Objective: To investigate the effectiveness of self-made limb chronic wound closure device in the treatment of scarred lower limbs and complex skin and soft tissue defects. Methods: Between January 2014 and January 2017, 29 patients with complex fractures of the lower extremities and skin and soft tissue defects were treated. There were 19 males and 10 females with an average age of 31.1 years (range, 21-66 years). The causes of injury included 14 cases of traffic accidents, 5 cases of falling from height, 4 cases of heavy object crushing injury, 4 cases of mechanical crushing injury, and 2 cases of exposed steel plate after fracture. There were 26 cases of calf fracture and skin defect, 3 cases of metatarsal bone fracture and skin defect of the foot. The skin defect ranged from 5 cm×3 cm to 18 cm×8 cm. The time from injury to admission was 5-31 days, with an average of 14.3 days. All patients underwent a thorough debridement, open wound drainage, self-made chronic wound closure device combined with Ilizarov stretching technique for a slow skin and soft tissue traction. After the wound was cleaned up and the granulation tissue was freshened, the skins on both sides were closed, and then proceed to the second stage operation of skin grafting or direct suture closure based on the size of the wound. Results: All patients were followed up 8-20 months, with an average of 13 months. Twenty-nine patients were treated with self-made chronic wound closure device combined with Ilizarov technique for 1-2 times with an average of 1.3 times, then the wound infection was controlled and the granulation tissue grew well. In the course of treatment, the pain was not obvious and the patients had good compliance. All patients' wounds healed clinically without skin traction complications and formed linear or flaky scars. Conclusion: The self-made chronic wound closure device is effective in repairing complex scarred wounds of lower extremities, and it is easy to operate.

Objective:To investigate the early curative effects of robot-assisted total knee arthroplasty (TKA) in the treatment of valgus knee.Methods:A retrospective study was conducted to analyze the data of 40 patients with valgus knee who had been treated by TKA at Department of Orthopaedics, The 920th Hospital of Joint Logistics Support Force of Chinese People's Liberation Army from January to December 2021. The patients were divided into 2 groups according to whether a robot had been used or not for TKA. In the observation group of 15 cases for which TKA was assisted by a robot, there were 4 males and 11 females with an age of (65.5±6.2) years, and the disease course was 42 (36, 54) months; in the control group of 25 cases for which conventional TKA was performed, there were 8 males and 17 females with an age of (65.8±7.5) years, and the disease course was 42 (36, 60) months. Surgical time, hemoglobin decrease, and knee joint range of motion, American Knee Society Score (KSS), hip-knee-ankle angle (HKA), lateral distal femoral angle (LDFA), and medial proximal tibial angle (MPTA) at 12 months after surgery were compared between the 2 groups.Results:There was no significant difference in the preoperative general data between the 2 groups, indicating comparability ( P>0.05). The surgical time in the observation group was (148.0±21.2) min, significantly longer than that in the control group [(115.2±7.1) min], and the hemoglobin decreased by (11.8±1.1) g/L in the observation group, significantly less than that in the control group [(18.1±1.8) g/L] ( P<0.05). The observation group and the control group were followed up for 13 (13, 14) and 13 (13, 14) months after surgery, respectively, showing no statistically significant difference ( P>0.05). At 12 months after surgery, the KSS knee score, KSS functional score, and knee range of motion in the observation group were (86.1±4.6) points, (86.9±3.1) points, and 115.7°±5.0°, significantly larger than those in the control group [(82.2±3.5) points, (82.8±0.9) points, and 108.2°±5.0°] ( P<0.05). Reexamination of full-length radiographs of both lower limbs in all patients showed good positions of the prostheses and no such adverse events as loosening or sinking at 12 months after surgery. The HKA (178.5°±1.2°) and LDFA (89.1°±0.7°) at 12 months after surgery in the observation group were significantly larger than those in the control group (176.6°±1.5°, 88.2°±8.2°) ( P<0.05); there was no statistically significant difference in MPTA between the 2 groups ( P>0.05). Conclusions:In the treatment of valgus knee, robot-assisted TKA can correct joint deformity, and achieve precise osteotomy and functional alignment of lower limbs, leading to better early curative effects than conventional TKA.

