Аннотация:We assess the influence of the parameters of the mathematical model on the results of calculating the stress-strain state of a dental implant and the surrounding bone tissue and identify the optimal indicators for the calculations.Materials and methods: Modelling of stress-strain states was performed by solving boundary-value problems of linear elasticity (for isotropic material models) using finite element analysis (FEA). An integrated 3D model was created in ANSYS 19.5We found 0.01 to be the optimal ratio of size of the finite element for the contact surfaces of interacting bodies to the length of the implant. The interaction of the osseo-integrated dental implant with the bone should be simulated with a conformal connection and the immediately installed and loaded implant should be simulated with a contact connection.In conclusion, when considering linear elastic isotropic bone models, the lower the Young modulus of the cortical layer, the lower the equivalent stress: when the Young’s modulus is reduced by half, the equivalent von Mises stress is reduced by about 20%.