In a „true“ valgus knee the lateral femoral condyle is smaller in both the vertical and anteroposterior dimensions and lateral soft tissue structures are contracted. In a „false“ valgus knee there is no mismatch between anteroposterior dimensions of both condyles. The aim of the study was to preoperatively analyse patterns of passive movement of valgus knees with imageless navigation system to optimise surgical approach during subsequent total knee replacement (TKR). TKR were prospectively performed in 50 valgus knees. After the data registration process, the kinematic analysis was performed by passive movement of the knee. The mechanical axis was recorded at 0°, 30°, 60°, 90°, and 120° of flexion. The valgus deformity persistent through the whole range of motion was called „true“ and the valgus deformity passing into varus with flexion was called „false“. The pre-operative valgus deformity in extension ranged from 13° to 4° (mean 7.8°). We observed „true“ valgus type deformity during passive range of movement in 34 cases (68%) and „false“ type of kinematics in 16 cases (32%). The average value of valgus deviation in extension in „true“ group was 7.9° (range 13° to 4°) and in „false“ group 7.5° (range 9° to 6°). The mean difference between axis deviation in 0° to 120° range of flexion was 5.5° (range 10° to 1°) in the „true“ valgus group. In the „false“ valgus group the varus deviation was observed in 90° of flexion in all cases and mean difference between axis deviation in 0° to 120° range of flexion was 12.0° (range 14° to 10°). Computer navigation can easily help to identify the character of valgus deformity („true“ or „false“) just before skin incision. In „true“ valgus deviation lateral approach may be necessary for appropriate soft tissue balancing during TKR surgery.
Valgus knee deformity is associated especially with differences in anatomy between medial and lateral femoral condyles. Vertically smaller lateral condyle and more distally located medial condyle cause valgus deformity in extension. The anteroposterior dimensions of both condyles influence the knee axis in flexion. In a „true“ valgus knee there is a mismatch between both condyles in both the vertical and anteroposterior dimensions, the lateral condyle is generally smaller. In a „false“ valgus knee there is no mismatch between anteroposterior dimensions of both condyles, the knee axis changes from valgus into varus with increased degree of flexion and lateral soft tissue structures are that's why not so contracted as in „true“ valgus knee deformity, where the knee stays in valgus deviation during the whole range of motion. The aim of the study was to preoperatively identify and analyse patterns of passive movement of osteoarthritic valgus knees with imageless navigation system to optimise surgical approach and intra-operative tissue handling during subsequent total knee replacement (TKR) surgery. TKR were prospectively performed in 50 valgus knees. Cases with severe bony destruction and enormous soft tissue laxity were excluded from the study. The kinematic navigation system used was OrthoPilot® (Aesculap, Tuttlingen, Germany). It is designed to produce a numerical output of varus/valgus deviation of the knee against the degree of flexion. Before skin incision for TKR surgery, active markers were attached percutaneusly to the femur and the tibia with bicortical screws to create two ‘rigid bodies’. After the registration process the kinematic analysis was performed by passive movement of the knee. The mechanical axis was recorded at 0°, 30°, 60°, 90°, and 120° of flexion. The valgus deformity persistent through the whole range of motion was called „true“ and the valgus deformity passing into varus with flexion was called „false“. In „true“ valgus knees the lateral approach according to Keblish was used, in „false“ valgus knees we used standard medial parapatellar approach.Introduction
Material and Methods
Posterolateral fusion (PLF) is a commonly accepted surgical procedure and overall the most common technique performed to obtain fusion in the lumbar spine. Harvesting autologous bone from the iliac crest is associated with increased operation time, blood loss, and chronic donor site pain. Allograft material has an insufficient osteoinductive potential. Bone marrow concentrate (BMC) could be an option how to promote allograft PLF healing. The purpose of the presented study was to investigate the validity of BMC addition to allografts in instrumented lumbar PLF surgery. The study was prospective, randomised, controlled and blinded. Eighty patients with degenerative disease of the lumbar spine underwent instrumented (S4, Aesculap, Tuttlingen, Germany) lumbar or lumbosacral PLF. In forty cases, the PLF was done with spongious allograft chips alone (Group I). In another forty cases, spongious allograft chips were mixed with BMC (Group II), where the mesenchymal stem cell (MSCs) concentration was 1.74 × 104/L at average (range, 1.06–1.98 × 104/L). Patients were scheduled for anteroposterior and lateral radiographs at 12 and 24 months after the surgery and for CT scanning at 24 months after the surgery. Fusion status and the degree of mineralization of the fusion mass were evaluated separately by two radiologists blinded to patient group affiliation.Background
Methods
The average distance from the point of interconnection on the FHL to its insertion was 13,8 cm (9,8 cm–19,4 cm), from the end of muscle origin 17,9 cm (15,7 cm–19,6 cm). The approximate distances after the conversion to the foot length were 0,70 times foot length and 0,55 times foot length.
