We treated 133 traumatic posterior dislocations surgically between July 1994 and March 2001. In 16 patients, labral tears had occurred. Operating on posterior hip dislocations, initially we fixated the posterior wall with screws and/or buttress plate, depending on the size of the fragment, and did suture the torn labrum, relying rather on the buttress plate or intact posterior wall for stability. We began repairing the torn labrum when we realised that any small fragments still attached to the labrum simply pull out from under the buttress plate, allowing the hip to redislocate. Once the wall has been reconstructed, interrupted sutures are passed through the labrum, with the hip internally rotated to prevent shortening of the capsule when sutures are tied. A one-third tubular plate is placed over the sutures lying on the posterior wall and fixed with screws. The sutures are then tied individually over the plate. Postoperatively the patient is kept in bed for six weeks, with the hip abducted and knee extended. Seven patients in whom the labrum was not repaired experienced redislocation. We performed second operations on two of them, repositioning the plates and reconstructing the posterior wall, but redislocation again occurred. The redislocated femoral heads were damaged because they rubbed against the plate and screws. In the other nine patients, we sutured the labrum, and in a 3 month to 2.5 year follow-up, no redislocation has occurred. . Labral repair restores stability, and tying interrupted sutures over a buttress plate is an easy and effective method of repair

Introduction. Distal radius fractures are one of the most common injuries attended in hospitals. Throughout the years the treatment has change from simple cast to ORIF. Objectives. To compare the functional and radiographic results in the treatment of the distal intrarticular radial fractures treated by volar buttress plate (T plate AO® Synthes, Oberdorf, Suiza) and fixed volar angle locking plate (DVR® Depuy, Warsaw, Indiana, USA). Material and Methods. We performed a comparative retrospective study between two series of patients treated by fixed volar angle locking plate (40 patients) or volar buttress plate (36 patients). Distal radius fractures were classified by the AO/ASIF Müller classification after X-ray study in two views (Anteroposterios and lateral views), surgical treatment was indicated by the type of fracture (unstable fractures) and open fractures. Demographic information was gathered, injury mechanism and postoperatory complications. The minimal follow-up was 10 months. We performed clinical and radiographic evaluations before surgery, postoperatory, to 3 months and at the end of the follow-up (Palmar tilt, radial inclination, radial height and the radioulnar index were measured). Lidström's and Quick Dash scale, by means of telephonic survey, were used for the functional evaluation. Results. The time from fracture to surgery was on average 3.74 days in the group of DVR ® plates and 1.69 days for the group treated with T buttress plates. Henry's approach was realized in every case and the average time spent in surgery was 74 minutes for patients treated with T buttress plate and 80 minutes for patients treated with plate DVR®. In some cases K wires had to be used in 9 cases in the DVR® group and 7 in the other group. DVR® group obtained better results in radiological evaluation except in the radial inclination. In the Quick Dash scale, conducted a telephone survey, the average for the DVR® group was 26.40 (CI: 13.6 to 81.8) and 33.37 (CI: 10.2–90) for the group of T buttress plate (p=0.055). Conclusion. The potential advantages of ORIF in the distal radius fractures are low complication rate, stable subchondral fixation and early active movement of the wrist in the postoperative period. The disadvantages are a high cost, greater complexity and surgical exposure. Locking plates were designed to prevent postoperative collapse of the fracture also allows a better fix system in osteoporotic bone. Both types of plates obtained good results radiological and functional at the end of follow-up but we have obtained better results in the patients treated with locking plates

