Factors affecting the voxel-based analysis of diffusion tensor imaging

Diffusion tensor imaging (DTI) provides a unique method to reveal the integrity of white matter microstructure noninvasively. Voxel-based analysis (VBA), which is a highly reproducible and user-independent tech- nique, has been used to analyze DTI data in a number of studies. Fractional anisotropy (...

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Bibliographic Details
Published inChinese science bulletin Vol. 59; no. 31; pp. 4077 - 4085
Main Authors Wang, Jianli, Nie, Binbin, Zhu, Haitao, Liu, Hua, Wang, Jingjuan, Duan, Shaofeng, Shan, Baoci
Format Journal Article
LanguageEnglish
Published Heidelberg Springer-Verlag 01.11.2014
Science China Press
Subjects
Chemistry/Food Science
Earth Sciences
Engineering
Humanities and Social Sciences
image analysis
Life Sciences
microstructure
multidisciplinary
patients
Physics
Science
Science (multidisciplinary)
seeds
t-test
三线性插值
体素
可能影响
成像
扩散张量
结构完整性
统计分析
预处理过程
Fractional anisotropy
Jaccard similarity
Voxel-based analysis
Statistical parametric mapping
Diffusion tensor imaging
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Summary:Diffusion tensor imaging (DTI) provides a unique method to reveal the integrity of white matter microstructure noninvasively. Voxel-based analysis (VBA), which is a highly reproducible and user-independent tech- nique, has been used to analyze DTI data in a number of studies. Fractional anisotropy (FA), which is derived from DTI, is the most frequently used parameter. The parameter setting during the DTI data preprocessing might affect the FA analysis results. However, there is no reliable evidence on how the parameters affect the results of FA analysis. This study sought to quantitatively investigate the factors that might affect the voxel-based analysis of FA; these include the interpolation during spatial normalization, smoothing kernel and statistical threshold. Because it is difficult to obtain the true information of the lesion in the patients, we simulated lesions on the healthy FA maps. The DTI data were obtained from 20 healthy subjects. The FA maps were calculated using DTIStudio. We randomly divided these FA maps into two groups. One was used as a model patient group, and the other was used as a normal control group. Simulated lesions were added to the model patient group by decreasing the FA intensities in a specified region by 5 %- 50 %. The model patient group and the normal control groupwere compared by two-sample t test statistic analysis voxel- by-voxel to detect the simulated lesions. We evaluated these factors by comparing the difference between the detected lesion through VBA and the simulated lesion. The result showed that the space normalization of FA image should use the trilinear interpolation, and the smoothing kernel should be 2-3 times the voxel size of spatially normalized FA image. For lesions with small intensity change, FWE correction must be cautiously used. This study provided an important reference to the analysis of FA with VBA method.
Bibliography:Diffusion tensor imaging ; Statistical parametric mapping ; Jaccard similarity ; Fractional anisotropy ; Voxel-based analysis
11-1785/N
Diffusion tensor imaging (DTI) provides a unique method to reveal the integrity of white matter microstructure noninvasively. Voxel-based analysis (VBA), which is a highly reproducible and user-independent tech- nique, has been used to analyze DTI data in a number of studies. Fractional anisotropy (FA), which is derived from DTI, is the most frequently used parameter. The parameter setting during the DTI data preprocessing might affect the FA analysis results. However, there is no reliable evidence on how the parameters affect the results of FA analysis. This study sought to quantitatively investigate the factors that might affect the voxel-based analysis of FA; these include the interpolation during spatial normalization, smoothing kernel and statistical threshold. Because it is difficult to obtain the true information of the lesion in the patients, we simulated lesions on the healthy FA maps. The DTI data were obtained from 20 healthy subjects. The FA maps were calculated using DTIStudio. We randomly divided these FA maps into two groups. One was used as a model patient group, and the other was used as a normal control group. Simulated lesions were added to the model patient group by decreasing the FA intensities in a specified region by 5 %- 50 %. The model patient group and the normal control groupwere compared by two-sample t test statistic analysis voxel- by-voxel to detect the simulated lesions. We evaluated these factors by comparing the difference between the detected lesion through VBA and the simulated lesion. The result showed that the space normalization of FA image should use the trilinear interpolation, and the smoothing kernel should be 2-3 times the voxel size of spatially normalized FA image. For lesions with small intensity change, FWE correction must be cautiously used. This study provided an important reference to the analysis of FA with VBA method.
http://dx.doi.org/10.1007/s11434-014-0551-8
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1001-6538
1861-9541
DOI:10.1007/s11434-014-0551-8