Objective To investigate the effectiveness of the reverse traction device in the preoperative treatment of high-energy tibial plateau fractures. Methods A retrospective study was conducted to analyze the clinical data of 33 patients with high-energy tibial plateau fractures who met the selection criteria between December 2020 and December 2023. All patients were treated by open reduction and internal fixation. According to the preoperative traction method, they were divided into the observation group (16 cases, treated with a reverse traction device on the day of admission) and the control group (17 cases, treated with heel traction on the day of admission). There was no significant difference in baseline data such as gender, age, body mass index, affected side, cause of injury, fracture Schatzker classification between the two groups (P>0.05). Preoperative waiting time, preoperative related complications (nail channel loosening, nail channel oozing, nail channel infection, soft tissue necrosis, soft tissue infection, deep vein thrombosis of the lower extremity, etc.), operation time, and total hospitalization time were recorded and compared between the two groups. On the 4th day after traction, visual analogue scale (VAS) score was used to evaluate the pain relief of the patients, the swelling value of the affected limb was measured, and the Immobilization Comfort Questionnaire (ICQ) score was used to evaluate the perioperative hospital comfort of the patients. Results Both groups of patients completed the operation successfully, and the operation time, total hospitalization time, and preoperative waiting time of the observation group were significantly less than those of the control group (P<0.05). There was no preoperative related complications in the observation group; in the control group, 3 patients had nail channel loosening and oozing, and 2 cases had the deep vein thrombosis of the lower extremity; the difference in the incidence of complication between the two groups was significant (P<0.05). On the 4th day after traction, the ICQ score, VAS score, and limb swelling value of the observation group were significantly better than those of the control group (P<0.05). X-ray films showed that the tibial plateau fracture separation and lower limb alignment recovered after calcaneal traction in the control group, but not as obvious as in the observation group. The fracture gap in the observation group significantly reduced, the tibial plateau alignment was good, and the lateral angulation deformity was corrected. Conclusion The use of reverse traction treatment in patients with high-energy tibial plateau fractures on admission can accelerate the swelling around the soft tissues to subside, reduce patients’ pain, shorten the preoperative waiting time, improve the patients’ preoperative quality of life, and contribute to the shortening of the operation time, with a good effectiveness.
ObjectiveTo evaluate the effectiveness and safty of posterior popliteal fossa S-shaped incision with double-window approach for the treatment of posterior column of tibial plateau fractures.MethodsA retrospective analysis was made on the clinical data of 13 patients with complex tibial plateau fractures involving both posteromedial and posterolateral columns between May 2015 and July 2017. There were 9 males and 4 females, aged 33-64 years (mean, 46.5 years). The causes of injury included traffic accident in 5 cases, falling from height in 2 cases, falling from electric bicycle in 4 cases, and falling because of skiing in 2 cases. The preoperative range of motion of the affected knees was (35.1±9.2)°. The time from injury to surgery was 7-19 days (mean, 13.3 days). All patients underwent a posterior popliteal fossa S-shaped incision through the window of medial heads of gastrocnemius muscle (medial window) and the window between medial and lateral head of gastrocnemius muscle (popliteal fossa window) approaches. After a good visual control of fracture reduction, both posteromedial and posterolateral columns of tibial plateau fractures were fixed with buttress plate respectively. Bone union, limb alignment, articular surface, and range of motion were estimated after operation. The American Hospital for Special Surgery (HSS) score was used to evaluate functional outcomes of knees.ResultsAfter operation, 1 patient had fat liquefaction and dehiscence of incision, which healed after expanding the wound; the other patients’ incisions healed by first intention, and no vascular or nerve injury occurred during operation. All the 13 patients were followed up 12-18 months (mean, 16 months). The X-ray films showed that all patients obtained good fracture unions, the fracture healing time was 14-22 weeks (mean, 18 weeks). At 12 months after operation, the articular surface was smooth without collapse, and the knee range of motion was (109.5±13.6)°, showing significant difference when compared with preoperative value (t=18.879, P=0.000). No complication of infection, re-displacement of fracture, or secondary varus/valgus deformity was observed during follow-up. The HSS score was 82-96 (mean, 89.6) at 12 months after operation, with the result of excellent in 10 cases and good in 3 cases.ConclusionThe posterior column fracture of tibial plateau involving both posteromedial and posterolateral columns treated by double-window approach through posterior popliteal fossa S-shaped incision is safe and effective, with satisfactory results and good recovery of knee joint function.