Aims. The optimal management of posterior malleolar ankle fractures, a prevalent type of ankle trauma, is essential for improved prognosis. However, there remains a debate over the most effective surgical approach, particularly between screw and plate fixation methods. This study aims to investigate the differences in outcomes associated with these fixation techniques. Methods. We conducted a comprehensive review of clinical trials comparing anteroposterior (A-P) screws, posteroanterior (P-A) screws, and plate fixation. Two investigators validated the data sourced from multiple databases (MEDLINE, EMBASE, and Web of Science). Following PRISMA guidelines, we carried out a network meta-analysis (NMA) using visual analogue scale and American Orthopaedic Foot and Ankle Score (AOFAS) as primary outcomes. Secondary outcomes included range of motion limitations, radiological outcomes, and complication rates. Results. The NMA encompassed 13 studies, consisting of four randomized trials and eight retrospective ones. According to the surface under the cumulative ranking curve-based ranking, the A-P screw was ranked highest for improvements in AOFAS and exhibited lowest in infection and peroneal nerve injury incidence. The P-A screws, on the other hand, excelled in terms of VAS score improvements. Conversely, posterior buttress plate fixation showed the least incidence of osteoarthritis grade progression, postoperative articular step-off ≥ 2 mm, nonunions, and loss of ankle dorsiflexion ≥ 5°, though it underperformed in most other clinical outcomes. Conclusion. The NMA suggests that open plating is more likely to provide better radiological outcomes, while screw fixation may have a greater potential for superior functional and pain results. Nevertheless, clinicians should still consider the fragment size and fracture pattern, weighing the advantages of rigid biomechanical fixation against the possibility of soft-tissue damage, to optimize treatment results. Cite this article: Bone Jt Open 2024;5(3):227–235

Aims. Posterior column plating through the single anterior approach reduces the morbidity in acetabular fractures that require stabilization of both the columns. The aim of this study is to assess the effectiveness of posterior column plating through the anterior intrapelvic approach (AIP) in the management of acetabular fractures. Methods. We retrospectively reviewed the data from R G Kar Medical College, Kolkata, India, from June 2018 to April 2023. Overall, there were 34 acetabulum fractures involving both columns managed by medial buttress plating of posterior column. The posterior column of the acetabular fracture was fixed through the AIP approach with buttress plate on medial surface of posterior column. Mean follow-up was 25 months (13 to 58). Accuracy of reduction and effectiveness of this technique were measured by assessing the Merle d’Aubigné score and Matta’s radiological grading at one year and at latest follow-up. Results. Immediate postoperative radiological Matta’s reduction accuracy showed anatomical reduction (0 to 1 mm) in 23 cases (67.6%), satisfactory (2 to 3 mm) in nine (26.4%), and unsatisfactory (> 3 mm) in two (6%). Merle d’Aubigné score at the end of one year was calculated to be excellent in 18 cases (52.9%), good in 11 (32.3%), fair in three (8.8%), and poor in two (5.9%). Matta’s radiological grading at the end of one year was calculated to be excellent in 16 cases (47%), good in nine (26.4%), six in fair (17.6%), and three in poor (8.8%). Merle d’Aubigné score at latest follow-up deteriorated by one point in some cases, but the grading remained the same; Matta’s radiological grading at latest follow-up also remained unchanged. Conclusion. Stabilization of posterior column through AIP by medial surface plate along the sciatic notch gives good stability to posterior column, and at the same time can avoid morbidity of the additional lateral window. Cite this article: Bone Jt Open 2024;5(2):147–153

Stable, anatomical fixation of acetabular fractures gives the best chance of a good outcome. We performed a biomechanical study to compare fracture stability and construct stiffness of three methods of fixation of posterior wall acetabular fractures. Two-dimensional motion analysis was used to measure fracture fragment displacement and the construct stiffness for each fixation method was calculated from the force / displacement data. Following 2 cyclic loading protocols of 6000 cycles, to a maximum 1.5kN, the mean fracture displacement was 0.154mm for the rim plate model, 0.326mm for the buttress plate and 0.254mm for the spring plate model. Mean maximum displacement was significantly less for the rim plate fixation than the buttress plate (p=0.015) and spring plate fixation (p=0.02). The rim plate was the stiffest construct 10962N/mm (SD 3351.8), followed by the spring plate model 5637N/mm (SD 832.6) and the buttress plate model 4882N/mm (SD 387.3). Where possible a rim plate with inter-fragmentary lag screws should be used for isolated posterior wall fracture fixation as this is the most stable and stiffest construct. However, when this method is not possible, spring plate fixation is a safe and superior alternative to a posterior buttress plate method

