A Bayesian Approach to Distinguishing Interdigitated Muscles in the Tongue from Limited Diffusion Weighted Imaging.

Bayesian and grAphical models for biomedical imaging : first International Workshop, BAMBI 2014, Cambridge, MA, USA, September 18, 2014 ; revised selected papers. BAMBI (Workshop) (1st : 2014 : Cambridge, Mass.) Pub Date : 2014-01-01 DOI:10.1007/978-3-319-12289-2_2

Chuyang Ye, Aaron Carass, Emi Murano, Maureen Stone, Jerry L Prince

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引用次数: 6

Abstract

Fiber tracking in crossing regions is a well known issue in diffusion tensor imaging (DTI). Multi-tensor models have been proposed to cope with the issue. However, in cases where only a limited number of gradient directions can be acquired, for example in the tongue, the multi-tensor models fail to resolve the crossing correctly due to insufficient information. In this work, we address this challenge by using a fixed tensor basis and incorporating prior directional knowledge. Within a maximum a posteriori (MAP) framework, sparsity of the basis and prior directional knowledge are incorporated in the prior distribution, and data fidelity is encoded in the likelihood term. An objective function can then be obtained and solved using a noise-aware weighted ℓ₁-norm minimization. Experiments on a digital phantom and in vivo tongue diffusion data demonstrate that the proposed method is able to resolve crossing fibers with limited gradient directions.

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用贝叶斯方法从有限扩散加权成像中识别舌间指肌。

光纤在交叉区域的跟踪是扩散张量成像(DTI)中一个众所周知的问题。多张量模型被提出来解决这个问题。然而，在只能获得有限数量的梯度方向的情况下，例如在舌头中，由于信息不足，多张量模型不能正确地解决交叉。在这项工作中，我们通过使用固定的张量基并结合先前的定向知识来解决这一挑战。在最大后验(MAP)框架中，先验分布中包含了基础的稀疏性和先验方向知识，并在似然项中编码了数据保真度。然后可以使用噪声感知加权1-范数最小化来获得和求解目标函数。实验结果表明，该方法能够分辨出梯度方向有限的交叉纤维。

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