Osteoarthritic knees is because the joint surface cartilage is destroyed, cause enough lubrication, and the bones rub against each other so that patients feel pain when walking. The treatment of osteoarthritis of the knee cartilage methods for total knee replacement surgery, the surgical procedure must be anterior cruciate ligament resection. However, in the case of the absence of the anterior cruciate ligament in knee, passive stability will be affected in knee. Want to understand the affect, we must think of a way to measure forces situation of residual ligaments in knee. The measurement method is divided into invasive measurement method and the non-invasive measurement. These two measurement techniques have their advantages and disadvantages, but in this era of widespread use of computers, finite element analysis method is burgeoning. The laboratory using validated finite element analysis process used in vivo experiment. Experiments using computer tomography and magnetic resonance imaging scanreconstruction knee model. Joint knee stability (KT-2000) obtain the ligament material properties. Dynamic X-ray images and computer models image registration obtain kinematics information in function of motion. Subjects are normal people and total knee replacement patients. Using laboratory finite element analysis process to analysis subjects in sit-to-stand. Through normal and total knee replacement patients anterior cruciate ligament differences to explore in the absence of the anterior cruciate ligament situation. Discuss the affects of total knee replacement patients that change insert thickness. Sensitivity tests to investigate the factors which will affect the results of finite element analysis. Through laxity test results, and then use the definition of stability in this study to explore the range of laxity in sit-to-stand, and with the results of the motion analysis to investigate ligaments and muscles how to resist external forces in instant of sit-to-stand. The laboratory will be used in finite element analysis process in vivo experiments, really reproduce ligaments forces of normal and total knee replacement patients during sit-to-stand. Sensitivity test results showed that the finite element in setting the boundary conditions, the need to pay more attention to the displacement in the vertical axis and coronal axis displacement. Laxity test results showed that total knee replacement patients lack the anterior cruciate ligament , the range of laxity more than mean of normal. Total knee replacement patients more unstable than normal in instant of sit-to-stand. Key Words: Finite element analysis, Sit to stand, Total knee replacement surgery, The in vivo measurement, Osteoarthritis, Sensitivity test, laxity test, range of laxity