Femur is one of the bones in humans that exhibit ethnic, racial, and gender difference. Several basic and clinical studies were conducted to explore these variations. Clinical anthropological studies have dealt with the compatibility of femoral prostheses and osteosythesis and materials with the femur. If there is a misalignment between the Total Knee Arthroplasy (TKA) femoral comportment installation position, Range of Motion (ROM) failure and several problems may arise. The aim of this study was to evaluate anterior bowing of the Japanese femur and to assess the adequacy of TKA femoral comportment installation position. We analyzed 76 normal Japanese and 97 TKA patients. (June 2014-June 2015) The average age of the normal subjects was 62.0±20.90 (24–88) years old and the average of TKA subjects was 73.6±7.9 (53–89) years old. First we defined and measured the anterior curvature and the posterior condylar offset (PCO) in normal japanese femurs. Then in TKA patients we set the implant as same angle of the component. Third, we measured the post operative anterior curvature and PCO. Then calculated the anterior curvature difference and PCO differences and preformed statistical analysis with ROM.INTRODUCTION
METHODS
Recently, total knee arthroplasty (TKA) has been generalized as an operation that achieves excellent clinical results. However, younger and Asian patients require even greater implant longevity and functional performance. We hypothesized a novel posterior cruciate-retaining TKA design that restores the anatomical jointline in both sagittal and coronal planes, maintains the femoral posterior condylar offset, and provides low contact stress would provide enhanced patient function with the potential for greater implant longevity. The novel TKA design was created based on geometry determined from anatomic specimens, 3-degree step of femorotibial jointline was incorporated in the TKA design for Asian. The novel TKA has an asymmetrical design between the medial and lateral femoral condyle, the medial femoral condyle designed to be 3 degrees larger than the lateral femoral condyle. It refined using finite element analyses (FEA) to minimize peak contact stresses. The alignment evaluation after TKA was performed using using bidirectional CR and CT images. Femorotibial-angle (FTA), the position of the femoral component relative to the 3D mechanical axis, and the rotational alignment of the femoral component relative to the PC line were evaluated before and after TKA to identify changes in the femoral condylar shape. The kinematic evaluation after TKA was performed using a 3D-to-2D model registration technique. Single-plane fluoroscopic imaging was used to record and quantify the motions of knees during a stair-step activity. The contact points between the tibiofemoral motions and the tibial rotational angle were evaluated.Aims
Methods
Medial pivot total knee arthroplasty is designed to permit posterior rolling and sliding of the lateral femoral condyle around a stable medial femoral condyle. The purpose of the current study was to analyze the weight-bearing kinematics of medial pivot TKA’s with three different treatments of the posterior cruciate ligament: PCL resected, PCL partially released and PCL retained, to determine if the PCL status had a significant effect on tibiofemoral translations or rotations in a medial pivot TKA design. In vivo kinematics were determined for 17 clinically successful total knee arthroplasties during a stair-climbing activity using lateral fluoroscopy and shape matching techniques. All three groups showed similar medial pivot motions. PCL retained knees showed significantly greater tibial internal rotation than PCL resected knees for flexion of 30° and greater. Rotation of the PCL released knees was midway between PCL resected and PCL retained knees Regardless of PCL treatment, patients with medial pivot total knee arthroplasties had medial pivot motion patterns during stair climbing activities. This study showed a clear and intuitive trend in motions with PCL-treatment, such that knees with partially released PCL’s had kinematics midway between those where the PCL was either fully maintained or fully resected.
The role of the posterior cruciate ligament (PCL) after total knee arthroplasty has been controversial. Previous studies have reported that function of the preserved PCL after TKA was questionable and that it was difficult to determine the appropriate PCL tension to reproduce rollback. However, several in vivo studies have reported that prosthesis geometry directly affects knee kinematics, making it difficult to determine which factors most influence knee kinematics. The purpose of this two-center, two surgeons study was to evaluate knee kinematics of a single design of CR TKA. A total of 23 TKAs were studied fluoroscopically during a single-limb step-up/down maneuver. The average patient age at the time of TKA, knee score (HSS/KSS) and ROM were 70.6 years, 91.1 points and 116.9 degrees respectively. All patients had a PCL-retaining prosthesis of the same design using an unconstrained “flat” tibial insert. TKAs were performed by one surgeon at each hospital (Group 1:13 knees, Group 2: 10 knees). Both groups of knees exhibited ‘screw-home’ type axial rotations from 20° of flexion to full extension. In Group 1, rollback occurred early in the flexion range and was maintained until 80° of flexion. In Group 2, the lateral condyle exhibited rollback in early flexion, but both condyles translated forward as flexion increased to 80°. Medial and lateral contact were more posterior in Group 1 over most of the range of motion (p<
0.05). Although femoral rollback has been infrequently observed in similar studies of PCL retaining arthroplasties, our two-center, two surgeon data suggest that rollback can be achieved using this unconstrained prosthesis with PCL retention. However, there were consistent and statistically significant differences in the knee kinematics exhibited by the two groups of patients.