Abstract. Background. Since 2012 we have routinely used the cementless Oxford medial unicompartmental knee arthroplasty (mUKA), with microplasty instrumentation, in patients with anteromedial osteoarthritis (AMOA) meeting modern indications. We report the 10-year survival of 1000 mUKA with minimum 4-year follow-up. Methods. National Joint Registry (NJR) surgeon reports were interrogated for each senior author to identify the first 1,000 mUKAs performed for osteoarthritis. A minimum of 4 years follow-up was required. There was no loss to follow-up. The NJR status of each knee was established. For each mUKA revision the indication and mechanism of failure was determined using local patient records. The 10-year implant survival was calculated using life-table analysis. Results. The 1,000 mUKA cohort represented 55% of all primary knee replacements in the period, with an average age of 67.7 years and a 54%/46% male/female split. There were 17 revisions (11 for arthritis progression, 4 infections, 1 dislocation and 1 aseptic loosening). The 10-year survival was 98% (44 at risk in 10th year). One patient sustained a periprosthetic fracture at 3 weeks, treated with buttress plate fixation. Discussion. This is the first detailed series reporting the long-term outcome of the cementless Oxford mUKA implanted using microplasty instrumentation. There was a low failure rate, with only one revision for aseptic loosening. Lateral progression was the commonest cause for revision, with an incidence of 1%. This report provides evidence that the combination of evidence-based indications, well-designed instrumentation and cementless fixation can provide excellent long-term survival for the Oxford mUKA in treating AMOA

Introduction. Posterolateral tibial plateau fractures account for 7 % of all proximal tibial fractures. Their fixation often requires posterolateral buttress plating. Approaches for the posterolateral corner are not extensile beyond the perforation of the anterior tibial artery through the interosseous membrane. This study aims to provide accurate data about the inferior limit of dissection by providing measurements of the anterior tibial artery from the lateral joint line as it pierces the interosseous membrane. Materials and Methods. Forty unpaired adult lower limbs cadavers were used. The posterolateral approach to the proximal tibia was performed as described by Frosch et al. Perpendicular measurements were made from the posterior limit of the articular surface of the lateral tibial plateau and fibula head to the perforation of the anterior tibial artery through the interosseous membrane. Results. The anterior tibial artery coursed through the interosseous membrane at 46.3 +/− 9.0 mm (range 27–62 mm) distal to the lateral tibial plateau and 35.7 +/− 9.0 mm (range 17–50 mm) distal to the fibula head. There was no significant difference between right or left sided knees. Discussion. This cadaveric study demonstrates the safe zone (min 27 mm, mean 45mm) up to which distal exposure can be performed for fracture manipulation and safe application of a buttress plate for displaced posterorlateral tibial plateau fractures. Evidence demonstrates quality of reduction correlates with clinical outcome and the surgeon can expect to be able to use a small fragment buttress plate of up to 45mm as this is the mean

Purpose: The Less Invasive Stabilization System (LISS), Dynamic Condylar Screw (DCS) and Condylar Buttress Plate (CBP) are three common fixation methods for supracondylar femur fractures. The DCS and CBP are compression plates while the LISS uses locking screws to transfer load from bone to plate without compression. We developed a study to determine if the theoretical biomechanical advantages of the LISS would be evident in laboratory testing. Methods: Identical AO type C fractures were created in eighteen composite femurs and fixed with either LISS, CBP, or DCS (6 each). Roentgen Stereophotogrammetric Analysis (RSA) was used for analysis. Reference markers were implanted into each bone segment. Biplanar x-rays were taken to give a three-dimensional representation of the fracture. The femurs were loaded axially in an Instron 1350 and subjected to cyclic loading (50kg ± 25 for 50000 cycles). After loading, the bones were x-rayed to determine relative motion between fracture segments. To examine inducible displacement under static loading, the femurs were x-rayed in an unloaded and loaded (50 kg) condition. Again, RSA was used for analysis. Results: RSA-CMS software was used to analyze relative motion between the bone segments. After cyclic loading, the condylar buttress plate showed significantly more permanent deformation between the medial condyle and shaft of the femur than the DCS or LISS. Under static load, the LISS showed greater displacement than the other devices between the medial condyle and shaft, and between the lateral condyle and shaft. Conclusions: The LISS demonstrated less permanent deformation but greater inducible deformation between the medial femoral condyle and femoral shaft, compared to the DCS and CBP. The results were statistically significant. These results may have clinical implications regarding the choice of fixation devices for this difficult fracture pattern. Funding: Other Education Grant. Funding Parties: Capital Health Research Grant

