Objective To investigate the effectiveness of shortening-lengthening method using Ilizarov technique for repairing large tibial bone and soft tissue defects. Methods Between January 2006 and December 2011, 12 patients with large tibial bone and soft tissue defects were treated by shortening-lengthening method using Ilizarov technique. There were 8 males and 4 females with an average age of 39.3 years (range, 18-65 years). The causes were injury in 8 cases and chronic infection in 4 cases. The area of soft tissue defect was 5 cm × 4 cm to 20 cm × 16 cm, and the length of tibial bone defect was 4.5-8.0 cm with an average of 6.2 cm. Results Incision in the lengthening area healed by first intention; healing of wounds by first intention was achieved in 6 cases, delayed healing in 2 cases, and secondary healing in 4 cases, with no common peroneal nerve injury. All patients were followed up 18-54 months with an average of 29 months. In the lengthening area, the bone healing time was 180-365 days (mean, 267 days), and the healing index was 3.8-4.3 days/mm (mean, 4.1 days/mm). In the shortening area, the bone healing time was 195-380 days (mean, 297 days) in the others except 1 case who was repaired with bone grafting. Mild pin-related infection and loosening were observed in all cases, but no infection occurred in the lengthening or shortening area. At last follow-up, weight bearing of the leg was fully recovered in 12 cases. According to Mazur’s criteria, the function of ankle was excellent in 2 cases, good in 6 cases, and fair in 4 cases. Nine patients had equal limb length, and 3 patients had shortened length less than 2 cm. Conclusion Shortening-lengthening method using Ilizarov technique has the advantages of simple surgery, less complications, easy to close the wound, and good effectiveness in repairing of large tibial bone and soft tissue defects.
Objective To investigate the effectiveness of tissue transplantation combined with bone transmission in treatment of large defects of tibial bone and soft tissue. Methods Between February 2006 and February 2011, 15 cases of traumatic tibia bone and soft tissue defects were treated. There were 12 males and 3 females, aged from 16 to 54 years (mean, 32 years). After internal and external fixations of fracture, 11 patients with open fracture (Gustilo type III) had skin necrosis, bone exposure, and infection; after open reduction and internal fixation, 2 patients with closed fracture had skin necrosis and infection; and after limb replantation, 2 patients had skin necrosis and bone exposure. The area of soft tissue defect ranged from 5 cm × 5 cm to 22 cm × 17 cm. Eight cases had limb shortening with an average of 3.5 cm (range, 2-5 cm) and angular deformity. The lenghth of bone defect ranged from 4 to 18 cm (mean, 8 cm). The flap transplantation and skin graft were used in 9 and 6 cases, respectively; bone transmission and limb lengthening orthomorphia were performed in all cases at 3 months after wound healing; of them, 2 cases received double osteotomy bone transmission, and 14 cases received autologous bone graft and reset after apposition of fracture ends. Results All flaps and skin grafts survived; the wound healed at 3.5 months on average (range, 3 weeks-18 months). The length of bone lengthening was 6-22 cm (mean, 8 cm). The time of bone healing and removal of external fixation was 9.5-39.0 months (mean, 15 months). The healing index was 40-65 days/cm (mean, 55 days/cm). All patients were followed up 1-5 years (mean, 4 years). The wounds of all the cases healed well without infection or ulceration. The functions of weight-bearing and walking were recovered; 6 cases had normal gait and 9 cases had claudication. The knee range of motion was 0° in extention, 120-160° in flexion (mean, 150°). According to the American Orthopaedic Foot and Ankle Society (AOFAS) scoring system for ankle function, the results were excellent in 7 cases, good in 4 cases, and fair in 4 cases, with an excellent and good rate of 73.3%. Conclusion Tissue transplantation combined with bone transmission is an effective method to treat large defects of soft tissue and tibial bone, which can increase strength of bone connection and reduce damage to the donor site.
