Objective To investigate the effect of transplantation of the cutaneous iliac flap on repairing bone and soft tissue defect of metatarsal. Methods From October 1999 to December 2003, the cutaneous iliac flap was designed for the repair of bone and soft tissue defect of metatarsal in 4 male patients, whose ages ranged from 26 to 47, with skin graft for the coverage of the iliac flap. The duration of injury ranged from 1 to 5 months. The length of the defect ranged from 4 to 7 cm and the defect area ranged from 5 cm×3 cm to 9 cm×5 cm. Results One week after transplantation, complete survival of iliac flap was observed in 3 cases and partial survival in 1 case (but later proved survived). Callus was seen 1 month after transplantation and Kwires were removed 4months after transplantation. Patients were followed up for 5 to 24 months. There were no ulcers. The ability of walking and bearing was satisfying as well asthe function and shape. Conclusion With satisfying restoration of function and shape, transplantation of the cutaneous iliac flap with skin graft is an alternative to treat bone and soft tissue defect of metatarsal with one stage surgery.
ObjectiveTo evaluate the effectiveness of indirect fixation of the 3rd tarsometatarsal joint in the treatment of high-energy Lisfranc injury.MethodsBetween February 2015 and February 2019, 15 patients with high-energy Lisfranc injury were treated. There were 12 males and 3 females with an average age of 44.8 years (range, 29-73 years). The average time from injury to admission was 8.8 hours (range, 2-28 hours). According to Myerson classification, there were 6 cases of type A, 4 cases of type B2, 1 case of type C1, and 4 cases of type C2; 8 cases were open injury. The 3rd tarsometatarsal joint was injured in all patients, including intact intermetatarsal ligament in 7 cases, the 2nd-3rd intermetatarsal ligament injury in 6 cases, the 3rd-4th intermetatarsal ligament injury in 1 case, and the 2nd-3rd-4th intermetatarsal ligament injury in 1 case. Among them, the 3rd tarsometatarsal joint was not fixed directly and indirectly fixed by stabilized the 2nd and 4th tarsometatarsal joints in 13 cases. The 3rd tarsometatarsal joint was fixed with Kirschner wire in 2 cases for 1 patient had complete injury of the intermetatarsal ligament and the other 1 had comminuted fracture of the base of the 3rd metatarsal. The reduction of fracture and dislocation was evaluated by X-ray films, focusing on the re-displacement of the 3rd tarsometatarsal joint. The effectiveness was evaluated by American Orthopaedic Foot and Ankle Society (AOFAS) score and visual analogue scale (VAS) score.ResultsThirteen of the 15 patients were followed up 12-26 months, with an average of 15.6 months. One case had superficial infection of the incision and healed after symptomatic treatment; the other incisions healed by first intention. At last follow-up, the VAS score was 0-3 (mean, 1.1) and the AOFAS score was 70-99 (mean, 87.5). Twelve patients achieved anatomical reduction and 1 patient had increased talar-first metatarsal angle and the mild forefoot abduction. During the follow-up, no loss of reduction of the 3rd tarsometatarsal joint was found, while the spontaneous fusion of the joint was observed in 2 patients.ConclusionIn high-energy Lisfranc injury, as long as the intermetatarsal ligament is not completely destroyed and the bony structure of the tarsometatarsal joint is intact, the 3rd tarsometatarsal joint does not need to be fixed routinely, the stability of the joint can be obtained indirectly by fixing the adjacent tarsometatarsal joint.
Objective To explore the effectiveness of transverse double “8”-shaped tension band technique in the treatment of Lawrence zoneⅠfracture of the 5th metatarsal base. Methods Between February 2019 and October 2021, 15 patients with Lawrence zoneⅠfracture of the 5th metatarsal base were treated with transverse double “8”-shaped tension band technique. There were 8 males and 7 females, with a median age of 40 years (range, 23-59 years). The fractures were caused by sprains. The time from injury to operation was 3-7 days (mean, 4.1 days). X-ray films were taken to observe the fracture healing and the anchor looseness and detachment. The foot function was evaluated by American Orthopaedic Foot and Ankle Society (AOFAS) score, visual analogue scale (VAS) score, and the eversion angle of the calcaneal talus joint. Results The incisions healed by first intention after operation in 14 cases and the incision healed poorly in 1 case. All patients were followed up 8-12 months (median, 10 months). The imaging examination showed that all fractures healed well, with a healing time of 10-14 weeks (mean, 11.7 weeks). At last follow-up, AOFAS score was 82-100 (median, 98); 13 cases were excellent and 2 cases were good, with an excellent and good rate of 100%. VAS score was 0-3 (median, 1). Three cases had mild limited ankle joint range of motion, while 12 cases had normal range of motion. The eversion angle of the calcaneal talus joint was 25°-32° (median, 30°). Conclusion The application of transverse double “8”-shaped tension band technique for Lawrence zone Ⅰ fracture of the 5th metatarsal base has advantages such as simple operation, avoidance of secondary operation, and reduction of foreign body sensation, with definite effectiveness.