Introduction. Posterior malleolar fractures are present in up to 44% of all ankle fractures. Those involving > 25% of the articular surface have a higher rate of posterior ankle instability which may predispose to post traumatic arthritis. The posterolateral approach to the distal tibia allows direct reduction and stabilization of the posterior malleolus and concomitant lateral malleolus fractures. An anatomical study was performed to establish the safe zone of proximal dissection to avoid injury to the peroneal vessels in this uncommon approach. Methods. 26 unpaired adult lower limbs were dissected using the posterolateral approach to the distal tibia as described by Tornetta et al. The peroneal artery was identified coursing through the intraosseous membrane on deep dissestion as the flexor hallucis longus muscle was reflected medially. The level of its bifurcation was also noted over the tibia. Perpendicular measurements were made from the tibial plafond to these variable anatomical locations. Results. The peroneal artery bifurcated at 83+/−21 mm (41–115mm) proximal to the tibial plafond and perforated through the interossoeus membrane 64+/−18 mm (47–96mm) proximal to the tibial plafond. Conclusion. The safe zone for the posterolateral approach to the distal tibia is described. Caution is advised as the bifurcation and perforating artery may be as little as 41mm from the tibial plafond. This is important during deep dissection when the belly of the flexor hallucis longus muscle is reflected medially from the medial edge of the fibula. Once the peroneal artery was mobilized a buttress plate could easily be placed beneath it

Purpose: To determine if union could be achieved in peri-plafond tibial fractures by using a fibular plate with the screws brought all the way across to the medial tibial cortex. Materials & Methods: Between September 1994 and March 2000, five patients were treated with this technique with autologous bone grafting with or without a tibial buttress plate. All of the fractures were within 2cm of the tibial plafond, thereby preventing adequate fixation with a tibial plate alone. The preoperative diagnoses included infected distal tibial nonunion (3 cases), a distal tibial nonunion (1 case), and distal tibial malunion (1 case). All had associated fibular involvement. The patients had undergone 12 prior operations. Their average age was 59 years. All patients healed without additional surgery and all were pleased with their procedure. Conclusion: The difficulty in obtaining fixation of a periplafond tibial nonunion with fibular involvement was solved using rigid internal fixation via a fibular plate with the screws brought entirely across the tibia. All five patients achieved osseous union and stability and functionally were able to walk with minimal or no discomfort and required no ambulatory aides

Aim: The results of operative treatment of acetabular fractures, as well as its role in the prevention of post-traumatic osteoarthritis are presented. Methods: From 1990 to 2000, þfty patients had an open reduction and internal þxation of an acetabular fracture. Thirty-two patients were male and eighteen were female, with an average age of 37,8 years (range: 18 to 71 years). The mechanism of injury was a motor vehicle accident in most cases (84%). 22 fractures were A-type, 24 B-type and 4 C-type according to the AO classiþcation, while according to the Letournel-Judet classiþcation 21 fractures were simple and 21 complex. Osteosynthesis was achieved with either lag screws alone or with a combination of lag screws and a buttress plate. Results: Follow-up ranged from 2–10 years (average: 5,8 years). Clinical evaluation according to the Dñ Aubigne-Postel scoring system gave 20 excellent (40%), 18 good (36%), 5 fair (10%) and 7 poor (14%) results. Early postoperative complications included 5 cases of common peroneal nerve palsy and 3 cases of wound infection. Late complications included 1 case of avascular necrosis of the femoral head, 12 cases of post-traumatic osteoarthritis (24%) and 5 cases of Brooker III heterotopic ossiþcation (10%). Conclusions: Operative treatment of ace-tabular fractures although demanding bears very good results. Post-traumatic arthritis remains a common complication, even if care is taken for the anatomic reduction of the fracture