【Abstract】 Objective To explore the effectiveness of reducing tension method on the survival and appearance of distally-based pedicle flap. Methods Between October 2009 and February 2011, 27 cases of defect of extremity skin and soft tissue were repaired with distally-based pedicle flap through reducing tension flap method. There were 19 males and 8 females with an average age of 31.5 years (range, 17-58 years). Defects were caused by traffic accident in 14 cases, by machine in 9 cases, by surgical infection in 3 cases, and by tumor excision in 1 case. The locations were the distal tibia in 7 cases, the ankle-joint in 12 cases, the foot in 5 cases, the palm in 2 cases, and the dorsum of hand in 1 case. The time from injury to hospitalization was 1-19 hours with an average of 10 hours. The size of defect ranged from 5.2 cm × 3.8 cm to 14.0 cm × 5.8 cm. The size of distally-based pedicle flap ranged from 5.5 cm × 4.5 cm to 14.5 c m × 6.5 cm. The donor sites were sutured directly in 6 cases and were repaired with skin grafting in 21 cases. Results All reducing tension flaps survived. Partial necrosis occurred in the distally-based pedicle flap in 3 cases at 7 days after operation, which was cured after dressing change and skin grafting in 1 case, after excision of necrosis skin edge and direct suture in 2 cases. The other flaps survived and wounds achieved primary healing. The incisions at donor sites healed by first intention and skin grafting survived. Twenty-six cases were followed up 6-12 months (mean, 7.5 months). The appearance and texture of the flaps were good. Conclusion Pedicle reducing tension flap could promote the survival and the appearance of distally-based pedicle flap.
Objective To review the research progress of the skin flap, fascial flap, muscle flap, and myocutaneous flap for repairing soft tissue defects around the knee so as to provide information for clinical application. Methods Domestic and abroad literature concerning the methods of soft tissue repair around the knee in recent years was reviewed extensively and analyzed. Results Fascial flaps meet the requirements of thin, pliable, and tough skin in the soft tissue repair around the knee. Myocutaneous flaps and muscle flaps have more abundant blood supply and anti-infection function. Free skin flaps are the only option when defects are extensive and local flaps are unavailable. Conclusion Suitable flaps should be chosen for soft tissue repair around the knee according to defect position, depth, and extent. Fascial flaps may be selected as the first flaps for defects repair because of excellent aesthetic results and less injury at the donor site.
ObjectiveTo investigate the anatomic features of the perforating branch flap of the medial vastus muscle, so as to provide a new perforating branch flap for repairing the soft tissue defect. MethodsSix fresh donated lower limb specimens underwent an intra-arterial injection of a lead oxide and lactoprene preparation. The integument of the thigh was dissected to observe the origin, course, size, and location of the perforating branch of the medial vastus muscle by angiography and photography. Based on the anatomic study, the free perforating branch flaps of the medial vastus muscle (14 cm × 6 cm to 20 cm × 5 cm) were used to repair skin and soft tissue defects (8 cm × 6 cm to 12 cm × 8 cm) of the feet in 4 patients between June 2009 and August 2011. ResultsThe artery of the medial vastus was sent out constantly from the femoral artery, and then descended in the vastus muscle to lateral patella where it anastomosed with the terminal branches of lateral femoral circumflex artery to form prepatellar vascular network. The artery of the medial vastus sent out 3-5 musculocutaneous perforating branches into the deep fascia and then extended superficially to the overlying skin. Four flaps survived after surgery; wounds at the donor site and recipient site healed by first intention. After follow-up of 6-12 months, the flaps had good appearance and texture. All ankles had normal movement range of plantarflexion and dorsiflexion. ConclusionThe free perforating branch flaps of the medial vastus muscle can be harvested easily, and have the advantage of good texture and abundant donor site.
