Diffusion tensor imaging (DTI) is a technique that can investigate white matter microstructure, while its inherent limitations are cerebrospinal fluid partial volume effect (PVECSF). Furthermore, white matter microstructure is often confused with the changes of PVECSF in age-related studies previously. 　　Here, tract-based automatic analysis (TBAA) was used to measure the diffusion indices and a novel correction method which regressed out PVECSF by estimating the linear relationship between diffusion indices and CSF probability was proposed. Moreover, demonstration was conducted to ensure the feasibility, and comparisons of the differences between uncorrected and corrected results were performed. 　　Through eliminating PVECSF, the characteristics of the trajectories on large healthy participants whose age distribute uniformly across lifespan clearly revealed the specific properties, rates of maturation and decline, and timing of development and degeneration for each tract group. In addition, statistical results suggested our novel correction method could be recommended for incisive studies. 　　The present study demonstrates the importance of correcting PVECSF and the ‘true’ normal patterns of age-related changes in tract-based white matter microstructure.