These fractures are usually caused from high energy road accidents and sports injuries and are accompanied by meniscal and collateral ruptures. Aim the study is to present the surgical treatment of these fractures in relation to quality and technique of the reduction and the evaluation of results with base clinical and radiological criteria. From 1996 until 2001. 30 patients with mean of age 48.5 years mainly men, we have treated with tibial plateau fractures, that main cause had the road accident. According to the classification of AO, were predominate of type A and associated injuries had 12 patients. The diagnosis became with simple radiographs, tomographies and in 5 with computed tomography. All patients were operated on average 5 days after the injury and were used in 16 with lag screw {8 with subcutaneous technique } and in 14 with buttress plate and screws In the 1/3 of patients were used bone grafts and in 12 were observed rupture of lateral meniscus. They were re-examined 27/30 patients 1–7 years after the injury and the result it was satisfactory in 24/27. A radiologic control revealed arthritic changes in 17 patients and painful only 5 of them. while all patients had been operated with subcutaneous technique of lag screws had excellent result.. 23 came back in their work while serious instability of the Knee was not observed. As shown in the bibliography in this fractures the quality of reduction and atraumatic technique in combination with stable fixation and early range of motion they constitute strategical goals of treatment that it ensures a good result. The arthritic changes are asymptomatic when do not exist serious{ cruciate -meniscal damage -} instability of the Knee

In a prospective study, we reviewed 52 metaphyseal fractures of the proximal tibia treated by percutaneous plating between January 1996 and October 2000. Owing to the proximity of the fractures to the joint, intramedullary nailing was not suitable. The mean age of the patients, most of whom were men, was 41 years (16 to 82). Five fractures were open. There were 10 comminuted fractures extending into the diaphysis and five segmental fractures. The fractures were reduced and under the image intensifier percutaneously plated through a short approach proximal to the fracture. Fracture reduction was achieved either by manipulation and traction or by use of femoral distractor and reduction clamp. Synthes tibial head buttress plates and screws were used for stabilisation. On average, three proximal and distal screws were percutaneously inserted. Satisfactory fracture reduction was achieved in the anteroposterior plane in all fractures, but in the sagittal plane tilting of the proximal fragment was observed in five cases. There were no intra-operative neuro-vascular complications. Postoperatively the leg was immobilised in a brace for 6 to 12 weeks. At a mean of six to eight weeks, when radiological signs of healing were noted, weight-bearing was permitted. The mean time to union was 12 weeks (8 to 18). There were two cases of delayed union. No patient had functional restrictions, secondary displacement or failure of fixation. In four patients the proximal screws backed out, but this did not affect functional outcome. Late sepsis, which developed at the site of the distal screws in six patients, subsided after drainage of abscesses in two patients and removal of plate and screws in four. Percutaneous plating may be used to manage proximal tibial fractures unsuited to intramedullary nailing

