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BACKGROUND: Prior open reduction and internal fixation (ORIF) of tibial plateau fracture (TPF) adds complexity to subsequent total knee arthroplasty (TKA). The purpose of this study was to compare the outcomes of patients undergoing a TKA following prior ORIF of TPF to patients undergoing a primary TKA for osteoarthritis and an aseptic revision TKA. METHODS: There were 52 patients who underwent primary TKA following prior ORIF of TPF between January 2009 and June 2021, who were included and matched in a 1:4 ratio by sex, body mass index, and American Society of Anesthesiologists class to 208 patients undergoing primary TKA. A second 1:1 matched comparison to 52 aseptic revision TKA patients was also included. The Knee injury and Osteoarthritis Outcome Score for Joint Replacement scores were obtained preoperatively and at 2-years postoperatively. Independent t-tests and Chi-square tests were used for statistical comparisons. RESULTS: The TPF patients were significantly younger than both the primary and revision cohorts (55 ± 14.0 versus 63 ± 16.3 versus 64 ± 9.5, P < 0.001). Compared to primary TKA patients, the TPF group had worse KOOS JR scores at 2-years (46.9 ± 18.5 versus 66.2 ± 17.8, P = 0.0152), higher rates of wound complications (15.4 versus 3.9%, P = 0.0020), and increased operative times (140.2 ± 45.3 versus 95.2 ± 25.7, P < 0.0001). No significant differences in these metrics were seen between the TPF group and the revision group. Additionally, TPF patients were more likely to require a manipulation under anesthesia (MUA) than both primary and revision patients (21.2 versus 5.8 versus 5.8%, P = 0.001). CONCLUSION: The TKAs following ORIF of TPF are more like revision TKAs than primary TKAs in terms of patient-reported outcomes, operative times, and wound complications. The rate of MUA was higher than in both matched groups. These findings provide valuable information that can affect preoperative patient education and postoperative management regimens for these patients. They also emphasize the need for a conversion to TKA code due to the increased complexity and complications seen in this more difficult subset of TKAs.

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BACKGROUND: Anatomical reduction and stable fixation of complex tibial plateau fractures remain challenging in clinical practice. This study examines the efficacy of using 3D printing technology combined with customized plates for treating these fractures. METHODS: We retrospectively analyzed 22 patients treated with 3D printing and customized plates at the Orthopedic Department of the Central Hospital affiliated with Shenyang Medical College from September 2020 to January 2023. These patients were matched with 22 patients treated with traditional plates with similar baseline characteristics. Patients were divided into an experimental group (3D-printed models and customized plates) and a control group (traditional plates). The control group underwent traditional surgical methods, while the experimental group had a preoperative 3D model and customized plates for surgical planning. We compared baseline characteristics and recorded various indicators, including preoperative preparation time, surgical time, intraoperative blood loss, number of intraoperative fluoroscopies, hospital stay duration, fracture healing time, complications, knee joint range of motion (ROM), Rasmussen anatomical and functional scores, and HSS scores. RESULTS: All surgeries were successful with effective follow-up. The experimental group had shorter surgical time, less intraoperative blood loss, and fewer intraoperative fluoroscopies (P < 0.05). At 6 months and 1 year postoperatively, the experimental group had better knee joint HSS scores than the control group. Preoperative preparation time and total hospital stay were shorter in the control group (P < 0.05). There were no significant differences in fracture healing time and follow-up duration between groups. The experimental group showed better knee joint flexion angles (P < 0.05). Rasmussen scores showed no statistical difference between groups (P > 0.05). The incidence of complications was slightly lower in the experimental group but not significantly different. CONCLUSION: 3D printing technology combined with customized plates for complex tibial plateau fractures enables precise articular surface reduction, significantly shortens surgical time, and reduces intraoperative blood loss. This method improves knee joint function, offering a more effective treatment option.