ObjectiveTo introduce the surgery method to reset and fix tibial plateau fracture without opening joint capsule, and evaluate the safety and effectiveness of this method. MethodsBetween July 2011 and July 2013, 51 patients with tibial plateau fracture accorded with the inclusion criteria were included. All of 51 patients, 17 cases underwent open reduction and internal fixation without opening joint capsule in trial group, and 34 cases underwent traditional surgery method in control group. There was no significant difference in gender, age, cause of injury, time from injury to admission, side of injury, and types of fracture between 2 groups (P>0.05). The operation time, intraoperative blood loss, incision length, incision heal ing, and fracture healing were compared between 2 groups. The tibial-femoral angle and collapse of joint surface were measured on X-ray film. At last follow-up, joint function was evaluated with Hospital for Special Surgery (HSS) knee function scale. ResultsThe intraoperative blood loss in trial group was significantly less than that in control group (P<0.05). The incision length in trial group was significantly shorter than that in control group (P<0.05). Difference was not significant in operation time and the rate of incision heal ing between 2 groups (P>0.05). The patients were followed up 12-30 months (mean, 20.4 months) in trial group and 12-31 months (mean, 18.2 months) in control group. X-ray films indicated that all cases in 2 groups obtained fracture heal ing; there was no significant difference in the fracture healing time between 2 groups (t=1.382, P=0.173). On X-ray films, difference was not significant in tibial-femoral angle and collapse of joint surface between 2 groups (P>0.05). HSS score of the knee in trial group was significantly higher than that of control group (t=3.161, P=0.003). ConclusionIt can reduce the intraoperative blood loss and shorten the incision length to use open reduction and internal fixation without opening joint capsule for tibial plateau fracture. Traction of joint capsule is helpful in the reduction and good recovery of joint surface collapse. In addition, the surgery without opening joint capsule can avoid joint stiffness and obtain better joint function.
Objective To investigate the biomechanics of a novel injectable calcium phosphate cement (CPC) composited by poly (lactic-co-glycolic acid) (PLGA) combined with double-screw fixation in repairing Schatzker II type tibial plateau fracture, so as to provide the mechanical basis for the clinical minimally invasive treatment. Methods Ten matched pairs of proximal tibia specimens were harvested from 10 elderly cadavers to prepare Schatzker II type tibial plateau fracture model. Fracture was fixed by forcing injection of CPC (experimental group) or autologous cancellous bone (control group) combined with double-screw fixation. The samples underwent axial compression on MTS 858 material testing machine to measure the load-displacement, the maximum load, and compressive stiffness. Results The novel CPC had good injectable property at room temperature, which could fill in bone defect fully and permeated into the surrounding cancellous bone. The average bone mineral density of tibial metaphysis was (0.639 ± 0.081) g/cm2 in the experimental group and (0.668 ± 0.083) g/ cm2 in the control group, showing no significant difference (t=1.012, P=0.331). The maximum load in the experimental group [(4 101 ± 813) N] was significantly higher than that in the control group [(692 ± 138) N] (t=3.932, P=0.001). The compressive stiffness was (1 363 ± 362) N/mm in the experimental group and was (223 ± 54) N/mm in the control group, showing significant difference (t=3.023, P=0.013). Conclusion The novel CPC can effectively restore the biomechanical properties of tibilal plateau in repairing Schatzker II type tibial plateau fracture by means of forcing injection combining with double-screw fixation. It could be used as an effective bone substitute in the clinical application.
