In a clinical study, diffusion kurtosis imaging (DKI) has been used to visualize and distinguish white matter (WM) structures' details. The purpose of our study is to evaluate and compare the diffusion tensor imaging (DTI) and DKI parameter values to obtain WM structure differences of healthy subjects. Thirteen healthy volunteers (mean age, 25.2 years) were examined in this study. On a 3-T MRI system, diffusion dataset for DKI was acquired using an echo-planner imaging sequence, and T -weghted (T w) images were acquired. Imaging analysis was performed using Functional MRI of the brain Software Library (FSL). First, registration analysis was performed using the T w of each subject to MNI152. Second, DTI (eg, fractional anisotropy FA and each diffusivity) and DKI (eg, mean kurtosis MK, radial kurtosis RK, and axial kurtosis AK) datasets were applied to above computed spline coefficients and affine matrices. Each DTI and DKI parameter value for WM areas was compared. Finally, tract-based spatial statistics (TBSS) analysis was performed using each parameter. The relationship between FA and kurtosis parameters (MK, RK, and AK) for WM areas had a strong positive correlation (FA-MK, = 0.93; FA-RK, = 0.89) and a strong negative correlation (FA-AK, = 0.92). When comparing a TBSS connection, we found that this could be observed more clearly in MK than in RK and FA. WM analysis with DKI enable us to obtain more detailed information for connectivity between nerve structures. Quantitative indices of neurological diseases were determined using segmenting WM regions using voxel-based morphometry processing of DKI images.