A carbonated apatite cement with a high compressive strength was used in the treatment of tibial plateau fractures. There were 41 patients (20 male; 21 female; mean age 59 years). All patients had isolated tibial plateau fractures. There were 15 B2.2, 23 B3.1 and 3 B2.3 fractures. Fractures were fixed with limited internal fixation using a short anterior parapatellar incision. Reduction and fixation were initially achieved. Once this was carried out the void under the elevated plateau was filled using calcium phosphate cement. A buttress plate was used in one case, screws or K-wires in 33 cases and calcium phosphate cement alone in 7 cases. Patients were mobilised partially weight bearing in a hinged knee brace and allowed full weight bearing at 6 weeks. Reductions were anatomic (< 2mm displacement in 32 (78%) cases, satisfactory (3-5mm displacement) in 7 (17%) cases and imperfect (> 5mm) in 2 (5%) patients. Extrusion of some calcium phosphate cement into surrounding soft tissue occurred in one case. This material resorbed with no adverse effects. Loss of reduction was observed in 6 (15%) cases. There were no other significant complications. Thirty-seven patients (90%) had more than 120 degrees of knee flexion at 6 months. Calcium phosphate cement is an alternative to the use of bone grafting in any area of cancellous subject to compressive load. It is ideal for use in tibial plateau fractures with compressed subchondral bone after elevation. It obviates the need for buttress plating and bone grafting and there is no bone graft donor site morbidity. Patients are able to mobilise more rapidly and early discharge is facilitated. Calcium phosphate cement is a promising development in the management of tibial plateau fractures and initial results suggest it may be more effective in maintaining reduction that standard methods of fixation and grafting

OBJECTIVES: To review the short-term functional results of the surgical treatment of tibial plateau fractures using low profile peri-articular plates. METHODS: Forty-nine displaced fractures of the tibial plateau in forty-nine patients were treated with open reduction and buttress plate fixation using low profile plate between 2002–2006. All aspects of their care, including tibial plateau fracture type, operative management and associated injuries, were documented. Preoperative and postoperative follow-up radiographs were analyzed for fracture classification and adequacy of reduction. All patients were followed up with clinical assessment and given Iowa knee functional outcome questionnaires. Data were also collected regarding return to work and sporting activities. The average age of the patients was thirty-eight years and the mean follow-up was 25 months, with a range of 12 to 52 months.. Of the forty-nine fractures studied, twenty-six were classified as Schatzker types I, II, or III, and the remaining twenty-three were types IV, V, or VI. Forty-six patients had closed injury while three had open fractures. RESULTS: 48 of the fractures healed without additional surgical intervention or bone grafting except for one bicondylar fracture which needed amputation because of deep infection and soft tissue problem. Thirty eight patients had follow-up of greater than 1 year. The average time to radiographic callus was 6.2 weeks, and the average time to complete union was 16 weeks. The articular step-off average was 0.8 mm, with a range of 0 to 5 mm. The range of motion of the knee averaged 3° of extension to 120° flexion, which was an average of 87% of the total arc of the contralateral knee. The average Iowa Knee Score was 88 points (range, 72 to 100 points). The postoperative alignment demonstrated 1 patient with a malalignment of 4 degrees procurvatum and 1 patient with 3 degrees of valgus. There were two superficial wound infections and one case of deep infection. CONCLUSIONS: Open reduction and internal fixation is a satisfactory technique for the treatment of displaced fractures of the tibial plateau, particularly for patients younger than fifty years. The use of low profile tibial plates appears to stabilize complex fractures of the tibial plateau with a low incidence of complications. The low profile plate functioned well in maintaining alignment and obtaining union in these high-energy fractures