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Posteromedial tibial plateau fracture is one of the most challenging traumatic fractures. We aimed to compare and explain the biomechanical advantages and disadvantages of different internal fixation methods for the treatment of the posteromedial split fracture fragment in tibial plateau fractures. Finite element models of the tibial plateau fracture were constructed. Three different internal fixations were developed to treat the posteromedial split fracture fragment in tibial plateau fractures finite element models: (a) the novel anatomic locking plate fixation model, (b) the common anatomic locking plate fixation model, and (c) the reconstruction plate fixation model. We applied the same loading conditions to each model: 320 N axial compression. Under the same condition, the von Mises stress (VMS) and displacement distribution of the three internal fixations and tibia plateau were studied. The stress values of the novel anatomic locking plate are lower than the common anatomic locking plate and the reconstruction plate. Additionally, the novel anatomic locking plate fixation system exhibits smaller maximum displacement. In conclusion, our study indicated that the novel anatomic locking plate resulted in a lower stress distribution in the plate and screws, and better stability than the common anatomic locking plate and the reconstruction plate for the posteromedial split fracture fragment in tibial plateau fractures fixation under the same loading conditions. Thus, for the posteromedial split fracture fragment in tibial plateau fractures, the use of the novel anatomic locking plate internal fixation is recommended.

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PURPOSE: The 5-item modified frailty index (mFI-5) has been established as a reliable indicator of poor postoperative outcomes following a variety of orthopaedic procedures. This study aims to determine whether the mFI-5 can be used by surgeons to predict the likelihood of postoperative complications in patients undergoing open reduction internal fixation (ORIF) for tibial plateau fractures. METHODS: From 2006 to 2019, patients aged 50 years or older undergoing ORIF for tibial plateau fracture were identified in the National Surgical Quality Improvement Program database. The mFI-5 was calculated based on the sum of the presence of 5 conditions: diabetes, congestive heart failure, hypertension, chronic obstructive pulmonary disease, and dependent functional status. Chi-squared tests and multivariable regression analysis were used to evaluate the association of different mFI-5 scores with postoperative complications. RESULTS: The study analyzed 2213 patients with an average age of 63 years. Multivariable regression analysis demonstrated that in comparison to patients with a mFI-5 score of 0, those with a score of 1 had an increased risk of prolonged hospital stay (OR 1.31) and discharge to a non-home location (OR 1.50) while those with a score of 2 or greater were at an increased risk of readmission (OR 2.30), wound complication (OR 5.37), pulmonary complication (OR 4.56), urinary tract infection (OR 4.79), prolonged hospital stay (OR 1.89), and discharge to a non-home location (OR 3.01). CONCLUSION: The mFI-5 is a reliable instrument for determining the likelihood of postoperative complications following ORIF for tibial plateau fracture repair. LEVEL OF EVIDENCE: III.

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INTRODUCTION AND IMPORTANCE: One percent of adult fractures are tibial plateau fractures, but can represent significant morbidity for patients. Achieving anatomic reduction of the articular surface, adequate alignment, stable fixation consistent with early mobilization, and minimal soft tissue injury are the key goals of treatment. Compared to open reduction and internal fixation, the decreased invasiveness of arthroscopy-assisted percutaneous fixation translates into decreased morbidity rates. CASE PRESENTATION: A 35-year-old woman lost control of motorcycle and landed on her left knee. Immediate pain in her left knee and was unable to ambulate or move her knee. Initial radiographs showed a depressed lateral tibial plateau fracture and from computed tomography (CT) scan showed a depressed posterolateral tibial plateau fracture with incongruence of his joint space. Classifying the injury as a Schatzker type 2 tibial plateau fracture She underwent an arthroscopic-assisted open reduction internal fixation of her lateral tibial plateau. CLINICAL DISCUSSION: Various surgical methods are available for treating tibial plateau fractures, including open, fluoroscopic-assisted, and arthroscopic approaches. Promptly addressing depressed articular surfaces is crucial to prevent rapid arthrosis progression. Arthroscopic-assisted procedures offer benefits like direct visualization of reduction, treatment of intra-articular issues, and faster patient recovery. Recent advancements in arthroscopic techniques enable precise reduction without fluoroscopy, reducing soft tissue damage and the risk of complications such as infection and cartilage damage. CONCLUSION: Arthroscopic-assisted surgery offers precise treatment for Schatzker type II tibial plateau fractures, representing a promising future direction in surgery.

