Objective To study the influence from load strength on solute transport rate in lacunar-canalicular system (LCS) of loaded tibia using finite element method.Methods Based on micro-CT scan images of adult mice tibia, the finite element model of the tibia, which was regarded as being homogeneous biphasic-solute, was established by software of Mimics, Hypermesh and FEBio. The relationship between transport rate and solute diffusivity/load strength was obtained by setting 3 groups of different solute diffusivity (3, 15, 30 μm2/s) and load strength (0.2, 2.0, 5.0 N), respectively. By comparing the results from both fluorescence recovery after photobleaching (FRAP) experiment and finite element method, the effect of load stimulation on transport enhancement was analyzed. Results The transport rate increased with the increase of diffusion rate and load strength. The results from finite element method were basically consistent with the solute transport rules by comparing data from FRAP experiment. Conclusions The research findings can provide some basis for load response and liquidity in deep area of cortical bone, and for further revealing the mechanism of bone regeneration.