Scarf osteotomy improves hallux valgus and can be used for deformities with large intermetatarsal angles. It is designed to minimise shortening of the first ray. The aim of this radiographic analysis was to assess the outcome of patients undergoing Scarf osteotomy at the Royal Cornwall Hospital. The initial 18 consecutive cases performed by the senior author were analysed using the guidelines recommended by the American Foot and Ankle Society. Standardised anterior-posterior radiographs of the foot were compared pre-operatively and at 6 weeks postoperatively. Measurements of the intermetatarsal angle (IMA), hallux valgus angle (HVA), joint congruency angle (JCA), distal metatarsal articular angle (DMAA), sesamoid position and metatarsal length were used to assess any improvement. The results showed a significant median reduction of the IMA of 70, HVA of 180, JCA of 50, and the DMAA of 30 (all p values <
0.001). The medial sesamoid position in relation to the first metatarsal also improved from a mean value of 2.28 to 1 using the American Foot and Ankle Society grading system. There was no shortening of metatarsal length as measured using the Hardy and Clapham method. This study shows that the radiographic outcome of Scarf osteotomy at the Royal Cornwall Hospital compares favourably with that found in the literature. It provides effective correction of moderate to large intermetatarsal angles.
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
We occasionally come across cortical atrophy of the femur with cemented collarless polished triple-taper stem, a short time after the operation. This study aimed to estimate the radiographs of cemented collarless polished triple-taper stem taken at three, six, twelve, and twenty-four months after the initial operation. Between May 2009 and April 2011, 97 consecutive patients underwent primary total hip arthroplasty and hemiarthroplasty using a SC-stem or C-stem implant. During the 24 month follow-up, radiographic examination was performed on a total of 95 patients (98 hips). Out of those 95 patients, 52 hips had total hip arthroplasty, 45 had osteoarthritis, 5 had idiopathic osteonecrosis, there were two 2 other cases and 46 hips had hemiarthroplasty for femoral neck fractures. The cementing grade was estimated on the postoperative radiographs. The 24 month postoperative radiographs were analyzed for changes in stem subsidence, cortical atrophy and cortical hypertrophy. According to the Gruen zone, cortical atrophy and cortical hypertrophy were classified on the femoral side. We defined no cortical atrophy as grade 0, cortical atrophy less than 1 mm as grade 1, more than 1 mm and less than 2 mm as grade 2, and more than 2 mm as grade 3. We defined Grade 1 as 1 point, Grade 2 as 2 points, and Grade 3 as 3 points. The points in every zone were calculated, and the average per zone was determined.Background
Methods
In total knee arthroplasty extramedullary tibial guides could not to be as accurate as requested in obtaining proper alignment perpendicular to the mechanical axis. The aim of this study was to determine the accuracy of an accelerometer-based system (KneeAlign 2; OrthAlign Inc, Aliso Viejo, California) as evaluated by post-op X-rays analysis. Between March 2012 and May 2012 thirty consecutive patients with primary gonarthrosis were selected for unilateral total knee arthroplasty (TKA) using a handheld surgical navigation system to perform the tibial resection.
Postoperatively, standing anteroposterior hip-to-ankle radiographs and lateral knee-to-ankle radiographs were performed to determine the varus/valgus alignment and the posterior slope of the tibial components relative to the mechanical axis in both the coronal and sagittal planes. The difference between the intraoperative reading of the tibial varus/valgus alignment and posterior slope provided by the system was compared to the radiographic measurements obtained postoperatively for each respective case. Differences were analysed via standard t test. The critical level of significance was set at P <0.05.Introduction
Methods
Avascular necrosis of the femoral head (AVN) is associated with collapse of the femoral head and arthritic degeneration of the joint. The combination of an implant inserted into the femoral head that provides mechanical support and bone grafting to promote bone formation may offer a possible joint-preserving solution1. Seventeen such procedures were performed between November 2012 and March 2014 during an IRB approved clinical trial. Thirteen out of 18 patients remained unrevised at a minimum of 12 months; the results of radiographic and histological analysis of four revisions are presented. The investigational device (Figure 1) was developed as a joint preserving treatment for AVN with a clinical grade of IIC or less according to the ARCO grading system2. The device consisted of a braided spherical Nitinol cage with a Titanium / Nitinol orientation feature. It was implanted using fluoroscopic navigation into a spherical cavity cut into the femoral head via an 