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基于伴随方程的弹性成像算法评估。

Evaluation of the adjoint equation based algorithm for elasticity imaging.

作者信息

Oberai Assad A, Gokhale Nachiket H, Doyley Marvin M, Bamber Jeffrey C

机构信息

Department of Aerospace and Mechanical Engineering, Boston University, Boston, MA 02215, USA.

出版信息

Phys Med Biol. 2004 Jul 7;49(13):2955-74. doi: 10.1088/0031-9155/49/13/013.

Abstract

Recently a new adjoint equation based iterative method was proposed for evaluating the spatial distribution of the elastic modulus of tissue based on the knowledge of its displacement field under a deformation. In this method the original problem was reformulated as a minimization problem, and a gradient-based optimization algorithm was used to solve it. Significant computational savings were realized by utilizing the solution of the adjoint elasticity equations in calculating the gradient. In this paper, we examine the performance of this method with regard to measures which we believe will impact its eventual clinical use. In particular, we evaluate its abilities to (1) resolve geometrically the complex regions of elevated stiffness; (2) to handle noise levels inherent in typical instrumentation; and (3) to generate three-dimensional elasticity images. For our tests we utilize both synthetic and experimental displacement data, and consider both qualitative and quantitative measures of performance. We conclude that the method is robust and accurate, and a good candidate for clinical application because of its computational speed and efficiency.

摘要

最近,一种基于伴随方程的新迭代方法被提出来,用于根据组织在变形下的位移场知识来评估其弹性模量的空间分布。在该方法中,原始问题被重新表述为一个最小化问题,并使用基于梯度的优化算法来求解。通过在计算梯度时利用伴随弹性方程的解,实现了显著的计算节省。在本文中,我们从我们认为会影响其最终临床应用的指标方面来考察该方法的性能。具体而言,我们评估其以下能力:(1)从几何上分辨出高刚度的复杂区域;(2)处理典型仪器中固有的噪声水平;(3)生成三维弹性图像。对于我们的测试,我们使用了合成和实验位移数据,并考虑了性能的定性和定量指标。我们得出结论,该方法稳健且准确,并且由于其计算速度和效率,是临床应用的一个良好候选方法。

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