Objective To explore an improved method of surgical operation for reposition of the articular surface with Type Ⅲ Pilon fractures. Methods From January 1999 to December 2005, 20 patients (22 sides) with Type Ⅲ Pilon fractures were treated with the delayed open reduction and the internal fixation, which took the superior articular surface of the talus as a templet so as to reposition the lower articular surface of the tibia, strengthen the bone transplantation, fasten the internal fixation, and make an early functional exercise possible. Complete data were obtained from 16 of the patients with 18 sides (13 males,15 sides; 3 females, 3 sides; age, 14-48 years). The injury due to a fallingaccident was found in 12 patients (14 sides), and due to a traffic accident in 4patients (4 sides). Results The healing of the first intention was achieved in 14 sides, the delayed healing in 3 sides, and the infection in 1 side. The follow-up of all the 16 patients for 971 months (average, 22 months) including the X-ray examinations revealed that no screw for the internal fixation entering the articular cavity. According to the Teeny’s judging standards of radiology evaluating the result of the surgery for Pilon fractures, the anatomical reduction of the related articular surface was found in 77.8% of the sides (14/18) and thehealing of the first intention (stage Ⅰ) in 94.4% (17/18). According to the Mazur’s criteria, an excellent result was obtained in 5 sides, good in 7, fair in 5, and poor in 1. The excellent and good result was 66.7%. Conclusion Propermanagement of the injured soft tissues, prompt recovery of the tibial distant plateau height, and accurate reposition of the articular surface, enough transplant bone for the solid support, b internal fixation for the distant tibial anatomical structure, and early functional exercise are the key points to the successful operation.
Objective To study the reparative and reconstructive for proximal humerus defect due to the excision of bone tumor with noninternal fixation non-vascularised fibular autografts. Methods From June 1991 toDecember 2003, 26 non-vascularised fibular grafts were used as substitutes for repair and reconstruction after resection for bone tumors on proximal humerus. Fifteen cases were given curettage and fibular supporting internal fixation, the other 11 cases were given tumor resection and joint reconstruction with proximal fibular graft. The age ranged from 6 to 41 years. Out of 26 patients, 5 had giant cell tumor, 9 had bone cysts, 8 had fibrous dysplasia and 4 had enchondroma. Results Twenty-six patients were followed up from 1 to 12 years (3.4 years on average). Local recurrence was found in 2 cases, and 1 of them died of lung metastasis. Both outlook and function of the reconstructed joints have good results in 15 proximal humeral joint surface reserved cases. Of them, 3 children gained normal shoulder function 3 weeks after operation. Part function were obtained in the other 11 fibular grafts substituted proximal humeral defect. Conclusion Non-vascularised fibular grafts is an appropriate treatment option for proximal humerus bone defect due to excision of bone tumor.
OBJECTIVE: To investigate the reparative and reconstructive method of post-traumatic lateral instability of the ankle. METHODS: From January 1992 to June 2000, 7 cases of male patients with ankle injury (aged 25-43 years) underwent Wetson-Jones modification. A bone tunnel was drilled through 2.5 cm upside the lateral malleolus tip and talus, and short peroneal tendon was cut to pass the tunnel to fix twining. RESULTS: All patients were followed up 2-10 years, 5 cases mineworkers changed to work on the ground, 2 patients returned to the original work, no traumatic arthritis occurred. According to Baird ankle joint scoring standard, the ankle function was excellent in all cases. CONCLUSION: Reformed Wetson-Jones modification can repair and reconstruct perfectly the traumatic instability of the ankle.
OBJECTIVE: To reduce amputation rate of severe electrical burn of wrist and to promote partial recovery of the injuried hand. METHODS: From 1987 to 1999, 44 cases, with 55 limbs of severe electrical burn were classified into 4 types, according to criteria of Dr Shen Zuyao, and were all treated by primary adequate decompression, timely debridement, reconstruction of blood circulation in cases complicated with blood vessel injury, and skin flap grafting from chest, abdomen or inguinal area, followed by treatment of anti-coaggluation and anti-infection. Once the wound healed, auto- or allo-transplantation or transferring of tendons were performed to repair tendon defect, and auto-nerve or fetal nerve transplantation performed for nerve defect. RESULTS: After the primary treatment of the 55 burned limbs, all limbs of type IV were amputated, and most of other 3 types survived. The function, including sensation and movement, of survived hands partially recovered. CONCLUSION: Primary reconstruction of blood circulation, cover of wound with skin flap, and timely repair of sensation and motor function are very crucial approach to reduce amputation rate and to promote the survived hand function of severe electrical burns of wrists.
The bone tumors are common in the lower part of the femur and upper tibia. Fifty-seven cases of repairment and reconstruction of the long bone defect after tumor resection in this area have reported in this paper. The main principle for the lesion and reservation of the joint function. The most suitable surgical procedure for each cases was selected according to the area, the character, the dimension and the length of the bone tumor.
Objective To review the current research progress of three-dimensional (3-D) printing technique in foot and ankle surgery. Methods Recent literature associated with the clinical application of 3-D printing technique in the field of medicine, especially in foot and ankle surgery was reviewed, summarized, and analyzed. Results At present, 3-D printing technique has been applied in foot and ankle fracture, segmental bone defect, orthosis, corrective surgery, reparative and reconstructive surgery which showed satisfactory effectiveness. Currently, there are no randomized controlled trials and the medium to long term follow-up is necessary. Conclusion The printing materials, time, cost, medical ethics, and multi-disciplinary team restricted the application of 3-D printing technique, but it is still a promising technique in foot and ankle surgery.
Objective To summarize the clinical experience of vascular repair and reconstruction for treating superior vena cava syndrome (SVCS) caused by thoracic tumor. Methods Between October 2008 and June 2016, 26 patients with thoracic tumor and SVCS were admitted. There were 18 males and 8 females, aged from 27 to 70 years (mean, 45.9 years). Tumor was typed as B1-B3 thymoma in 13 cases, thymic carcinoma in 6 cases, large B-cell lymphoma in 3 cases, T lymphocytic lymphoma in 1 case, malignant teratoma in 1 case, right lung squamous cell carcinoma in 1 case, and carcinoid in 1 case. The tumor diameter ranged from 8 to 15 cm with an average of 10 cm. The patients had different degrees of neck, face, and upper extremity edema, jugular vein distention, and chest wall collateral venous filling. The superior vena cava pressure was 2.45-5.39 kPa. After excision of tumor and invading superior vena cava, 7 patients underwent superior vena cava reconstruction and 19 patients underwent artificial vascular replacement. Results There was no perioperative death, and the symptoms of superior vena cava obstruction were eliminated. Postoperative pulmonary infection, respiratory muscle weakness, and right chylothorax occurred in 4 cases, 1 case, and 1 case respectively. Twenty-four patients were followed up 2-92 months (mean, 37 months), and 2 patients failed to be followed up. At 1, 3, and 5 years, the survival rate was 83.3% (20/24), 41.7% (10/24), and 25% (6/24), respectively. In 6 patients with 5-year survival, there were 1 case of type B1 thymoma, 3 cases of type B3 thymoma, and 2 cases of large B-cell lymphoma. Conclusion For preoperative evaluation of SVCS caused by resectable thoracic tumors, vascular repair and recons-truction technique can be used to quickly and effectively relieve the clinical symptoms and improve the quality of life.