A Novel Singular Value Decomposition-Based Denoising Method in 4-Dimensional Computed Tomography of the Brain in Stroke Patients with Statistical Evaluation.

Wonseok Yang,Seung Hyun Lee,Jun-Yong Hong,Seung-Ho Paik,Gihyoun Lee,Young-Jin Jung,Beop Min Kim,Ji-Su Park,Jeong-Youn Kim

doi:10.3390/s20113063

Abstract

Computed tomography (CT) is a widely used medical imaging modality for diagnosing various diseases. Among CT techniques, 4-dimensional CT perfusion (4D-CTP) of the brain is established in most centers for diagnosing strokes and is considered the gold standard for hyperacute stroke diagnosis. However, because the detrimental effects of high radiation doses from 4D-CTP may cause serious health risks in stroke survivors, our research team aimed to introduce a novel image-processing technique. Our singular value decomposition (SVD)-based image-processing technique can improve image quality, first, by separating several image components using SVD and, second, by reconstructing signal component images to remove noise, thereby improving image quality. For the demonstration in this study, 20 4D-CTP dynamic images of suspected acute stroke patients were collected. Both the images that were and were not processed via the proposed method were compared. Each acquired image was objectively evaluated using contrast-to-noise and signal-to-noise ratios. The scores of the parameters assessed for the qualitative evaluation of image quality improved to an excellent rating (p < 0.05). Therefore, our SVD-based image-denoising technique improved the diagnostic value of images by improving their quality. The denoising technique and statistical evaluation can be utilized in various clinical applications to provide advanced medical services.

Highlights

Strokes have become a major issue affecting aging populations worldwide [1,2,3], which makes appropriate prevention and treatment measures crucial
To identify the affected sites that could lead to strokes, computed tomography perfusion (CTP) and magnetic resonance imaging (MRI) scans are commonly performed for clinical diagnoses [7,8,9]
The singular value decomposition (SVD)-based denoising technique was applied to 20 CTP datasets

Summary

Introduction

Strokes have become a major issue affecting aging populations worldwide [1,2,3], which makes appropriate prevention and treatment measures crucial. To identify the affected sites that could lead to strokes, computed tomography perfusion (CTP) and magnetic resonance imaging (MRI) scans are commonly performed for clinical diagnoses [7,8,9] Both of these imaging modalities have different strengths and weaknesses. MRI is the front-runner among imaging modalities for the detection of affected sites in stroke patients involving no risk of them being exposed to radiation [10], the long examination time that may be required limits its practical clinical use [11] For this reason, CTP has been used in the diagnosis of acute stroke and has reduced the imaging examination time

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