In the theory of neutrino oscillations, matter effect in two-flavor neutrino situation has been solved exactly. The mixing angle can be redefined and oscillation probability can be calculated by exact formulas. However, there are three flavor neutrinos in Standard Model. Under this circumstance, we can no longer write down elegant formulas to redefine three mixing angles or calculate oscillation probabilities for matter effect solutions. Lorentz symmetry, a fundamental symmetry in particle physics and general theory of relativity, could be broken at or below the Plank scale as predicted by some string models. This Lorentz violation phenomenon would contribute some Lorentz violation parameters to the Hamiltonian of neutrino oscillations. Neutrino oscillation is regarded as a powerful tool to probe the Lorentz violation. To understand how matter effect and Lorentz violation parameters affect the eigenvalues, mixing matrix and oscillation probabilities, we develop a new approximation method to calculate these terms when we consider matter effect and Lorentz violation. Through this new expansion, we find that adding matter effect and Lorentz violation effect would make a change on all three mixing angles at low energy scale. While in the case of ultra-high-energy limit and dominance, the second order approximation of probabilities we obtaining is the same as the equations calculated by solution formulas that are more tedious and time consuming.