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 study the reparative and reconstructive methods for the large bone defect due to the excision of bone tumor. METHODS: According to the size and shape of the bone defect, we selected the proper bone and joint or manipulated bone segment of the profound hypothermia freezing allograft and gave locked intramedullary nails or steel plate and screws for stable internal fixation. RESULTS: In the 22 cases, 20 survived without tumor and 2 died. One patient treated with the allograft of semi-knee joint was found rejection. Then the wound did not heal. After the skin flap grafting was performed, the wound still did not heal, so the patient accepted amputation(4.5%). In the other 21 cases, the X-ray and 99mTc SPECT showed some callus or concentration of nuclein which implied bone union. According to Markin bone graft criterion, the excellent rate of function recovery was 81.8%. CONCLUSION: Allografting of bone and joint is a good and workable method in repairing and reconstructing the bone defect due to the excision of bone tumor. It should be further studied and be applied.
Objective To evaluate the effect of the modified extended iliofemoral approach on treatingcomplex acetabular fractures. Methods Thirty-six cases of complex acetabular fractures were treated by the open reposition and internal fixation by a modified extended iliofemoral approach. Results Thirty-sixcases were followed up for 7-46 months, with an average of 23.8 months. According to the Matta standard, anatomical reposition was performed in 24 cases, perfect reposition in 8 cases, and unsatisfactory reposition in 4 cases. By the modified d’Aubignepostel score, among the 36 cases, 22 had an excellent result, 9 had a good result, and 5 had a poor result. Conclusion Themodified extended iliofemoral approach facilitates the operative exposure of the anterior and posterior walls and both columns of the acetabulum in the surgically-treated acetabular fractures by the open reposition and internal fixation.Because of the reconstruction, the functions of the abductor muscle mass managed by the lagscrew-fixed osteotomies of the iliac crest, and greater trochanter, the patients can achieve a rapid rehabilitation of the joint.
ObjectiveTo review the research progress of the biomechanics of proximal row carpal instability (IPRC). MethodsThe related literature concerning IPRC was extensively reviewed. The biomechanical mechanism of the surrounding soft tissue in maintaining the stability of the proximal row carpal (PRC) was analyzed, and the methods to repair or reconstruct the stability and function of the PRC were summarized from two aspects including basic biomechanics and clinical biomechanics. ResultsThe muscles and ligaments of the PRC are critical to its stability. Most scholars have reached a consensus about biomechanical mechanism of the PRC, but there are still controversial conclusions on the biomechanics mechanism of the surrounding soft tissue to stability of distal radioulnar joint when the triangular fibrocartilage complex are damaged and the biomechanics mechanism of the scapholunate ligament. At present, there is no unified standard about the methods to repair or reconstruct the stability and function of the PRC. So, it is difficult for clinical practice. ConclusionSome strides have been made in the basic biomechanical study on muscle and ligament and clinical biomechanical study on the methods to repair or reconstruct the stability and function of PRC, but it will be needed to further study the morphology of carpal articular surface and the adjacent articular surface, the pressure of distal carpals to proximal carpal and so on.
