Finite element modeling of proximal femur with quantifiable weight-bearing area in standing position

Abstract: Background The positional distribution and size of the weight-bearing area of femoral head in the standing position as well as the direct active surface of joint force can directly affect the result of finite element (FE) stress analysis.However,the division of this area was vague, imprecise and un-individualized in most studies related separate FE models of femur. The purpose of this study was to quantify the positional distribution and size of the weight-bearing area of femoral head in standing position by … Show more

“…The load was applied in a distributed manner on the femoral contact area in order to simulate the actual behavior of the joint. The contact area was set as the contact surface of the acetabular cartilage (weight-bearing area: the angle between the front and back directions of the femoral head surface and the center of the femoral head was 80 °, and the angle between the inside and outside directions of the surface of the femoral head and the center of femoral head was 40 ° [34]). The distal end of the femur was constrained.…”

Impact of Femoral Neck Cortical Bone Defect Induced by Core Decompression on Postoperative Stability: A Finite Element Analysis

“…The load was applied in a distributed manner on the femoral contact area in order to simulate the actual behavior of the joint. The contact area was set as the contact surface of the acetabular cartilage (weight-bearing area: the angle between the front and back directions of the femoral head surface and the center of the femoral head was 80 °, and the angle between the inside and outside directions of the surface of the femoral head and the center of femoral head was 40 ° [34]). The distal end of the femur was constrained.…”

Impact of Femoral Neck Cortical Bone Defect Induced by Core Decompression on Postoperative Stability: A Finite Element Analysis