ObjectiveTo explore the effectiveness of posteromedial and anterolateral approaches in the treatment of posterolateral tibial plateau collapsed and splited fractures. MethodsNineteen consecutive patients with posterolateral tibial plateau collapsed and splited fractures were treated between August 2010 and August 2013, and the clinical data were retrospectively analyzed. There were 13 males and 6 females, with an average age of 36.9 years (range, 25-75 years). All cases had closed fractures, involving 8 left sides and 11 right sides. Fractures involved posterior column according to the threecolumn classification based on CT scans; according to the Schatzker classification, all fractures were type Ⅱ; according to the AO/Association for the Study of Internal Fixation classification (AO/OTA), all fractures were type 41-B3.1.2. The interval between injury and operation was 7-14 days (mean, 9 days). The reduction of collapsed fractures and implantation of artificial bone allograft were supported by T-shaped distal radius plate via the posteromedial approach. The splited fractures was fixed by less invasive stabilization system (LISS) plate via the anterolateral approach. ResultsThe mean operation time was 69.0 minutes (range, 50-105 minutes). All incisions healed by first intention without neurovascular complications or wound infection. All patients were followed up 14-20 months (mean, 18.2 months). X-ray and CT examinations showed that collapsed tibial plateau and joint surface were completely corrected; bony union was obtained at 12 weeks on average (range, 10-16 weeks). No secondary collapsed fracture and knee varus or valgus occurred. The results were excellent in 12 cases, good in 5 cases, and fair in 2 cases with an excellent and good rate of 89.5% according to the Rasmussen's scoring system for knee function. ConclusionThe posteromedial approach combined with anterolateral approach for posterolateral tibial plateau fractures can fully expose the posterolateral aspects of the tibial plateau, and thus collapsed and splited fractures can be treated at the same time, which will lead to less operative time and good outcomes in the treatment of posterolateral tibial plateau collapsed and splited fractures.
Objective To investigate the effectiveness of osteotomy of non-core weight-bearing area of the lateral tibial plateau, reduction, and internal fixation in the treatment of tibial plateau fractures involving posterolateral column collapse. Methods A clinical data of 23 patients with tibial plateau fractures involving posterolateral column collapse, who had undergone osteotomy of non-core weight-bearing area of the lateral tibial plateau, reduction, and internal fixation between January 2015 and June 2021, was retrospectively analyzed. There were 14 males and 9 females with an average age of 42.6 years ranging from 26 to 62 years. The causes of injury included traffic accident in 16 cases, falling from height in 5 cases, and other injuries in 2 cases. According to Schatzker classification, there were 15 cases of type Ⅴ and 8 cases of type Ⅵ. The time from injury to operation was 4-8 days with an average of 5.9 days. The operation time, intraoperative blood loss, fracture healing time, and complications were recorded. The depth of articular surface collapse of posterolateral column and posterior inclination angle (PSA) of the tibial plateau were compared before operation and at 2 days and 6 months after operation; fracture reduction of tibial plateau fracture was evaluated by Rasmussen anatomic score. The recovery of knee function was evaluated by Hospital for Special Surgery (HSS) score at 2 days and 6 months after operation. Results All 23 patients were completed the operation successfully. The operation time was 120-195 minutes, with an average of 152.8 minutes; the intraoperative blood loss was 50-175 mL, with an average of 109.5 mL. All patients were followed up 12-24 months, with an average of 16.7 months. One patient had superficial wound infection after operation, and the incision healed after dressing change; primary healing of incision of other patients was obtained. The fracture healing time was 12-18 weeks, with an average of 13.7 weeks. No failure of internal fixation, varus and valgus deformity of the knee joint, and instability of the knee joint was found at last follow-up. One patient developed joint stiffness and the range of motion of the knee joint was 10°-100°; the range of motion of the knee joint of other patients was 0°-125°. At 2 days and 6 months after operation, the depth of articular surface collapse of posterolateral column, PSA, and Rasmussen anatomic scores significantly improved when compared with those before operation (P<0.05). There was no significant difference between the two postoperative time points (P>0.05). The HSS score at 6 months after operation was significantly higher than that at 2 days after operation (P<0.05). Conclusion For tibial plateau fractures involving posterolateral column collapse, reduction and internal fixation through osteotomy of non-core weight-bearing area of the lateral tibial plateau has the advantages of fully expose the posterolateral column fragment, good articular surface reduction, sufficient bone grafting, and fewer postoperative complications. It is beneficial to restore knee joint function and can be widely used in clinic.
