The dental implant is widely used to recover the function of the teeth. However, the surgery failure rate is influenced by the recover conditions. If the dental implant is loose rather than fixed, the likelihood of surgery failure might raise. The primary stability is one of the reasons for the surgery failure. If the recovery situation of the early-stage is poor, it may lead the worse bone in-growth ratio and osseointegration. Also, the fibrous-cartilage layer may grow between the implant and bone which can also cause the loose of dental implants. The mechano-regulation model is considered in the current study. The stimuli of the model are solid phase and fluid phase. The cell type is regulated by different criteria. Based on the porous material properties of the bone, the poroelastic material is used in 2D axisymmetric geometry. We used these model and geometry to simulate the bone healing in the beagle dogs. The time-course of cell diffusion is set the same time as the experimental data in the literature. In the simulation result, we can get similar features compared with experimental results. For example, a wavy layer of fibrous tissue forms in the beginning of the simulation. Then, the cell is getting mature gradually. On the 21th day, the bone resorption occurs between the implant thread having good agreement with the experimental results. After the success of 2D numerical model, we modified the algorithm and developed the 3D numerical model in order to simulate the bone healing around dental implants with more complicated geometry. Two additive-manufactured dental implants with the different porous style are studied in the current study. Then, we used our numerical model to study the bone healing around these two implants and compare with the results obtained from the animal tests. Our three dimensional numerical model is also verified and prove that the implant has greater size of porous giving better healing pattern and shorter healing time. The cell- differentiation method can accurately predict bone healing around the dental implant and provide design guideline for implant.