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Purpose: To describe the anatomical and histological characteristics of the human MTL (meniscotibial ligament) that keeps the meniscus stable and are rarely discussed. Study design: Descriptive laboratory study. Methods: In total, six fresh-frozen adult cadaver knees were dissected, and the dissection protocol were designed by two experienced anatomy professors. The anatomical morphology of MTL was observed. The main anatomical specimens included meniscus, tibial plateau, MTL. The osteotome was used to excise the portion of the tibial plateau, which could obtain the complex including partial meniscus, MTL, and a tibial fragment. A histopathologic study was performed by two experienced pathologists. Results: Macroscopically, the MTL could be divided into two parts: medial meniscotibial ligament (MMTL)and lateral meniscotibial ligament (LMTL). The MMTL is distributed continuously, whereas the LMTL is discontinuous on the tibial plateau. The average length from the tibial attachment of the LMTL to the articular surface was 19 ± 1.0mm (mean ± SD). The average length from the tibial attachment of the MMTL to the articular surface was 10 ± 1.2 mm (mean ± SD). Microscopy of the MTL showed that the MTL is a ligamentous tissue, composed of a network of oriented collagenous fibers. Conclusions: In all knees, the MTL was inserted on the outer edge of the meniscus, attaching to the tibia below the level of articular cartilage, which was key to maintaining the rotational stability of knee and the meniscus in the physiological position on the tibial plateau. Histological analysis of this ligament demonstrated that the MTL is a veritable ligamentous structure, which is made up of collagen type I-expressing fibroblasts. Clinical relevance: This article contributes to the understanding of the anatomical and histological characteristics of the MTL. It is beneficial to promote the development of relevant surgical techniques for the MTL lesion.

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Introduction: Bicondylar fractures are relatively common, yet those involving an elevated lateral tibial condyle fragment pose a unique challenge due to their atypical presentation. Existing classification systems inadequately describe this elevation, leading to varied terminology like "flip lid" or "reverse-Schatzker type" fractures in the literature. Case Report: We present a case where the anterolateral osteochondral fragment was elevated and inverted, resulting from a rare mechanism where the left knee was crushed between two vehicles without axial force. This unusual mechanism spared typical signs of condylar widening or depression, with the fragment elevating but remaining submeniscal. This presented a challenge for fixation. The rotated fragment was accessed through an anterolateral approach with submeniscal arthrotomy, reduced, and fixed using raft screws of the lateral locking plate. The medial plateau fracture was stabilized through a posteromedial approach using an antiglide plate. Follow-up at 14 months showed satisfactory outcomes. Conclusion: Unique injury mechanisms can give rise to distinct fracture types. When X-rays depict an elevated rather than depressed articular surface, suspicion should arise for an elevated, "popped up," or flip lid type fragment. Such cases require a high index of suspicion and a thorough preoperative evaluation using both X-rays and CT scans. Submeniscal arthrotomy is essential to assess meniscus integrity and allow direct visualization of the fracture fragment. Successful outcomes in managing these fractures are based on accurate diagnosis, thorough preoperative planning, and adherence to internal fixation principles.

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Background: Restoring joint congruence and maintaining reduction until healing is imperative in treating tibial plateau fractures (TPF). The main objective of this study was to evaluate the feasibility of augmentation with impacted bone allograft (IBA) to prevent loss of reduction in tibial plateau fractures during healing and to evaluate its incorporation. Methods: We retrospectively analyzed all patients with an acute, closed tibial plateau fracture (Schatzker II, III, IV) treated between 2010 and 2019 with open reduction and internal fixation (ORIF) and impacted bone allograft (IBA), with a minimum follow-up of 24 months. We evaluated the postoperative radiographs by drawing a line along the tibial axis and another perpendicular to the healthy plateau to measure the reduction and subsequent behavior. The incorporation of the allograft was evaluated by radiological analysis assessing its integration, non-union, resorption, or sclerosis. We used the clinical-radiological Rasmussen system and the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) to objectify the outcomes. Results: 78 TPFs were included, with a median age of 51.5 (40.7-62.2) years and a median follow-up of 66 (24-89) months. Two (2.5 %) patients presented loss of joint reduction (subsidence) during the follow-up regarding the achieved in the surgery. Seventy-six (94.7 %) patients presented integration, two (2.5 %) resorption, and one (1.3 %) sclerosis. Seventy-two (92.3 %) patients presented excellent and good results in the Rasmussen radiological score, and 72 (92.3 %) patients presented excellent or good clinical scores. The mean WOMAC at two years postoperatively was 15 ± 6.5. Conclusion: Our results demonstrate that allograft is an adjuvant in maintaining a reduction in type II, III, and IV Schatzker's tibial plateau fractures. Low rates of loss of reduction during follow-up can be expected with its use.

