基于鲁棒自适应双边滤波器的低计数SPECT投影数据去噪

International Journal of Medical Physics, Clinical Engineering and Radiation Oncology Pub Date : 2018-06-04 DOI:10.4236/ijmpcero.2018.73030

S. Nakabayashi, Takashi Chikamatsu, Takao Okamoto, T. Kaminaga, N. Arai, S. Kumagai, K. Shiraishi, T. Okamoto, Takenori Kobayashi, J. Kotoku

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引用次数: 1

摘要

众所周知，低计数SPECT图像被巴特沃斯滤波器平滑，用于统计降噪。由于去除了高频信号成分，重构图像具有较低的信噪比和空间分辨率。利用开发的鲁棒自适应双边滤波器(RABF)作为Butterworth滤波器的前级滤波器，在不降低低计数SPECT成像空间分辨率的情况下提高了信噪比。该滤波器可以在保持空间分辨率的同时去除噪声。为了评估所提出的方法，我们在模拟研究中提取了信噪比和空间分辨率。我们还在临床研究中进行了视觉图像质量评价的配对比较。结果表明，在不降低空间分辨率的情况下，信噪比提高了1.4倍。临床低计数数据的视觉图像质量显著提高(p < 0.01)。堆积结构更加尖锐。一个嵌在噪音中的结构出现了。我们的方法在不降低低计数SPECT图像空间分辨率的情况下去噪，有望提高低剂量扫描和短采集时间扫描的诊断效率。

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Denoising Projection Data with a Robust Adaptive Bilateral Filter in Low-Count SPECT

Low-count SPECT images are well known to be smoothed strongly by a Butterworth filter for statistical noise reduction. Reconstructed images have a low signal-to-noise ratio (SNR) and spatial resolution because of the removal of high-frequency signal components. Using the developed robust adaptive bilateral filter (RABF), which was designed as a pre-stage filter of the Butterworth filter, this study was conducted to improve SNR without degrading the spatial resolution for low-count SPECT imaging. The filter can remove noise while preserving spatial resolution. To evaluate the proposed method, we extracted SNR and spatial resolution in a phantom study. We also conducted paired comparison for visual image quality evaluation in a clinical study. Results show that SNR was increased 1.4 times without degrading the spatial resolution. Visual image quality was improved significantly (p < 0.01) for clinical low-count data. Moreover, the accumulation structure became sharper. A structure embedded in noise emerged. Our method, which denoises without degrading the spatial resolution for low-count SPECT images, is expected to increase the effectiveness of diagnosis for low-dose scanning and short acquisition time scanning.

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International Journal of Medical Physics, Clinical Engineering and Radiation Oncology

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