Objective To investigate the method and effectiveness of V-U-shaped flaps in repairing soft tissue defect of the fingertip. Methods Between January 2006 and February 2011, 47 patients (55 fingers) with soft tissue defect of fingertip were treated by using the V-U-shaped flaps. There were 25 males and 22 females, aged 18 to 35 years (mean, 26 years). The injury was caused by cuts in 21 cases and avulsion in 26 cases. The time between injury and admission was 1 to 6hours with an average of 2.6 hours. The injured fingers included thumb (18 fingers), index finger (10 fingers), middle finger (10 fingers), ring finger (9 fingers), and l ittle finger (8 fingers). Forty-one fingers had skin avulsion of the distal interphalangeal joint with phalanx exposure, and 14 fingers had distal dactylopodite defect and second phalanx exposure. The size of wound ranged from 1.1 cm × 1.0 cm to 1.9 cm × 1.7 cm. The time between injury and first-stage operation was 2 to 7 hours with an average of 5 hours. In the first-stage operation, the pedicled flap was used to repair the defect of dactylopodite. Then at 3 weeks after the first-stage operation, one U-shaped flap and two V-shaped flaps were prepared to cover defect of the fingertips in the second-stage operation. Results At 2 days after the second-stage operation, congestion and bl isters occurred in 5 fingers, and were improved after symptomatic treatment. The other flaps survived, and wounds healed by first intention. Incisions at the donor site healed primarily. After the second-stage operation, 42 cases (50 fingers) were followed up 6 to 12 months (mean, 8.9 months). The appearance, texture, and color of the flaps were similar to normal skin. Injured fingers had tactile, pain, and thalposis, and the two point discrimination was 5-8 mm. At last follow-up, according to the functional assessment standards by the Chinese Medical Association Society of Hand Surgery of the upper l imbs, the results were excellent in 46 fingers and good in 4 fingers. Conclusion V-U-shaped flaps can be considered as an ideal method to repair soft tissue defect of the fingertip because of good appearance and function recovery.
Objective To investigate the appl ication and cl inical result of flap in the repair of wounds with Achilles tendon exposure. Methods Between May 2006 and May 2010, 21 patients with Achilles tendon skin defects were treated with microsurgical reconstruction. There were 15 males and 6 females, aged 7-63 years with a median of 34 years. The defect causesincluded sport injury in 4 cases, wheel twist injury in 7 cases, crush injury in 5 cases, chronic ulcer in 3 cases, and Achilles tendon lengthening in 2 cases. The areas of wounds with Achilles tendon exposure ranged from 2 cm × 2 cm to 10 cm × 8 cm. After debridement, wounds were repaired with the medial malleolus fasciocutaneous flap (5 cases), sural neurocutaneous vascular flap (8 cases), foot lateral flap (2 cases), foot medial flap (2 cases), and peroneal artery perforator flap (4 cases). The size of the flaps ranged from 3 cm × 3 cm to 12 cm × 10 cm. The donor sites were either sutured directly or covered with intermediate spl it thickness skin grafts. The Achilles tendon rupture was sutured directly (2 cases) or reconstructed by the way of Abraham (2 cases). Results All flaps survived and wounds healed by first intention except 2 flaps with edge necrosis. Twenty-one patients were followed up 6-18 months (mean, 12 months). The flaps had good appearance and texture without abrasion or ulceration. The walking pattern was normal, and the two point discrimination was 10-20 mm with an average of 14 mm. The Ameritan Orthopedic Foot and Ankle Society (AOFAS) Ankle-Hindfoot Scale assessment revealed that 10 patients had an excellent result, 7 had a good result, 3 had a fair result, and 1 had a poor result with an excellent and good rate of 81.0%. Fourteen cases could l ift the heels with power; 5 cases could l ift the heels without power sl ightly; and 2 cases could not l ift the heels. Conclusion The wounds with Achilles tendon exposure should be repaired as soon as possible by appropriate flap according to the condition of wound.
Objective To introduce the experience of the cl inical appl ication of vertical trapezius myocutaneous flap in repairing soft tissue defects after head and neck tumor resection. Methods Between June 2008 and February 2010, 12 cases of soft tissue defect caused by head and neck tumor resection were repaired with vertical trapezius myocutaneous flap.There were 9 males and 3 females with an age range from 32 to 76 years (median, 54 years). Twelve cases including 2 cases of basal cell carcinoma of orbital skin, 2 cases of squamous cell carcinoma of the parotid gland, 2 cases of submandibular gland mal ignant mixed tumor, 2 cases of metastatic lymph nodes of nasopharyngea carcinoma after radiotherapy, 1 case of squamous cell carcinoma of tongue, and 3 cases of squamous cell carcinoma of occipital skin, and all were classified as TNM stages T3 or T4. The area of soft tissue defect ranged from 13 cm × 6 cm to 25 cm × 13 cm. The vertical trapezius myocutaneous flap ranged from 14 cm × 7 cm to 26 cm × 14 cm and was transfered to repair defect tissue in the homolateral wounds after tumor resection and neck dissection homochronously. The donor sites were sutured directly. Results All incisions healed primarily without infection. Eleven flaps survived except 1 flap with edge necrosis, which was cured after dressing change. Subcutaneous hematocele and effusion occurred in 2 cases on the back after tube was removed at 7 days postoperatively, and they were cured by sucted and pressured dressing. Eleven patients were followed up 1-3 years (mean, 2 years). Nine cases had no tumor recurrence and the flaps had statisfactory appearance; the abduction function of shoulder joint were normal. One case of orbit basal cell carcinoma occurred 3 months after operation and 1 case of nasopharyngeal carcinoma died of brain metastasis 12 months after operation. Conclusion It is an easy and simple therapy to repair head and neck soft tissue defect using the vertical trapezius myocutaneous flap, which can meet the needs of repairing tissue defect of head and neck.