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INTRODUCTION: Patients who sustain a tibial plateau fracture (TPF) have a higher risk of receiving total knee arthroplasty (TKA). Rarely, TKA is used as acute treatment for TPFs. This study aimed to compare both acute and delayed TKA following TPF with matched patients undergoing elective TKA for osteoarthritis. MATERIALS AND METHODS: A retrospective study was conducted including patients with either acute TKA as the primary treatment for TPF, or unplanned delayed TKA due to posttraumatic osteoarthritis. Both groups were matched to controls undergoing TKA for osteoarthritis. Questionnaires were completed cross-sectionally. Knee injury and Osteoarthritis Outcome Score - Physical Function Short Form (KOOS-PS), Oxford Knee Score (OKS), EQ-5D-5L, and complications were compared. RESULTS: Thirty-four TPF patients (12 acute TKA, 22 delayed TKA) were matched 1:1. Mean age was 67.2 ± 9.9 years, 82% was female, and mean follow-up was 5.0 ± 2.9 years. No differences were found for the acute group compared to their controls (median KOOS-PS 73.1 vs. 69.3, p = 0.977; median OKS 43 vs. 45, p = 0.246; median EQ-5D-5L 0.87 vs. 1.00, p = 0.078). In the delayed group, scores were inferior compared to their controls (median KOOS-PS 63.9 vs 78.0, p = 0.003; median OKS 39 vs 44, p = 0.001; median EQ-5D-5L 0.81 vs 0.87, p = 0.008). Complications showed no significant differences. CONCLUSION: Acute TKA for TPF shows no difference to a matched group of elective TKA, but delayed TKA following TPF yields worse results at mean 5-year follow-up. This suggests that TPFs in patients with a high risk of ultimately requiring TKA may benefit from primary treatment with TKA.

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BACKGROUND: Previous studies have shown the risk of post-traumatic osteoarthritis to be high following tibial plateau fracture surgery. Several investigations have examined the risk of total knee arthroplasty (TKA) following tibial plateau fracture treatment, but the risk of TKA in relation to the general population in Sweden has not previously been explored. AIM: To determine the incidence of TKA following surgical treatment of tibial plateau fractures and compare it with that of an age-matched population in Sweden. METHODS: A total of 349 tibial plateau fractures treated with open reduction internal fixation between 2002 and 2010 were identified from local hospital registers using diagnosis and surgical codes. The cohort was cross-matched with the Swedish Knee Arthroplasty Register to determine which patients had been treated with TKA within 10 years of fracture surgery. The incidence of primary TKA in the age-matched population in Sweden was obtained from the National Patient Register for comparison. RESULTS: Mortality-adjusted prevalence of TKA at 10 years following fracture surgery was 6.7% (relative risk (RR) = 5.5) and peaked during the second postoperative year (RR=19.3). High age was independently associated with increased risk of TKA (P=0.004); no other examined patient factors were significantly associated with TKA. CONCLUSION: The overall prevalence of TKA at 10 years following tibial plateau fracture surgery is low at 6.7%, however the risk is many times greater than that of the age-matched population in Sweden. The majority of patients require TKA within a few years of fracture treatment, hence post-traumatic osteoarthritis may arguably have not been the reason for TKA as this would have taken longer to develop.

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OBJECTIVE: In recent years, the trauma mechanisms and fracture types in tibial plateau fractures (TPF) have changed. At the same time, treatment strategies have expanded with the establishment of new classification systems, extension of diagnostics and surgical strategies. Evidence-based recommendations for treatment strategies are rare. The aim of this study is to assess the extent of standardization in the treatment of complex TPF. MATERIAL AND METHODS: For the study, specialists in trauma surgery/orthopaedics were presented thin-slice CT data sets of three complex TPFs including 3D reconstructions. A standardized questionnaire on fracture morphology and planned treatment strategy was then completed. RESULTS: A total of 23 surgeons from 7 hospitals (Trauma center levels I-III) were included. All three fractures were most frequently classified as Schatzker type V (fracture I: 52.2%, II: 56.5%, III: 60%). Averaged over all three fractures, 55% of the respondents chose the same patient positioning. The combination of a posteromedial and anterolateral approach was the most frequently chosen approach at 42.7%. Double plating was favored for the surgical treatment of all fractures (70.7%). Preoperative MRI, extended approaches and intraoperative fraturoscopy were significantly more common in level I trauma centres. CONCLUSION: There are major differences in the management of complex TPF. 360° treatment is carried out in all departments regardless of the level of care, but without further standardization in terms of preoperative imaging, classification, initial treatment, approach, fixation and intraoperative imaging. There are major differences within the departments with different level of care.