11mm diameter access tunnel. Once deployed, the implant was filled with a lightly impacted mixture of autologous bone graft and bone marrow soaked Conduit TCP (DePuy CMW, Blackpool, UK). The implant's purpose was to provide mechanical support to the weakened subchondral surface while the bone graft mixture re-integrated with the host bone. The retrieved femoral heads were trimmed to leave approximately 3mm of bone around the implant, dehydrated, embedded in methacrylate resin, sectioned and thinned into 50–70µm coronal slices for histological analysis. The following observations were made (Figure 2): Case 1 (Female, age 70, ARCO IIB, revised after 2 days): The patient was revised for spontaneous sub-trochanteric fracture secondary to osteoporosis. Contact between the native bone and bone graft was observed. Marrow elements and repair tissue were visible within the pores in the graft (Figure 2a). Case 2 (Male, age 67, ARCO IIIC, revised after 82 days): Two wires were broken but retained within the braided structure. A radiolucent gap caused by the presence of fibrous tissue between the graft mixture and native bone was evident suggesting that the implant was unable to prevent progression in this case. Case 3 (Female, age 70, ARCO IIC, revised after 482 days): The cavity penetrated the subchondral surface; at revision the implant was found to have breached the articular cartilage. There was partial separation of the proximal osteonecrotic fragment and no evidence of graft revascularisation or remodelling within the implant. Case 4 (Male, age 42, ARCO IIC, revised after 469 days): There was no indication of bone graft re-integration. Collapse of the necrotic bone and deformation of the implant was diagnosed from 1 year follow-up x-rays. This treatment has preserved the joints of fourteen patients. Of the four revised, two patients had clinical grades or bone quality contra-indicated for the device and three had lesions occupying more than 30% of the femoral head: Improved criteria for patient selection may be required. The device is only partially load-bearing and incapable of stabilising fractures: The radiolucent band associated with fibrous tissue formation may be an early indication of failure.Conclusion
The thickness of the cement mantle surrounding total hip replacements has been used to predict the incidence of aseptic loosening. However little work has been done regarding the significance of the cement mantle distal to the tip of the femoral prosthesis. Results are reported of a radiographic audit study analyzing the thickness of the distal cement column in primary total hip replacement. In this study the thickness of cement distal to the tip of the femoral prosthesis was measured from 80 post-op AP radiographs taken over a period of 5 months using both the PACS system and plain film x-rays. The mean thickness was 2cm (max 8cm) (min −1.8cm) with a std dev of 1.7cm. This study demonstrated the wide variation in the thickness of the distal cement column achieved by surgeons. It also highlighted the fact that while 2–5mm is the generally accepted optimal cement mantle surrounding the femoral prosthesis, there is little guidance from the literature with regards the optimal thickness of the cement mantle distal to the tip of the femoral prosthesis. Further work requires to be undertaken to determine the optimal thickness of cement in this area, as well as changes in local surgical practice to ensure the optimal thickness of cement distally is consistently achieved. A re-audit of this work after alterations of surgical technique is desirable.
We occasionally came across cortical atrophy of femurs with cemented collarless polished triple-taper stem in a short term period. This study aimed to estimate radiographs of cemented collarless polished triple-taper stem taken 6 months after the initial operation. Between May 2009 and April 2011, 97 consecutive patients underwent primary total hip arthroplasty and hemiarthroplasty using SC-stem or C-stem implants. At the 6 month follow-up, a radiographic examination was performed on 70 patients (71 hips). 44 hips had Total Hip Arthoplasty, 35 had osteoarthritis, 5 had idiopathic osteonecrosis, 2 had other diseases and 27 hips had hemiarthroplasty for femoral neck fractures. The postoperative radiographs were used to estimate the cementing grade. Then the 6 month postoperative radiographs were analyzed for changes in stem subsidence, cortical atrophy and cortical hypertrophy. According to the system of Gruen- cortical atrophy and cortical hypertrophy were classified on the femoral side. We defined no cortical atrophy as grade 0, cortical atrophy less than 1 mm as grade 1, more than 1 mm and less than 2 mm as grade 2, more than 2 mm as grade 3.Background
Methods
Cement leakage –cement was seen to have escaped past the cement restrictor Restrictor dislocation – the restrictor was 4 or more centimetres distal to the stem tip Restrictor penetration –the tip of the femoral stem was resting on the restrictor All cement mantles were given a barrack grading.