Objective To discuss the feasibil ity of repairing soft tissue defects of lower extremity with a distally based posterior tibial artery perforator cross-bridge flap or a distally based peroneal artery perforator cross-bridge flap. Methods Between August 2007 and February 2010, 15 patients with soft tissue defect of the legs or feet were treated. There were 14 males and 1 female with a mean age of 33.9 years (range, 25-48 years). The injury causes included traffic accident in 8 cases, crush injury by machine in 4 cases, and crush injury by heavy weights in 3 cases. There was a scar (22 cm × 8 cm atsize) left on the ankle after the skin graft in 1 patient (after 35 months of traffic accident). And in the other 14 patients, the defect locations were the ankle in 1 case, the upper part of the lower leg in 1 case, and the lower part of the lower leg in 12 cases; the defect sizes ranged from 8 cm × 6 cm to 26 cm × 15 cm; the mean interval from injury to admission was 14.8 days (range, 4-28 days). Defects were repaired with distally based posterior tibial artery perforator cross-bridge flaps in 9 cases and distally based peroneal artery perforator cross-bridge flaps in 6 cases, and the flap sizes ranged from 10 cm × 8 cm to 28 cm × 17 cm. The donor sites were sutured directly, but a spl it-thickness skin graft was used in the middle part. The pedicles of all flaps were cut at 5-6 weeks postoperatively. Results Distal mild congestion and partial necrosis at the edge of the skin flap occurred in 2 cases and were cured after dressing change, and the other flaps survived. After cutting the pedicles, all flaps survived, and wounds of recipient sites healed by first intention. Incisions of the donor sites healed by first intention, and skin graft survived. Fifteen patients were followed up 7-35 months with an average of 19.5 months. The color and texture of the flaps were similar to these of the reci pient site. According to American Orthopaedic Foot and Ankle Society (AOFAS) ankle and hindfoot score system, the mean score was 87.3 (range, 81-92). Conclusion A distally based posterior tibial artery perforator cross-bridge flap or a distally based peronealartery perforator cross-bridge flap is an optimal alternative for the reconstruction of the serious tissue defect of ontralateral leg or foot because of no microvascular anastomosis necessary, low vascular crisis risk, and high survival rate.
Objective To investigate the method and effectiveness of perforator flaps in repairing soft tissue defects of extremities. Methods Between June 2002 and December 2009, 81 patients with soft tissue defect of extremities were treated. There were 69 males and 12 females with an average age of 54 years (range, 13-75 years). Defect causes were injury in 35 cases (the disease duration ranged from 1 hour to 45 days), tumor resection in 19 cases, and scar resection in 27 cases. The defect located at limb and foot in 56 cases, forearm and hand in 25 cases. The defect size ranged from 3 cm × 3 cm to 23 cm × 18 cm. The perforator flaps included the peroneal artery perforator flap in 26 cases, the radial artery perforator flap in 18 cases, the medial plantar artery perforator flap in 18 cases, and the lateral circumflex femoral artery perforator flap in 19 cases. The flap size ranged from 4 cm × 3 cm to 25 cm × 18 cm. The donor site was sutured directly or repaired by free skin graft. Results Partial necrosis of the flaps occurred in 4 cases at 3-7 days after operation, then the flap survived after expectant treatment. The other flaps and free skin grafts survived successfully, and the incisions healed by first intention. All patients were followed up 1 to 16 months with an average of 9 months. The appearance, texture, and colour of the flaps were similar to those of the donor site. Conclusion It is an effective method to use the perforator flap for repairing soft tissue defect of the extremities.