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BACKGROUND: Defining the injury-force mechanism in tibial plateau fractures (TPFs) could help define implant type and position, as well as soft tissues at risk. The aim of this study was to provide an analysis of injury-force-mechanisms in TPFs, including axial rotation. METHODS: The injury-force mechanism was determined for 203 fractures that presented over a period of 3.5 years. Fractures were classified as flexion-varus/valgus/neutral or (hyper)-extension-varus/valgus/neutral by observing articular depression area on CT/MRI. Fractures were subclassified into rotation-neutral, internal- or external-rotation according to the Gerdy-tibial-tuberosity-surgical-epicondylar-axis (GTT-SEA) angle. Soft-tissue injury was documented if MRI was performed. RESULTS: Flexion-valgus was the most common injury-force mechanism (n = 85, 41.9%), followed by extension-valgus (n = 57, 28.1%). Other mechanisms were less common (9.4% extension-varus, 5.9% flexion-neutral, 4.9% flexion-varus, 3.9% hyperextension-valgus, 3.4% extension-neutral and 2.5% hyperextension-varus). The GTT-SEA angle could be measured in 194 (95.6%) of 203 classified patients, revealing internal rotation in 83 (42.8%) and external rotation in 53 (27.3%). No significant difference was found between injury-force mechanism type and axial rotation group (P = 0.964) or extent of rotation (H(8) = 7.116, P = 0.524). Only 41 (21.1%) of 194 fully classified fractures underwent MRI, all revealing soft-tissue injury to some extent. High-grade posterolateral injuries occurred mainly in rotated TPF. CONCLUSION: Our results describe the common forms of axial rotation present in TPF and explore their association with injury-force mechanism and soft-tissue injury. Applying the injury-force mechanism patterns and addressing rotational forces could, together with preoperative MRI and intra-operative stability assessment, help determine the need to surgically address associated soft-tissue injury.

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Objective: Tibial plateau fractures are common intra-articular fractures that pose classification and treatment challenges for orthopedic surgeons. Objective: This study examines the value of 3D printing for classifying and planning surgery for complex tibial plateau fractures. Methods: We reviewed 54 complex tibial plateau fractures treated at our hospital from January 2017 to January 2019. Patients underwent preoperative spiral CT scans, with DICOM data processed using Mimics software. 3D printing technology created accurate 1:1 scale models of the fractures. These models helped subdivide the fractures into seven types based on the tibial plateau's geometric planes. Surgical approaches and simulated operations, including fracture reduction and plate placement, were planned using these models. Results: The 3D models accurately depicted the direction and extent of fracture displacement and plateau collapse. They facilitated the preoperative planning, allowing for precise reconstruction strategies and matching intraoperative details with the pre-printed models. Post-surgery, the anatomical structure of the tibial plateau was significantly improved in all 54 cases. Conclusion: 3D printing effectively aids in the classification and preoperative planning of complex tibial plateau fractures, enhancing surgical outcomes and anatomical restoration. Level of Evidence IV, Prospective Study.

Objetivo: As fraturas do planalto tibial são fraturas intra-articulares comuns de classificação e tratamento desafiadores aos cirurgiões ortopédicos. Objetivo: Este estudo investiga o uso de impressão 3D para classificar e planejar a cirurgia de fraturas complexas do planalto tibial. Métodos: 54 fraturas complexas do planalto tibial tratadas em nosso hospital de janeiro de 2017 a janeiro de 2019 foram revisadas. Os pacientes foram submetidos a tomografias computadorizadas em espiral pré-operatórias, com dados DICOM processados usando o software Mimics. A tecnologia de impressão 3D gerou modelos precisos em escala 1:1 das fraturas. Estes modelos ajudaram a subdividir as fraturas em sete tipos com base nos planos geométricos do planalto tibial. As abordagens cirúrgicas e as operações simuladas, incluindo a redução da fratura e a colocação de placa, foram planejadas utilizando estes modelos. Resultados: Os modelos 3D representaram com precisão a direção e a extensão da deslocação da fratura e do colapso do planalto. Os modelos facilitaram o planejamento pré-operatório, viabilizando estratégias de reconstrução precisas e a correspondência dos detalhes intraoperatórios com os modelos pré-impressos. Após a cirurgia, a estrutura anatômica do planalto tibial melhorou significativamente em todos os 54 casos. Conclusão: A impressão 3D ajuda na classificação e no planejamento pré-operatório de fraturas complexas do planalto tibial, melhorando os resultados cirúrgicos e a restauração anatômica. Nível de Evidência IV, Estudo Prospectivo.

