Weon Chijun, Hyun Nam Woo, Lee Duhgoon, Lee Jae Young, Ra Jong Beom
Department of Electrical Engineering, KAIST, Daejeon 305-701, Republic of Korea.
Department of Radiology, Seoul National University Hospital, Seoul 110-744, Republic of Korea.
Med Phys. 2015 Jan;42(1):335-47. doi: 10.1118/1.4903945.
Registration between 2D ultrasound (US) and 3D preoperative magnetic resonance (MR) (or computed tomography, CT) images has been studied recently for US-guided intervention. However, the existing techniques have some limits, either in the registration speed or the performance. The purpose of this work is to develop a real-time and fully automatic registration system between two intermodal images of the liver, and subsequently an indirect lesion positioning/tracking algorithm based on the registration result, for image-guided interventions.
The proposed position tracking system consists of three stages. In the preoperative stage, the authors acquire several 3D preoperative MR (or CT) images at different respiratory phases. Based on the transformations obtained from nonrigid registration of the acquired 3D images, they then generate a 4D preoperative image along the respiratory phase. In the intraoperative preparatory stage, they properly attach a 3D US transducer to the patient's body and fix its pose using a holding mechanism. They then acquire a couple of respiratory-controlled 3D US images. Via the rigid registration of these US images to the 3D preoperative images in the 4D image, the pose information of the fixed-pose 3D US transducer is determined with respect to the preoperative image coordinates. As feature(s) to use for the rigid registration, they may choose either internal liver vessels or the inferior vena cava. Since the latter is especially useful in patients with a diffuse liver disease, the authors newly propose using it. In the intraoperative real-time stage, they acquire 2D US images in real-time from the fixed-pose transducer. For each US image, they select candidates for its corresponding 2D preoperative slice from the 4D preoperative MR (or CT) image, based on the predetermined pose information of the transducer. The correct corresponding image is then found among those candidates via real-time 2D registration based on a gradient-based similarity measure. Finally, if needed, they obtain the position information of the liver lesion using the 3D preoperative image to which the registered 2D preoperative slice belongs.
The proposed method was applied to 23 clinical datasets and quantitative evaluations were conducted. With the exception of one clinical dataset that included US images of extremely low quality, 22 datasets of various liver status were successfully applied in the evaluation. Experimental results showed that the registration error between the anatomical features of US and preoperative MR images is less than 3 mm on average. The lesion tracking error was also found to be less than 5 mm at maximum.
A new system has been proposed for real-time registration between 2D US and successive multiple 3D preoperative MR/CT images of the liver and was applied for indirect lesion tracking for image-guided intervention. The system is fully automatic and robust even with images that had low quality due to patient status. Through visual examinations and quantitative evaluations, it was verified that the proposed system can provide high lesion tracking accuracy as well as high registration accuracy, at performance levels which were acceptable for various clinical applications.
二维超声(US)与术前三维磁共振(MR)(或计算机断层扫描,CT)图像之间的配准近来已用于超声引导介入研究。然而,现有技术在配准速度或性能方面存在一些局限性。本研究的目的是开发一种肝脏两种模态图像之间的实时全自动配准系统,并基于配准结果开发一种间接病变定位/跟踪算法,用于图像引导介入。
所提出的位置跟踪系统包括三个阶段。在术前阶段,作者获取不同呼吸相位的多幅术前三维MR(或CT)图像。基于从所获取的三维图像的非刚性配准获得的变换,然后沿呼吸相位生成一幅四维术前图像。在术中准备阶段,他们将一个三维超声换能器正确地附着于患者身体,并使用一个固定装置固定其姿态。然后获取几幅呼吸控制的三维超声图像。通过将这些超声图像与四维图像中的术前三维图像进行刚性配准,相对于术前图像坐标确定固定姿态的三维超声换能器的姿态信息。作为用于刚性配准的特征,他们可以选择肝内血管或下腔静脉。由于后者在弥漫性肝病患者中特别有用,作者新提出使用它。在术中实时阶段,他们从固定姿态的换能器实时获取二维超声图像。对于每幅超声图像,基于换能器的预定姿态信息,从四维术前MR(或CT)图像中为其选择对应的二维术前切片候选图像。然后通过基于梯度相似性度量的实时二维配准在这些候选图像中找到正确的对应图像。最后,如果需要,他们使用配准的二维术前切片所属的术前三维图像获取肝脏病变的位置信息。
所提出的方法应用于23个临床数据集并进行了定量评估。除了一个包含极低质量超声图像的临床数据集外,22个不同肝脏状况的数据集成功应用于评估。实验结果表明,超声与术前MR图像的解剖特征之间的配准误差平均小于3毫米。病变跟踪误差最大也小于5毫米。
提出了一种用于二维超声与肝脏连续多幅术前三维MR/CT图像之间实时配准的新系统,并将其应用于图像引导介入的间接病变跟踪。该系统是全自动的,即使对于因患者状况导致质量较低的图像也很稳健。通过视觉检查和定量评估,验证了所提出的系统能够提供高病变跟踪精度以及高配准精度,其性能水平在各种临床应用中是可接受的。