Acetabular bone loss during revision total hip arthroplasty (THA) poses a challenge for reconstruction as segmental and extensive cavitary defects require structural support to achieve prosthesis stability. Trabecular metal (TM) acetabular augments structurally support hemispherical cups. Positive short-term results have been encouraging, but mid- to long-term results are largely unknown. The purpose of this study was to determine the continued efficacy of TM augments in THA revisions with significant pelvic bone loss. Radiographs and medical records of 51 patients who had undergone THA revision with the use of a TM augment were retrospectively reviewed. Acetabular defects were graded according to the Paprosky classification of acetabular deficiencies based on preoperative radiographs and operative findings. Loosening was defined radiographically as a gross change in cup position, change in the abduction angle (>5°), or change in the vertical position of the acetabular component (>8 mm) between initial postoperative and most recent follow-up radiographs (Figure 1).Purpose:
Methods:
We analyzed the radiographic results of patients treated surgically for flatfoot deformity and who underwent medial cuneiform opening wedge osteotomy as part of the operative procedure. The aim of this study was to confirm the utility of the cuneiform osteotomy as part of the correction of hindfoot and ankle deformity. All patients requiring operative management of flatfoot deformity between January 2002 and December 2007 were prospectively entered in a database. We selected all patients who underwent medial cuneiform opening wedge osteotomy. We measured standardized and validated radiographic parameters on pre and post-operative weight bearing radiographs of the foot. All radiographs were assessed using the digital imaging software package (Siemens). The following measurements were used: lateral talus-1st metatarsal angle; medial cuneiform to floor distance (mm), talar declination angle, calcaneal-talar angle, calcaneal pitch angle, 1st metatarsal declination angle, talonavicular coverage angle, and anteroposterior talus-1st metatarsal angle. Other variables including concomitant surgical procedures, healing of the osteotomy, malunion, and adjacent joint arthritis were also noted. There were 86 patients with a mean age of 36 years (range 9–80). 15 patients had bilateral surgery. The aetiology of the deformity was flexible flat-foot in 48, rupture of the posterior tibial tendon in 41, rigid flatfoot deformity with a fixed forefoot supination deformity in 7, and fixed forefoot varus with metatarsus elevatus in 5. In addition to an opening wedge medial cuneiform osteotomy, a lateral column lengthening calcaneus osteotomy was performed in 80, a gastrocnemius recession in 76, a supramalleolar osteotomy in 2, a triple arthrodesis in 4, a subtalar arthroerisis in 13, excision of an accessory navicular in 6, a tendon transfer in 15 and medial-slide calcaneal osteotomy in 8 patients. The mean lateral talus-1st metatarsal angle improved from 23° to 1°; the mean medial cuneiform to floor distance improved from 20mm to 34mm; the mean talar declination angle improved from 39° to 27°; the mean calcaneal-talar angle improved from 64° to 55°; the calcaneal pitch angle improved from 14° to 23°; the mean 1st metatarsal declination angle improved from 17° to 26°; the mean talonavicular coverage angle improved from 45° to 18°; and the mean anteroposterior talus-1st metatarsal angle improved from 19° to 0° Radiographical analysis confirms that the medial cuneiform opening wedge osteotomy is a reliable and valuable surgical tool in the correction of the forefoot which is associated with flatfoot deformity and that arthrodesis of the 1st metatarsocuneiform joint may not be required to obtain correction of the elevated 1st metatarsal.
The ABG stem (Anatomique Benoist Girard, How-medica) was realized of titanium alloy (TA6V) and it was designed to provide anchoring only at the femour’s metaphyseal portion. The long-term stability is achived by osteointegration of the implant at the metaphyseal region, which is coated with hydroxyapatite (HA) crystals. The plasma-sprayed HA coating has a tickness of 60 μm for the stem. The current study presents radiographic outcomes of more than one hundred primary uncemented HA stems with a long-term follow-up. One hundred and eleven ABG hip arthroplasties were evaluated with a mean follow-up of 9.8 years. The radiographical findings have been classified observing Engh’s stability criteria according to Gruen’s subdivision of the periprosthetic femoral zones. Dividing the hips into two different groups (in the first one the prosthesis implanted 11, 12 or 13 years ago and in the second one the prosthesis with a maximum age of 10 years) it’s possible to see as in the first group the radiolucent lines are quite reduced. Among the older prosthesis the percentage of radiolucent lines is 3.1% in zones 3 and 5 and 18.8% in zone 4. For what concerns the younger ones the percentage are 10.1% (zone 3), 21.5% (zone 4) and 15.2% (zone 5). We believe that there is a load transfer from the metaphyseal to the metadiaphyseal portion of the femur without a worsening of the clinical outcomes. The absence of reactive lines and lucencies around the proximal HA-coated portion of the stem supports an excellent circumferential bony ingrowth in the metaphyseal area of the proximal femur. According to these percentages we can say that there’s less presence of radiolucency in the oldest prosthesis and it could be possible to argue that radiolucent lines tend to reduce along the time. This is probably due to the increase of the strength of the stem anchorage.