To provide anatomical evidences for the blood supply compound flap based on fibular head to rebuild internal malleolus. Methods The morphology of vessels and bones in donor site and in recipient site was observed. The materials for the study were l isted as follows: ① Forty desiccative adult tibias (20 left and 20 right respectively) were used to measure the basilar width, middle thickness, anterior length, posterior length and introversion angle of internal malleolus; ② Forty desiccative adult fibulas (20 left and 20 right respectively) were used to measure the middle width and thickness, as well as the extraversion angle of articular surface of fibular head; ③ Thirty adult lower l imb specimens which perfused with red rubber were used to observe the blood supply relationships between the anterior tibial recurrent vessels and fibular head, and internal anterior malleolar vessels inside recipient site. Results The internal malleolus had a basilar width of (2.6 ± 0.2) cm, a middle thickness of (1.3 ± 0.2) cm, an anterior length of (1.4 ± 1.9) cm and a posterior length of (0.6 ± 0.1) cm. Its articular facet was half-moon. Its introversion angle was (11.89 ± 3.60)°. The fibular head had a middle thickness of (1.8 ± 0.6) cm, a middle width of (2.7 ± 0.4) cm. Its articular facet was toroid, superficial and cavate in shape, and exposed inwardsly and upwardsly, and had a extraversion angel of (39.2 ± 1.3)°. The anterior tibial recurrent artery directly began from anterior tibial artery, accounting for 93.3%. Its initiation point was (4.5 ± 0.7) cm inferior to apex of fibular head. Its main trunk ran through the deep surface of anterior tibial muscle, and ran forwards, outwards and upwards with sticking to the lateral surface of proximal tibia. Its main trunk had a length of (0.5 ±0.2) cm and a outer diameter of (2.0 ± 0.4) mm. Its accompanying veins, which had outer diameters of (2.1 ± 0.5) mm and (2.6 ± 0.4) mm, entry into anterior tibial vein. It constantly gave 1-2 fibular head branches which had a outer diameter of (1.7 ± 1.3) mm at (1.0 ± 0.4) cm from the initiation point. The internal anterior malleolar artery which began from anterior tibial artery or dorsal pedal artery had a outer diameter of (1.6 ± 0.4) mm. Its accompanying veins had outer diameters of (1.3 ± 0.5) mm and (1.1 ± 0.4) mm. Conclusion The blood supply compound flap based on fibular head had a possibil ity to rebuild internal malleolus. Its articular facet was characterized as the important anatomical basis to rebuild internal malleolus.
Objective To study and compare boneforming mechanismafter compound of autologous periosteum-wrapped tendon with spongiosa homogenate and other implants in articular cavity, and to explore the possibility of the compound as a substitute for the lunate in Kienbock’s disease.Methods Forty-five New Zealand white rabbits were randomly divided into three groups: periosteum group(group A, n=15), composite group(group B, n=15), and control group(group C, n=15). The three sorts of implants were placed into articular cavity of the knee respectively. The changes of bone formation and bone morphogenetic protein (BMP) distribution of the implants were examined under optical microscope with HE and immunohistochemical staining and measured by CT 3, 6 and 9 weeks after operation.Results The result of BMP staining was negative after 3 weeks and positive in new cartilage cells after 9 weeks in group A. The positive BMP staining was observed in group B after 3 weeks and 9 weeks, which mainly distributed in new bone cells and cartilage cells. And negative BMP staining was observed every stage in groupC. The quantitative CT bone mineral density (BMD) values of 3 implants were analyzed, the difference was significant between the groups (Plt;0.01), except that between groups A and C in the 3rd week (Pgt;0.05). Conclusion The above results demonstrated that the compound of autologous periosteum-wrapped tendon and spongiosa homogenate can produce bone and cartilage massively under the induction of periosteum and bone-forming factors such as BMP in spongiosa homogenate and the compound can be used as a substitute for the lunate.
To explore the operative method and the cl inical outcomes of repairing acromioclavicular dislocation by clavicular hook plate internal fixation and coracoacromial l igament transposition. Methods From August 2004 to December 2007, 12 cases of acromioclavicular dislocation were repaired with the internal fixation of clavicular hook plate and the transposition of coracoacromial l igament. There were 9 males and 3 females aged 22-56 years old (average 32 yearsold). Causes of injury: 6 cases from fall ing injury, 4 cases from crush injury and 2 cases from traffic accident. There were 5 cases of the left acromioclavicular dislocation, and 7 cases of the right. According to acromioclavicular dislocation classification set by WANG Yicong, 8 cases were graded as type III, 3 cases as type IV, and 1 case as type V. The time from injury to operation was 3-28 days (average 6 days). The injured arm was hung after operation, and the function training was started 3-5 days after operation. Results All wounds healed by first intention, and the X-ray films showed complete reposition of acromioclavicular joints was achieved in all cases 1 week after operation. Over the follow-up period of 12-30 months, no plate and screw loosening, hook break and acromion fracture occurred. At 2 months after operation, 2 patients had sl ight pain when moving the shoulder, and the symptom disappeared when removing the plate. No re-dislocation was observed in all cases after removing the plate at 6-10 months after operation. The function of shoulder joint was assessed by Karlsson evaluation standard 1 year after operation, 11 cases were graded as excellent and 1 case was good. Conclusion For the repair of acromioclavicular dislocation, the method of combining clavicular hook plate internal fixation with coracoacromial l igament transposition has the advantages of minor wound, easy operation, l ittle influence on the function of shoulder joints, and rel iable restoration of the stabil ity of shoulder joint.