The tibial tunnel was in the navigated and also in the controll group localised in the ideal position in zone B in 37 cases (92,5 %). The mean additinal operation time caused by Ortho-Pilot navigation was 11 minutes. No complications were observed in both groups. There was no difference in Lysholm score between both groups. The dispersion of the stability values was greater in the controll group.
The outcomes of the Berman-Gartland osteotomy in 26 feet (20 children) from 1995 to 1999 were evaluated. Average age at time of operation: 8 years, 3 months (range 37 to 194 months). Average age at follow-up: 2 years, 5 months (range 2 to 70 months). The osteotomy is performed in tourniquet from three lengthwise incisions and fixed by Kirschner wires and plaster of Paris for six weeks. Only patients with idiopathic PEC were included in this study. Average age at time of primary operation was ten months. For analysis, the type and percentage of preceding operations were: pantalar release (40%), posterior release (12%), and tendo calcaneus elongation (8%). Eight feet (30%) were not primarily surgically treated. Indicated for metatarsal osteotomy were: footwear difficulty (92%), gait instability (65%), and muscle spasm (56%). Average adduction deformity of the forefoot was clinically assessed as 30 degrees (20 to 45 degrees). Forefoot rigidity was evaluated according to Black as grade II (14 feet) and grade III (12 feet). Radiograph assessment was made by the use of T-I.MTT and C-V.MTT angle changes in the dorsoplantar weight-bearing view. We succeeded in correcting the average values of T-I.MTT angle from 28 degrees (range 20 to 43 degrees) preoperatively to 4 degrees (range 2 to 15 degrees) postoperatively, and C-V.MTT angle from 16 degrees (range 8 to 24 degrees) to 2 degrees (range -5 to 7 degrees). Isolated metatarsal varus deformity was found in 12 feet, in combination with talo-navicalar joint hypercorrection in nine feet, and in combination with residual talo-navicular joint subluxation in five feet. Calcaneocuboid joint displacement was classified as grade I and II in 16 and 3 feet respectively. Preoperative residual displacement was not found in seven feet. Complications were noted in three metatarsal nonunions (2% of 130 osteotomized metatarses), four pin migrations, one superficial infection, and one persistent forefoot swelling. At final follow-up, clinical findings and outcomes were assessed as excellent in 16 feet (62%) and good in 10 feet (38%). We recorded no inferior result. An apparent relationship was not found between the type and timing of preceding operations and varus forefoot deformity persistence. In 19 feet (73%), residual grade I and grade II tibial subluxation of the cuboid bone was found.
The authors reviewed a group of 24 patients (26 hips) who had been managed with open reduction through an anterolateral approach from 1981 to 1985. Eight patients with an inadequate clinical (6) or roentgenographic (2) follow-up were excluded from the study. The purpose was to evaluate 18-year results of nine hips operated in pre-walking age up to 12 months and nine hips operated later. All patients were operated by the senior doctor. The goals of management are concentric reduction and its maintenance in order to provide the optimum environment for development of the hip joint. The average age of the children at the time of operation was seven months (range 3–10 months) in the first group and 32 months (range 15–60 months) in the second group. Open reduction was performed if a stable reduction could not be achieved with traction as demonstrated with arthrography. Evaluation of the first group: marginal dislocation was found in one hip (11.1%) and in the rest of cases the head was highly dislocated. A simultaneous derotational femoral osteotomy was added in the course of four reductions (44.4%) and in three of these cases a subsequent Salter osteotomy was performed. Five hips (55.6%) were reduced without additional femoral osteotomy and in three of these cases, a subsequent combination of Salter and derotational varisation osteotomy was performed. Average age at the time of the subsequent operation was 31 months (range 19–44 months). In the second group, only high dislocations were found and each procedure was accompanied with simultaneous and subsequent interventions. At the final follow-up of the first group, the clinical findings were evaluated as Severin class A in eight hips (88.9%) and class B in one hip (11.1%). Three hips (33.3%) were Severin roentgenographic class I, and six hips (66.7%) were class II. Six hips (66.7%) showed avascular necrosis classified as Ogden-Bucholz Type I (3) and Type II (3). No significant degenerative changes were found. In the second group, the results were worse – two patients had already had THAs implanted. The results are excellent or good in children operated in the pre-walking age. The results in patients operated later are worse. We consider this method to be useful for the treatment of congenital dislocation of the hip.