Objective To investigate the short-term effectiveness of proximal tibial lateral raft plate combined combined with or without Jail screw fixation in the treatment of tibial plateau collapse fractures involved posterior-lateral column. MethodsA retrospective analysis was performed on 106 patients (106 knees) with tibial plateau collapse fracture involved posterior-lateral column admitted between January 2016 and January 2021. According to the combination with Jail screw fixation or not, patients were divided into control group (treated by lateral raft plate without Jail screw fixation, 52 cases) and study group (treated by lateral raft plate with Jail screw fixation, 54 cases). There was no significant difference between the two groups in terms of gender, age, affected knee side, cause of injury, Schatzker classification, Tscherne-Gotzen classification, time from injury to operation, and preoperative lateral tibial plateau posterior slope angle (PSA), tibial plateau varus angle (TPVA), Rasmussen anatomical score (P>0.05). The operation time, cumulative fluoroscopy time, intraoperative blood loss, hospitalization stay, fracture healing time, complications, and lateral tibial plateau PSA, TPVA, Rasmussen anatomical score detected by X-ray films and CT before operation and at 1 year after operation of the two groups were recorded and compared. The number of cases of articular surface collapse in the two groups was recorded at 1 year after operation, and the effectiveness was evaluated by American Special Surgery Hospital (HSS) score. ResultsAll patients were followed up 12-32 months (mean, 19.5 months). There was no significant difference between the two groups in operation time, cumulative fluoroscopy time, intraoperative blood loss, hospitalization stay, and fracture healing time (P>0.05). There were 2 patients (3.7%) in the study group and 3 patients (5.8%) in the control group with superficial wound infection, which were cured after debridement and dressing change. There was no significant difference in the incidence between the two groups (χ2=0.252, P=0.616). There was no complication such as vascular and nerve injury, internal fixation failure, nonunion or malunion of fracture, and deep vein thrombosis of lower limbs in both groups. At 1 year after operation, 9 cases (17.3%) in the control group had joint collapse of 2-3 mm, while only 2 cases (3.7%) in the study group had joint collapse, showing significant difference (χ2=5.271, P=0.022). At 1 year after operation, the PSA, TPVA, and Rasmussen anatomical scores of the two groups were significantly improved when compared with preoperative ones (P<0.05); the differences of pre- and post-operative PSA, TPVA, Rasmussen anatomical score, and postoperative HSS score in the study group were significantly better than those in the control group (P<0.05). ConclusionThe lateral raft plate combined with or without Jail screw fixation can achieve satisfactory short-term effectiveness in the treatment of tibial plateau collapse fractures involved posterior-lateral column. Combined with Jail screw, it can enhance the fixation and avoid the occurrence of secondary articular surface collapse, which can be used as a better choice.
