) were used as an experimental tumor model. Grayscale 3D US and T1-weighted MR images were pre-acquired for use as reference datasets. US and MR/3D US fusion was performed for one group (n=4), and US and 3D US fusion only (n=8) was performed for the other group. Half of the models in each group were completely ablated, while the other half were incompletely ablated. Hyperechoic ablation areas were extracted using an active contour model from real-time US images, and the posterior margin of the ablation zone was estimated from the anterior margin. After the experiments, the ablated pieces of bovine rump meat were cut along the electrode path and the cut planes were photographed. The US images with the estimated posterior margin were compared with the photographs and post-ablation MR images. The extracted contours of the ablation zones from 12 US fusion videos and post-ablation MR images were also matched. Results In the four models fused under real-time US with MR/3D US, compression from the transducer and the insertion of an electrode resulted in misregistration between the real-time US and MR images, making the estimation of the ablation zones less accurate than was achieved through fusion between real-time US and 3D US. Eight of the 12 post-ablation 3D US images were graded as good when compared with the sectioned specimens, and 10 of the 12 were graded as good in a comparison with nicotinamide adenine dinucleotide staining and histopathologic results. Conclusion Estimating the posterior ablative margin using an active contour model is a feasible way of predicting the ablation area, and US/3D US fusion was more accurate than US/MR fusion.
机译:目的本研究的目的是评估用于估计通过实时超声(US)和三维(3D)US或磁共振(MR)的融合而获得的图像中的后射余量的活性轮廓模型的准确性。射频消融的实验肿瘤模型的图像。方法用鹰嘴豆(n = 12)和牛臀部肉(n = 12)作为实验肿瘤模型。预先获取灰度3D US和T1加权MR图像以用作参考数据集。我们和MR / 3D美国融合是针对一个组(n = 4)进行的,并且仅对其他组执行US和3D美国融合(n = 8)。每组中的一半模型完全消融,而另一半的模型是不完全烧蚀的。利用来自实时US图像的主动轮廓模型提取高档消融区域,并且从前距估计消融区的后缘。实验后,沿电极路径切割烧蚀牛臀部肉,拍摄切割平面。将估计的后边缘的图像与照片和消融后的MR图像进行比较。也匹配来自12个美国融合视频和后消融后的消融区域的提取轮廓。结果在实时融合的四种型号用MR / 3D US融合,从换能器压缩和电极的插入导致实时US和MR图像之间的误解,使得消融区的估计不如精确通过融合在实时我们和3D之间实现。与切片标本相比,12次烧蚀后3D美国图像中的八个较好,与烟酰胺腺嘌呤二核苷酸染色和组织病理学结果相比,12中的10种变得良好。结论使用活跃轮廓模型估计后部烧蚀边缘是一种可行的方式来预测消融区域,美国/ 3D美国融合比我们/先生融合更准确。

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