Objective To study the method and effect of transferring the pedicled second metatarsal base for repairing bone defect of lateral malleolus. Methods Thirty lower limb specimens were anatomized to observe the morphology, structure and blood supply of the second metatarsal bone . Then transferring of thepedicled second metatarsal base was designed and used in 6 patients clinically.All cases were male, aged from 24 to 48 years old, and the area of bone defect was 3-4 cm. Results Followed up for 3-11 months, all patients healed primarily both in donor and recipient sites. There were excellent results in 4 cases and good results in 2 cases . The morphology and function of the malleoli were satisfactory. Conclusion Transferring of the pedicled second metatarsal base for repairing bone defect of lateral malleolus is an effective and reliable operative method.
To investigate the operative technique of treating Freiberg’s disease with dorsal wedge osteotomy and absorbable pin fixation, and to evaluate the cl inical outcome. Methods From June 2005 to June 2007, 8 patients with Freiberg’s disease were treated, including 2 males and 6 females aged 16-66 years old (average 36 years old). X-ray films revealed osteosclerosis, collapse of the metatarsal head and ischemic necrosis of the second metatarsal head. According toSmill ie classification system, there were 4 cases of stage II, 3 of stage III and 1 of stage IV. The duration of symptoms was 6-36 months (average 19 months). After dorsal wedge osteotomy, the metatarsal heads were rotated to reconstrust the joint surface, then 3-4 pieces of absorbable pin 1.5 mm in length were implanted for fixation. Results All wounds healed by first intention, and no early postoperative compl ications occurred. Five patients were followed for 11-35 months (average 14 months) and had significant pain rel ief. At 3 months after operation, the dorsal-flexion of metatarsophalangeal joint was improved by 0-50° (average 21°), and the plantar-flexion was increased by 0-10° (average 5°). X-ray films showed that solid union of the osteotomy was achieved in all patients at 8-13 weeks after operation (average 10 weeks). Average shortening of metatarsal was 1.7 mm (range 1.3-2.0 mm). All patients returned to sports and recreational activities at 4 months after operation, except one case of stage IV who had constant swelling and stiffness in the joint and was improved at 12 months after operation. Conclusion Dorsal wedge osteotomy in complex with absorbable pin fixation is an effective procedure for stage II and III Freiberg’s disease, because it is capable of reconstructing the metatarsophalangeal joint effectively, allowing early joint motion and avoiding a second operation.
Objective To discuss the etiology, cl inical manifestation, imaging, staging, and treatment of bone necrosis of the second metatarsal head, the navicular bone, and the talus so as to provide more information for cl inical appl ication. Methods The related home and abroad l iterature concerning bone necrosis of the second metatarsal head, the navicular bone, and the talus in recent years was reviewed extensively. And the cl inical manifestation, imaging, staging, and treatment were summarized and analyzed. Results Bone necrosis of the second metatarsal head, the navicular bone, and thetalus were more closely related to the particular anatomy; the environmental and genetic factors also lead to such diseases. The cl inical presentation was typically local pain and swell ing around the joint, frequently with restricted joint motion in severe cases. Both radiographs and MRI were used to be the main criteria for diagnosis and staging of these diseases. According to different phases, conservative therapy was effective in treating osteonecrosis at early stage. While surgical treatments such as osteotomy, fixation, and arthrodesis were used in late-stage bone necrosis. Conclusion The current methods of treatment have achieved good effect, but long-term cl inical follow-up is needed and the new surgery should be further studied.