Introduction A review of the the treatment of supracondylar fractures of the distal femur is presented. Methods The material presented consists of a review of published literature and personal experience. Results The introduction of the Condylar Blade Plate by the AO in the 1960s revolutionized the treatment of this injury. Numerous publications over the last 30 years attest to the superiority of the modern AO methods. The Comprehensive Classification of the supracondylar fractures greatly helps surgeons in decision making. The mid-line medial parapatelar surgical approach is preferred to the classical lateral incision. A lateral parapatellar incision has been in use recently in conjunction with the LISS and CLCP. A detailed understanding of the surgical anatomy of the distal femur prevents technical misadventures in securing stable fixation. Atraumatic reduction techniques have been developed to prevent devitalization of intermediate fragments which permits bridge plating and obviates the need of bone grafting multifragmentary fractures. Previously, failure to bone graft multifragmentary fractures was the commonest cause of failure of fixation. Current fixation devices are the classic condylar plate, the dynamic condylar screw, the condylar buttress plate, and the retrograde supracondylar femoral nail and the most recently developed LISS and the condylar locked compression plate. The choice of implant depends on the specific fracture pattern and associated soft tissue injury, concomitant apendicular and system injuries, the patient’s age and the presence of osteoporosis. The open supracondylar fracture presents unique problems which require careful judgement and staging in reconstruction. Even if they become infected, with proper stabilization 80% will still achieve satisfactory results. The supracondylar fracture in the presence of a total knee replacement is an absolute indication to surgical stabilization. It and osteoporosis present specific challenges which require specialized techniques of fixation for successful resolution. Polytrauma with multisystem injuries and certain specific concomitant articular injuries such as patellar fractures or fractures of the tibial plateau prejudice the outcome of treatment. Conclusions With modern surgical treatment, young patients with isolated Type A, Type B and C1 or C2 fractures can expect a normal knee as the outcome of treatment. Type C3 fractures and open fractures continue to be a challenge and their outcome depends on the degree of initial articular cartilage destruction, the degree of bone fragmentation and displacement, and on the degree of soft tissue damage. Articular cartilage injury and severe osteoporosis continue to be the two most important unsolved problems in fracture surgery

Introduction A review of the the treatment of supracondylar fractures of the distal femur is presented. Methods The material presented consists of a review of published literature and personal experience. Results The introduction of the Condylar Blade Plate by the AO in the 1960s revolutionized the treatment of this injury. Numerous publications over the last 30 years attest to the superiority of the modern AO methods. The Comprehensive Classification of the supracondylar fractures greatly helps surgeons in decision making. The mid-line medial parapatelar surgical approach is preferred to the classical lateral incision. A lateral parapatellar incision has been in use recently in conjunction with the LISS and CLCP. A detailed understanding of the surgical anatomy of the distal femur prevents technical misadventures in securing stable fixation. Atraumatic reduction techniques have been developed to prevent devitalization of intermediate fragments which permits bridge plating and obviates the need of bone grafting multifragmentary fractures. Previously, failure to bone graft multifragmentary fractures was the commonest cause of failure of fixation. Current fixation devices are the classic condylar plate, the dynamic condylar screw, the condylar buttress plate, and the retrograde supracondylar femoral nail and the most recently developed LISS and the condylar locked compression plate. The choice of implant depends on the specific fracture pattern and associated soft tissue injury, concomitant apendicular and system injuries, the patient’s age and the presence of osteoporosis. The open supracondylar fracture presents unique problems which require careful judgement and staging in reconstruction. Even if they become infected, with proper stabilization 80% will still achieve satisfactory results. The supracondylar fracture in the presence of a total knee replacement is an absolute indication to surgical stabilization. It and osteoporosis present specific challenges which require specialized techniques of fixation for successful resolution. Polytrauma with multisystem injuries and certain specific concomitant articular injuries such as patellar fractures or fractures of the tibial plateau prejudice the outcome of treatment. Conclusions With modern surgical treatment, young patients with isolated Type A, Type B and C1 or C2 fractures can expect a normal knee as the outcome of treatment. Type C3 fractures and open fractures continue to be a challenge and their outcome depends on the degree of initial articular cartilage destruction, the degree of bone fragmentation and displacement, and on the degree of soft tissue damage. Articular cartilage injury and severe osteoporosis continue to be the two most important unsolved problems in fracture surgery