Objective To observe the cl inical results of treatment of Schatzker V/VI tibial plateau fracture involved posteromedial condyle through combined posteromedial and anterolateral approach and fixed with two or three plates. Methods From April 2005 to April 2008, 18 cases of tibial plateau fracture involved posteromedial condyle were treated, including 14 males and 4 females with an average age of 38.5 years old (range, 18-62 years old). According to Schatzker classification, there were 12 cases of type V and 6 cases of type VI. The posteromedial condyle were involved in 13 cases and bilateral posterior condyle in 5 cases. All patients were given posteromedial fragment and medial condyle fracture reduction through posteromedial approach firstly, and then lateral condyle fracture reduction through anterolateral approach, and injury of meniscuses and cruciate l igaments were treated at the same time. Three plates (lateral, medial, posterior) were used in 10 cases and two plates (lateral, posteromedial) in 8 cases. Results All wounds achieved heal ing by first intention without compl ications such as infection, flap necrosis, osteofascial compartment syndrome, chronic osteomyel itis, nonunion. All patients were followed up for 12 to 48 months with an average of 24.4 months. The mean flexion of the knee was 118.4° (range, 100-130°) 1 year after operation. According to Iowa evaluation system, 12 patients got excellent results, 4 good, and 2 fair; the excellent and good rate was 88.9%. Conclusion Combined posteromedial and anterolateral approach and fixed with two or three plates is effective in treatment of the Schatzker V/VI tibial plateau fracture involved posteromedial condyle. Anatomical reduction and rigid internal fixation of the posteromedial fragment are critical to successful operation.
Objective To review and evaluate the advantages and disadvantages of minimally invasive treatment techniques for tibial plateau fractures (TPFs), as well as the research progress and limitations. Methods The relevant domestic and international research literature on the minimally invasive treatment of TPFs in recent years was reviewed. The advantages, disadvantages, and clinical efficacy of various technologies were summarized and analyzed, and an outlook on future development trends was provided. Results Surgery remains the primary method for treating displaced TPFs. Although traditional open reduction and internal fixation has advantages such as direct reduction and simplicity of procedure, it has gradually fallen out of favor with clinical orthopedic doctors due to extensive soft tissue removal, excessive bleeding, tissue adhesion, and postoperative complications such as skin infection, fracture nonunion, and joint dysfunction. As medical technology continues to develop, minimally invasive surgery and precise diagnosis and treatment are gradually being introduced to orthopedic trauma. Guided by concepts such as “minimally invasive treatment”, “homeopathic repositioning of fractures”, and “internal compression fixation”, many traction reduction devices, internal fixation devices, minimally invasive reduction techniques, and computer-aided navigation technologies have been widely used in the clinical treatment of TPFs. This has greatly helped to overcome the challenges of intraoperative reduction, secondary reduction loss, and postoperative functional impairment and effectively promoting the adoption of minimally invasive treatment techniques in the clinical treatment of TPFs. Conclusion Minimally invasive treatment techniques have made significant progress in the clinical treatment of TPFs, particularly with regard to the reduction, and have demonstrated unique advantages. While relevant research results have received international recognition, there is still a need for orthopedic scholars to conduct real-world research to further explore the underlying principles and mechanisms of action.
ObjectiveTo summarize the progress in the treatment of hyperextension tibial plateau fractures.MethodsRelated literature concerning hyperextension tibial plateau fractures was reviewed and analyzed in terms of injury mechanisms, clinical patterns, and treatment outcomes.ResultsHyperextension tibial plateau fractures is a specific type of hyperextension knee injuries, which is happened with the knee in over-extended position (<0°) and characterized by fracture and concomitant ligament injury. It can be classified into 4 patterns: marginal avulsion fractures, unicondylar anteromedial fractures, anterolateral fractures, and bicondylar fractures. The failure of structures occurs according to the diagonal injury mechanism characterized by anterior compression fractures and posterior tension ruptures. It is noted as a rule that a smaller anterior fragment is more likely to accompany by a posterior ligament rupture. Unicondylar anteromedial fracture pattern is caused by hyperextension varus mechanism and usually accompanied by posterolateral corner rupture. Bicondylar hyperextension injury is characterized by posterior metaphyseal cortical tension rupture, anterior articular depression, and reversed posterior slope.ConclusionCurrently there is no consensus on the treatment of hyperextension tibial plateau fractures. Further basic and clinical studies are needed.