Objective To analyze the biomechanical changes of hallux valus after Swanson prosthesis-arthroplasty of the 1st metatarsophalangeal joint combined with osteotomy and bone grafting of the 1st metatarsal bone by three-dimensional finite element analysis, so as to provide data basis for studying the changes of foot morphology and physiological function after hallux valus correction surgery. Methods A 65-year-old female patient with severe hallux valus admitted in January 2013 was selected as the research object. The CT data of the right foot was obtained, and the three-dimensional finite element models before and after Swanson prosthesis-arthroplasty of the 1st metatarsophalangeal joint combined with osteotomy and bone grafting of the 1st metatarsal bone were established by Mimics10.01, Geomagic Studio, and ANSYS12.0 software. ANSYS 12.0 software was used for nonlinear static stress analysis, and the hallux valgus angle (HVA), the intermetatarsal angle (IMA), and the von Mises stress distributions of the forefoot plantar surface and the 1st to 5th metatarsal bones were observed before and after operation. ResultsThe HVA and IMA were 56.3° and 16.3° before operation and 9.2° and 9.8° after operation, respectively. Before operation, the stress on the forefoot was the largest in the 4th metatarsal head zone and the smallest in the 1st metatarsal head zone; the stress on the medial side of the forefoot was significantly smaller than that on the lateral side, and the center of forefoot pressure was located on the lateral side. After operation, the stress on the forefoot was the largest in the 1st metatarsal head zone and the smallest in the 5th metatarsal head zone; the stress on the lateral side of the forefoot was significantly smaller than that on the medial side, and the center of forefoot pressure was located on the medial side. Before operation, the stress of the 5th metatarsal bone was the largest, and the 1st metatarsal bone was the smallest. After operation, the stress of the 1st metatarsal bone was the largest, and the 4th metatarsal bone was the smallest. Conclusion Swanson prosthesis-arthroplasty of the 1st metatarsophalangeal joint combined with osteotomy and bone grafting of the 1st metatarsal bone can effectively correct hallux valgus and make HVA, IMA, and plantar pressure distribution close to normal. However, postoperative stresses of the 1st to 5th metatarsal bones elevate, which may lead to associated complications.
Objective To summarize the experience of treating old metatarsal fractures with surgery methods of miniplate internal fixation and autogenous il iac bone. Methods Between May 2009 and July 2010, 7 patients with old metatarsal fractures were treated surgically, including 5 multi-metatarsal fractures and 2 single metatarsal fractures. There were 5 males and 2 females aged from 25 to 43 years (mean, 33 years). The time from fracture to operation was 4-12 weeks. The X-rayfilms showed that a small amount of callus formed at both broken ends with shortening, angulation, or rotation displacement. The surgical treatments included open reduction, internal fixation by miniplate, and autogenous il iac bone graft (1.5-2.5 cm3). The external plaster fixation was used in all patients for 4 to 6 weeks postoperatively (mean, 5 weeks). Results All incisions healed by first intention. The 7 patients were followed up 8-18 months (mean, 13.5 months). The cl inical fracture heal ing time was 6 to 12 weeks postoperatively (mean, 8.4 weeks). No pain of planta pedis occurred while standing and walking. The American Orthopaedic Foot and Ankle Society (AOFAS) mesopedes and propodium score was 75-96 (mean, 86.4). Conclusion It has the advantages of rel iable internal fixation, high fracture heal ing rate, less compl ications to treat old metatarsal fractures with surgery methods of miniplate internal fixation and autogenous il iac bone graft, so it is an effective treatment method.
ObjectiveTo summarize the research and clinical application progress of foot lengthening surgery. Methods Relevant research literature on foot lengthening surgery in recent years at home and abroad was reviewed, and a summary was made from aspects such as the types of lengthening surgery, the types of foot diseases treated by clinical application, effectiveness, and complications. ResultsBone defects and shortening deformities of the foot are relatively common clinically. As an innovative treatment method, foot lengthening surgery has gradually attracted attention, mainly including the Ilizarov technique and one-stage bone grafting lengthening surgery. The former promotes bone regeneration based on the tension-stress principle and is widely used in the treatment of calcaneal defects and congenital metatarsal brachymetatarsia, achieving good curative effects. However, there are also complications such as pin-tract infection, joint stiffness and contracture, non-union and delayed union of bone, re-fracture, and alignment deviation. The latter has a short treatment cycle, but the lengthening length is limited. Bone graft resorption and soft tissue complications are its main complications. ConclusionFoot lengthening surgery will develop towards the direction of personalization, intelligence, and precision. With the help of multi-center research, biological materials, and intelligent technologies, the effectiveness and safety will be further improved to better restore the function and appearance of the foot.