Objective To explore the clinical application of our self-designed controllable and portable double-pin traction device on calf in the treatment of tibiofibular fractures.Methods Our controllable and portable double-pin traction device on calf was designed to fulfill the purpose of traction and address current problems in traction for tibiofibular fractures.This device is composed of double-hole connectors,nuts of various specifications,traction pin sleeves,2 transfixion pins and 2 threaded rods for traction.The transfixion pins are fixed at conventional traction positions.The threaded rods for traction are paralleled to the long axis of lower limb and located on both sides of the calf.Bone ends can be distracted by adjusting the nut of M8 width and the speed of pulling can be controlled.This device can be used not only for rapid traction during surgery but also for slow traction preoperatively.It was applied in the 30 patients with tibiofibular fracture who had been treated at Department of Orthopaedic Surgery,920th Hospital of Joint Logistic Support Force from January to December 2017.Their radiographs were taken before traction and at 3 and 6 days after traction to observe the changes in overlapped fracture ends and fracture gap.The lengths of distraction were measured.After limited open reduction,fracture gaps and tensions of surrounding soft-tissues were observed.Results Their radiographs before and after traction demonstrated that their overlapped and displaced fracture ends were distracted more or less.The length of distraction ranged from 7.2 mm to 45.8 mm (mean,23.1 mm);it was ＜ 15 mm in 6 cases,between 15 mm and 30 mm in 18,between 31 mm and 45 mm in 5,and ＞ 45 mm in one.Their radiographs showed that regular traction for 6 days was more obvious than that for 3 days.The limited open reduction revealed that the gap between fracture ends was expanded,the soft-tissue tension effectively relaxed,the overlapping of fracture ends diminished,and the dissection of surrounding soft-tissue and periosteum decreased,leading to less difficulty in reduction.In fractures near the joint or involving the articular surface,the joint space was expanded.The 30 patients were followed up for one to 16 months (mean,5.8 months).No such complications as pin site infection,traction fracture or osteomyelitis was observed.Conclusion Our self-designed controllable and portable double-pin traction device on calf is effective and advantageous,because it is simple,easy,light in weight,and controllable for traction speed.

Objective:To investigate the effect of flap combined with 3D printed microporous titanium(tantalum)prosthesis in the treatment of lower extremity soft tissue defect with large bone defect.Methods:From January 2019 to December 2020, 2 patients with large soft tissue defects on dorsal foot together with large metatarsal bone defect and 4 patients with soft tissue defects of calf with large tibial bone defect were treated. The areas of soft tissue defect were 5.0 cm×8.0 cm-15.0 cm×10.0 cm. The length of the bone defect were 3.8 cm to 7.0 cm, 5.75 cm in average. In the first stage, metatarsal bone defect or tibial bone defect was filled with vancomycin blended bone cement, meanwhile, soft tissue defect was repaired with anterolateral femoral flap(ALTF) with vascular anastomosis in 2 cases of feet, and local fascia flap was trans-positioned in 4 cases of lower extremity defects. The sizes of repairing flap were 6.0 cm×8.5 cm-16.0 cm×11.0 cm. Two to 7 months after the initial surgery, the customer designed microporous titanium prostheses were used(5 cases with microporous titanium and 1 with microporous tantalum) to repair the bone defects. The wound healing, the integration of metatarsal and tibial fractures with 3D printed microporous titanium(tantalum) prostheses, and the walking condition were observed after surgery. The follow-up lasted from 6 to 25 months, with an average of 12.7 months.Results:The wound healing in 5 patients was good. The patients stood on the foot in 2 months after surgery, started to walk with the assistance of crutch in 3 months after surgery, and took walk without assistance in 5-6 months after surgery. Good osseous integration were achieved. One diabetic patient had infection of foot wound 3 months after surgery. After removal of microporous titanium prosthesis and replacement of vancomycin blended interstitial substance of bone cement, the wound healed and the patient resumed walking.Conclusion:It is an effective method to encourage the patients to take early ambulation after the surgery for lower extremity soft tissue defect with large bone defect that was repaired by a flap and 3D printed microporous titanium(tantalum)prosthesis. Further observations are required to investigate the long-term efficacy, and the reduction of prosthesis infection rate requires further exploration.