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The selection of internal fixation as the primary fixation modality for the patient is one of the challenges for the surgeon treating the patient in question. A model of the lateral tibial plateau fracture was established. Three different configurations of internal fixators namely L bone plate, T bone plate, and screw-washer were analyzed. Three stages after surgery were simulated to assess the displacement of bone plates, screws, washers, and the stress shielding ratio in the fracture area.At three stages after surgery, the T bone plate showed better stability for patients during rehabilitation compared with the remaining two schemes, and the screw-washer scheme was the least stable due to the larger internal fixation displacement and stress shielding ratio in the fracture area. In contrast, the L bone plate scheme showed better stability in the early stages after surgery but was second only to the screw-washer scheme in the middle and late stages after surgery. The T bone plate showed better stability and became a new selection for surgeons to treat related patients. At three stages after surgery, the T bone plate has better biomechanical stability compared to the L bone plate and screw-washer schemes.

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BACKGROUND: Schatzker type II fractures usually need to be grafted. Autograft bone from the iliac crest represents the gold standard, but it comes with high rates of morbidity on the donor side. Sticky bone is one of the regenerative therapies that aims to find new solutions to treat bone defects and to overcome the limitation of conventional options regarding bone grafts, due to their content in growth factors, which offer osteo-induction and osteo-conduction properties. Notably, regenerative dentistry has been at the forefront of applying these products in bone regeneration, demonstrating that PRF produces a highly promising "sticky bone" when combined with bone chips. To the best of our knowledge, this grafting technique has not been used in the orthopedic field to date. METHODS: The subject was a 53-year-old woman with a Schatzker type II tibial plateau fracture, for which a new autologous bone grafting technique, i.e., sticky bone, was used for the treatment of the fracture. RESULTS: This case reports the effectiveness of sticky bone as autologous bone graft used in Shatzker type II tibial plateau fracture. As an indispensable component of regenerative medicine, it seems to be an ideal biologic graft with a fibrin-rich structure that provides effective treatment in impressed tibial plateau fractures. CONCLUSION: Sticky bone showed promising results and should be considered in the future as an appropriate bone implant.

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BACKGROUND CONTEXT: This study's purpose was to evaluate the biomechanical performance of plate-nail and dual-plate fixation for the treatment of AO/OTA 41-C2 tibial plateau fractures. METHODS: Twenty synthetic tibias were selected and randomly divided into a plate-nail group (n = 10) and a dual-plate group (n = 10). After the artificial tibias were osteotomized to simulate AO/OTA 41-C2 tibial plateau fractures in both groups, the plate-nail and the dual-plate methods, respectively, were used for fixation, and then axial compression loading, three-point bending, torsion, and axial failure tests were carried out. The data of each group were recorded and statistically analyzed. RESULTS: In the axial compression test, the average stiffness of the plate-nail group was higher than that of the dual-plate group (p < 0.05). The displacement generated in the plate-nail group was significantly smaller than that in the dual-plate group (p < 0.05). In the resisting varus test, the stress of the plate-nail group was significantly higher than that of the dual-plate group (p < 0.05). In the resisting valgus test, the stress of the plate-nail group was slightly higher than that of the dual-plate group, but the difference was not statistically significant (p > 0.05). In the static torsion test, the load applied to the plate-nail group was smaller than that of the dual-plate group when rotated to 5° (p < 0.05). In the axial compression failure test, the average ultimate load of the plate-nail group was significantly higher than that of the dual-plate group (p < 0.05). CONCLUSION: The treatment of AO/OTA 41-C2 tibial plateau fractures with plate-nail fixation is superior to that with dual-plate fixation in resisting axial stress and preventing tibial varus deformity, while dual-plate fixation has better resisting torsional ability.

