Improving Low-dose Abdominal CT Images by Weighted Intensity Averaging over Large-scale Neighborhoods

Overview

Journal Eur J Radiol

Specialty Radiology

Date 2010 Aug 17

PMID 20709478

Citations 19

Authors

Yang Chen

Wufan Chen

Xindao Yin

Xianghua Ye

Xudong Bao

Limin Luo

Qianjing Feng

Yinsheng Li

Xiaoe Yu

Affiliations

Soon will be listed here.

Abstract

Purpose: Though highly desirable in radiologic procedures, low-dose CT (LDCT) images tend to be severely degraded by quantum noise and non-stationary artifacts. The purpose of this paper is to improve the abdominal LDCT images by the approach of Weighted Intensity Averaging over Large-scale Neighborhoods (WIA-LN).

Materials And Methods: In the implementation of the proposed WIA-LN method, the processed pixel intensities are adaptively calculated as the weighted intensity averaging of the pixels with similar surrounding structures throughout a large-scale neighborhood. Both phantom and clinical abdominal CT images from a 16 detector rows Siemens CT were acquired at standard and 80% reduced tube current time products (150 mAs and 30 mAs corresponding to standard-dose and low-dose protocols, respectively). Visual comparison, statistical qualitative analysis (image quality scores and hepatic cyst diagnosis), and quantitative calculation (noise and contrast-to-noise ratio) are made.

Results: Better vision and quantitative performance are realized using the proposed WIA-LN method. Compared to original LDCT and standard-dose CT (SDCT) images, statistically significant improvement of noise/artifacts suppression, contrast preservation and hepatic cyst detection in LDCT images are achieved by using the proposed method (P<0.05).

Conclusion: With the tube current reduced to approximate one-fifth of the standard tube current setting, clinically acceptable images can still be obtained by using the proposed method.

Citing Articles

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Liu X, Liang Y, Zhu J, Yu G, Yu Y, Cao Q Front Oncol. 2020; 10:287.

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An improved nonlinear diffusion in Laplacian pyramid domain for cone beam CT denoising during image-guided vascular intervention.

Liu Y, Castro M, Lederlin M, Kaladji A, Haigron P BMC Med Imaging. 2018; 18(1):25.

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Low-dose cone-beam CT via raw counts domain low-signal correction schemes: Performance assessment and task-based parameter optimization (Part I: Assessment of spatial resolution and noise performance).

Hayes J, Gomez-Cardona D, Zhang R, Li K, Cruz-Bastida J, Chen G Med Phys. 2018; 45(5):1942-1956.

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Convolutional auto-encoder for image denoising of ultra-low-dose CT.

Nishio M, Nagashima C, Hirabayashi S, Ohnishi A, Sasaki K, Sagawa T Heliyon. 2017; 3(8):e00393.

PMID: 28920094 PMC: 5577435. DOI: 10.1016/j.heliyon.2017.e00393.