The advantages of the direct anterior approach (DAA) for total hip arthroplasty include the preservation of external rotators and hip abductors thus leading to quicker recovery times. To our knowledge, there is no objective method in the literature to predict the level of difficulty for femoral exposure through the DAA. It would be beneficial to the surgeon learning the DAA to assess difficulty pre-operatively to avoid prolonged operative times. The purpose of this study was to develop a predictive model of femoral exposure difficulty in the DAA using a combination of demographic data and radiographic measurements. 305 post-operative radiographs of consecutive THA's in patients (184 female, 120 male) with primary or secondary osteoarthritis, mean age 64.6 (range 26–91, SD=11.43) performed through the DAA by one of the co-investigators from 12/2005 to 12/2009 were retrospectively reviewed by two separate observers. The observers were blinded to the difficulty level of femoral exposure. Standard post-operative AP pelvis films were assessed with TraumaCad software (TraumaCad 2.2, Voyant Health, Columbia, MD) to make radiographic measurements as shown in Figure 1–2. Each radiograph was calibrated using the size of the femoral head implant. Exclusion criteria included films that had inadequate coverage of the entire pelvis, mal-rotation, or poor exposure. Statistical analysis was performed using STAT 9.1 (StatCorp; College Station, Texas, USA). A two-sided Kruskal–Wallis test was utilized for non-parametric data. Chi-squared tests and Fisher's Exact Test were used to compare proportions. Statistically significant associations were then added to a multivariate model predicting an outcome of difficult exposure.Introduction
Methods
Degenerate chondral surfaces can be assessed in many ways, but arthroscopy is often performed without proper categorisation, mapping, zoning or sizing of lesions. Progression of disease in un-resurfaced compartments is well-recognised to occur, but is only one of several failure mechanism in partial knee replacement. A validated ‘Functional Zone’ mapping method was used to document articular surface damage in 250 sequential cases of knee arthroscopy in patients over the age of 40. Size, shape, location and severity of each chondral lesion were noted using the Outerbridge classification. Analysis determined rates of involvement of particular compartments and assessed potential for partial replacement or local treatment and also to consider the risk of future progression. Radiographs including antero-posterior standing, postero-anterior flexion views (Rosenberg), lateral and skyline views were graded (Kellgren and Lawrence) and compared with the arthroscopic findings. Our results showed that out of the 210 knees with Grade 3 or greater damage 13.3% of knees showed ‘isolated’ medial disease of Outerbridge Grade 3 or worse. Isolated lateral disease was noted in 1.4%, patello-femoral disease in 24.3%, bi-compartmental (Medial/PFJ) disease in 30.9% with tibio-femoral and tri-compartmental disease seen in 15.2%. The combination of lateral and patello-femoral disease was seen in 14.8%. Provided that Grade 1 and 2 changes (which were found in other compartments in high percentages) were ignored and ACL status considered, this information seemed to indicate that at the time these procedures were performed, 13.3% of cases were suitable for a medial uni-compartmental device, with sub-analysis of lesion sizes indicating that 17 out of 28 cases (60.7%) were suitable for a localised resurfacing. Lateral uni-compartmental replacement seemed suitable for only 1.4%, patello-femoral replacement in 24.3%, bi-compartmental in 30.9% and total knee replacement in 30%. The mean age for partial resurfacing was 53years and 59 years for total joint replacements. Radiological analysis found that the antero-posterior standing views had only 66% sensitivity and 73% specificity for the presence of Grade 3 changes or worse in the medial compartment in comparison with Rosenberg views having a sensitivity of 73% and a specificity of 83%. Skyline views had a sensitivity of 56% and 100% specificity. This study indicates that a large proportion of cases may be suited to local and limited resurfacing. Cases suitable for Patello-femoral and Bi-compartmental replacements were very common, but with the patella-femoral joint's tendency to be more forgiving in terms of symptoms, meaning that indications for uni-compartmental replacement might well be much higher than the arthroscopic findings suggested. On the other hand, the presence of high levels of Grade 1 and 2 changes in other compartments seems to indicate a need for caution particularly in younger patients. This study also indicates a need for better methods of assessing local cartilage health such as enhanced MRI scanning or spectroscopy.