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OBJECTIVE: Analyze the current evidence on the treatment and outcomes of hyperextension fractures of the tibial plateau and propose a treatment algorithm. METHODS: An electronic search at PubMed/MEDLINE, Cochrane Library, Embase, and Google Scholar database from December 24th, 2023 to June 26th, 2024 was carried out. The terms for the database search included "Hyperextension AND Tibial plateau fractures" and "Reversed Tibial Slope AND Tibial Plateau Fractures". The research inclusion criteria were scientific articles written in English that addressed hyperextension fractures of the tibial plateau. Studies that have not specifically addressed hyperextension fractures of the tibial plateau or published in a different language than English were excluded. Considering that hyperextension fractures of the tibial plateau are relatively rare and the literature is scarce, studies with all levels of evidence were included. Critical analysis of titles, abstracts, inclusion and exclusion criteria of all potentially eligible articles was performed. A treatment algorithm based on the literature and authors perspective was proposed. RESULTS: The search identified 34 potentially eligible studies. After application of inclusion and exclusion criteria, 22 articles were carefully analyzed in terms of the most relevant topics related to hyperextension fractures of the tibial plateau. An analysis of the risk of bias of the selected studies was performed according to the Cochrane Risk of Bias in Non-Randomized Studies of Interventions (ROBINS-I). CONCLUSION: There is no consensus regarding the gold standard treatment method for this challenging fracture pattern. The hyperextension mechanism is a predictor of worse functional outcome and life quality comparing to other types of tibial plateau fractures. STUDY DESIGN: Systematic review of the literature (Level of evidence:1).

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Background: The proximal tibial epiphyseal inclination can be used as a prognostic factor for good results after knee osteotomy and measured using the tibial bone varus angle (TBVA). This angle depends on the visibility of the epiphyseal plate, which has shown poor reproducibility when measured on standard radiographs by conventional methods. Purpose: To evaluate the measurement reliability of the TBVA and other angles based on the epiphyseal scar using a digital image display. Study Design: Cohort study (diagnosis); Level of evidence, 3. Methods: A total of 100 whole-leg radiographs were analyzed twice by 3 orthopaedic surgeons from 2 countries in a blinded and randomized manner. Observers measured the hip-knee-ankle angle, mechanical lateral distal femoral angle, medial proximal tibial angle, and TBVA. The growth plate-tibial plateau (GPTP) angle, defined as the angle between the epiphyseal scar and tibial plateau, was measured; this angle has not yet been described for osteotomy. In addition, a modified version of the TBVA (mTBVA), defined as that between the epiphyseal scar, its center, and the center of the talus, was measured. The Ahlbäck score for osteoarthritis and a 3-grade score for epiphyseal scar visibility were also determined. The reliability of the angle measurements and scoring was evaluated using the Fleiss kappa and intraclass correlation coefficient (ICC). Results: The scores for epiphyseal scar visibility showed fair interobserver (Fleiss kappa correlation coefficient [κ] = 0.29-0.35) and strong intraobserver (Fleiss κ = 0.62-0.69) reliability. TBVA, GPTP angle, and mTBVA measurements showed good interobserver reliability (ICC, 0.76-0.77), while the GPTP angle achieved excellent intraobserver reliability (ICC, >0.9). Conclusion: Using digital image display, angles that depend on the epiphyseal scar-such as TBVA, GPTP angle, and mTBVA-can achieve acceptable measurement reliability despite the low agreement on the visibility of the epiphyseal scar.

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The present study aimed to determine the optimal posterior tibial plateau inclination for fixed-platform unicondylar knee arthroplasty (UKA) using finite element analysis (FEA). These findings provided a theoretical basis for selecting an appropriate posterior inclination of the tibial plateau during surgery. The present study utilized the FEA method to create models of fixed-platform UKA with tibial plateau posterior inclinations of 3, 6 and 9˚. The stress changes in the internal structures of each model after knee flexion motion were then compared. During knee flexion from 0 to 90˚, the contact and Von Mises equivalent stresses of the femoral condyle prosthesis and tibial platform pad revealed consistent trends of 3˚ posterior inclination, >6˚ posterior inclination and >9˚ posterior inclination. The present study established the first quasi-dynamic fixed-platform UKA model of the knee joint under load-bearing conditions. From a theoretical perspective, it was found that controlling the posterior inclination of UKA between 6 and 9˚ may be more beneficial for the survival of the tibial platform pad than between 3 and 6˚. It is also more effective in reducing pad wear.