Background: Osteoporotic tibial fractures may be a challenge both in diagnosis and treatment. The aim of treatment is obtaining joint congruity and normal alignment, joint stability, adequate soft tissue healing and functional range of motion. The goal is prevention of degenerative osteoarthritis. In the majority of cases the treatment of tibial plateau fractures consists of open reduction and internal fixation. Objectives: The presentation of two aspects of the osteoporotic fracture – the insufficiency fracture and fixation of the fractures by a more appropriate method. Patients: We present our experience with 7 cases treated during the past 2 years. Two of these cases presented with no story of trauma, normal X-rays and were diagnosed clinically and on CT and bone scanning. The other 5 cases resulted of minor trauma and operative treatment was in order, using a modified fixation technique – a small fragment plate. Results: The patients suffering from fractures with normal X-rays suffered from insufficiency fractures and were treated conservatively. The patients suffering from depressed, split or comminuted fractures were treated by open reduction and internal fixation with a small fragment plate. Discussion and Conclusion: Insufficiency fractures often are misdiagnosed as exacerbation of chronic metabolic or inflammatory diseases and a fracture is not suspected until intense augmentation of radionuclide is seen on bone scan. Screening of patients presenting wit non-traumatic knee pain has shown a prevalence insufficiency fractures of the tibial plateau between 3 to 8% of the cases. These cases may be much more common than we commonly presume. The fractures in need of reduction and fixation of the plateau fracture involve raising the depressed articular fragment, the possible addition of bone graft augmentation and buttressing of the osteochondral fragment with a plate. These buttress plates may hold the cortical rim of the plateau but many times fail in maintaining the reduction of the intra-articular surface of the plateau. This again results in degenerative changes in the joint and pain. Internal fixation of these fractures with small fragment plates may be a solution to this problem, as demonstrated by the 5 presented cases treated operatively. The plates are smaller in size and are held by more screws, which are more proximal to the articular surface. This way they allow better control and maintenance of the anatomic reduction and in combination with an a-traumatic dissection and less stress shielding effect, result in a low rate of local complications

Objective: To evaluate the results of operative treatment of complex fractures of the acetabulum. Material and methods: For the period 1992 Ð 2001 þfty one patients with complex acetabular fractures were treated surgically and followed up for an average 4 years 3 months (range, 1 Ð 11 years). There were 34 males and 17 females of an average age of 39 years (range, 18 Ð 64 years). Thirty one of the patients sustained multiple trauma. The mean operation time was 9 days (range, 3 Ð 22 days). According to Judet-Letournel classiþcation there were 2 posterior clolumn/posterior wall fractures, 10 Ð transversal/posterior wall, 7 Ð T-type, 9 Ð T-type/posterior wall, 11 Ð anterior column/posterior hemitransversal and 12 Ð both column injuries. Posterior Koher-Langenbeck, ilioinguinal, extended iliofemoral or combined approaches were used depending of fracture pattern. Internal þxation was done with lag column screws, column shaped plates, brim plates or buttress plates. Spring plating with stright or T plates was widely used in cases of comminution. Ealy weight-protected motion was conducted after surgery. Results: Average operative time was 3.5 h (range 1.5 Ð 8 h), and average blood loss was 1200 ml (range 450 Ð 2300 ml). According to Mattañs criteria anatomical reduction was achieved in 23 cases, good Ð in 13, fair Ð in 11 and poor Ð in 4. Late outcome was evaluated according to Merl dñAubigne-Postel-Matta scale. Nineteen ecxellent, 16 good, 11 fair and 5 poor results were recorded. The last were due to arthritis, avascular necrosis or chondrolysis. The late results correlated strongly with quality of reduction and initial cartilage damage. Early complications were 1 case of operative bleeding, 1 intraarticular screw penetration, 5 jatrogenic nerve palsies (2 of femoral cutaneus nerve and 3 of peroneal nerve) and 1 superþcial inection. Late complications were 1 case of chondrolysis, 2 avascular necroses and 2 Grade III heterotopic ossiþcations. Conclusion: ORIF provides high prevalance of excellent and good results in complex acetabular fractures and should be considered as a method of choice. The quality of reduction is of most importance for þnal outcome. Initial cartilage condition, fracture type and degree of comminution should also be taken in mind for late prognosis. As the surgery is demanding perfect surgical skills, special experience and adequate equipment are required for þnal success

Aims

Surgical treatment of young femoral neck fractures often requires an open approach to achieve an anatomical reduction. The application of a calcar plate has recently been described to aid in femoral neck fracture reduction and to augment fixation. However, application of a plate may potentially compromise the regional vascularity of the femoral head and neck. The purpose of this study was to investigate the effect of calcar femoral neck plating on the vascularity of the femoral head and neck.