Object ive To inves t igate the operat ive method and cl inical ef fect of repai r ing and reconstructing the traumatic defect of medial malleolus in children with complex tissue flap of vascularized fibular head epiphysis. Methods From July 2003 to December 2007, 8 children with defect of medial malleolus due to wheel injury were treated, including 5 boys and 3 girls aged 2-10 years old. The medial malleolus were completely defected (5 cases at left foot and 3 cases at right foot) and combined with the skin defect around the medial malleolus (4.0 cm × 2.0 cm - 9.5 cm × 5.5 cm). The time from injury to hospital admission was 6-8 hours in 2 cases, and 24-168 hours in 6 cases. The complex of vascularized fibularhead epiphysis and tissue flap was adopted to repair the defect. The flap 4.5 cm × 2.5 cm - 10.0 cm × 6.0 cm in size and the fibular head epiphysis 2.5-3.0 cm in length were harvested. The donor site was sutured directly. Results All wounds healed by first intention, all the composite tissue flap survived with good blood circulation, all the epiphysis of medial malleolus healed within 6-9 weeks, and all the donor sites healed well. All the child patients were followed up for 1-5 year. The color and elasticity of the flaps were good, without cicatricial contracture. The patients had no inversion of ankle joint, with satisfying loading and walking function. Six cases had normal flexion and extension of the ankle and 2 cases were l imited sl ightly (dorsiflexion 10-20°, plantarflexion 35°). Talus has no inner move and ankle joint had no eversion. Seven cases were graded as excellent and 1 as good according to the standard of American Orthopaedic Foot amp; Ankle Society. For the medial malleolus, no premature closure of epiphysis occurred, and the center of ossification grew gradually and well developed l ike the contralateral side. The donor knee joint had normal flexion and extension function, without inversion and instabil ity. Conclusion The complex of vascularized fibular head epiphysis and tissue flap can repair the epiphysis and soft tissue defect of medial malleolus in children at one stage, and the reconstructed medial malleolus can develop with the growth of children. It is a satisfactory method of reconstructing the traumatic defect of medial malleolus in children.
Objective To study the operative procedure and effect of arthroscopic reconstruction of both anterior cruciate l igament (ACL) and posterior cruciate l igament (PCL) with anterior tibial is tendon allograft. Methods From February 2005 to July 2006, 10 cases of both ACL and PCL rupture were reconstructed with anterior tibial is tendon allograft, including 7 men and 3 women, aging 18-45 years with an average of 30.2 years. The locations were left knee in 6 cases and right knee in 4 cases. All of them had identified trauma history. The disease course was about 1-3 weeks (mean 1.8 weeks). Both ACLand PCL were reconstructed under arthroscope with allograft anterior tibial is tendon of 26-28 cm in length and immobil ization with extention position brace was given for 4 weeks after operation. The active flex knee exercise was done from 0-90° at 4 weeks and more than 90° at 6 weeks. Results All operations were finished successfully, there were no blood vessel and nerve injury. The operative time was 90-110 minutes (mean 100 minutes). The wound healed by first intention and no early compl ication occurred. Ten cases were followed up for 12 months to 15 months with an average of 13.5 months. Thier gait was normal, knee activity degree was 0-135°. The anterior drawing tests and media and lateral stress tests were negative after operation in 10 cases; and the posterior drawing tests were negative in 8 cases and 2 cases was at grade I. Hydra arthrosis of knee occurred in 2 cases and was cured after remove of fluid and injection of sodium hyaluronate. The Lysholm knee function score was increases from 24.89 ± 5.39 before operation to 96.00 ± 4.59 at 12 months after operation, showing significant difference (P lt; 0.05). Conclusion Arthroscopic reconstruction of both ACL and PCL with anterior tibial is tendon allograft has the advantages of short operation time, less compl ications and good cl inical effects.