Objective To introduce the clinical experience of localdistally based turnover adipofascial flap for small to medium size wound of the extremities. Methods From 1994 to 2003, 33 cases of distally based longitudinal neuro-veno-adipofascial turnover adipofascial flap (axial perforator pattern in26, random pattern in 7) were transferred in the forearm (19) and lower leg (14).These flaps were all raised in the forearm or lower leg as local flaps. The length (pedicle plus flap) was 9 to 18 cm and the width was 3 to 4 cm, with L/W ratio of 3 to 5∶1. After transferring by 180° turnover, a splitthickness skin graft was used tocover the fascia surface. Results All the 33 flaps survived. The donor sites were closed directly, and the recipient sites were covered with full-or splitthickness skin grafts. Both donor and recipient sites healed primarily. Conclusion Turnover adipofascial flap is a simple and reliable method for small to medium size wound of the extremities.
Objective To estimate clinical effect ofspin iliac deep vascular pedicled periosteum flap in repairing traumatic femoral neck of theca inside fracture in young and middleaged. Methods From April 1993 to September 2001, 12 cases of traumatic femoral neck fracture were given diaplastic operation with fixation of 3 centre hollow pressed bolt and were conducted under os traction bed and "C" arm X-ray machine. Spin iliac deep vascular pedicled periosteum flap wasstripped off, and transferred to the front of femoral neck fundus,then transplanted to the narrow inside of fracture through outer open door of articular capsule.Results All patients were followed up for 17 years. All fracture healedwithout femoral head necrosis, but mild arthritis appeared in 7 cases.Conclusion Vascular pedicled periosteum flap transfer of young and middle-aged femoral neck fracture, by decompression of femoral neck and reconstruction of blood circulation, can promote the fracture healing and decrease the wound and blood circulation destroy.
Objective To assess the long-time results of reconstruction of the extensor pollicis longus (EPL) function by transfer of the extensorindicis(EI). Methods From August 1978 to March 2003, 46 cases of loss of the EPL function were treatedby transfer of the extensor indicis. Of 46 cases, there were 32 males and 14 females, aged 16-51 years with an average of 36 years; there were 24 cases of oldtraumatic rupture and 22 cases of secondary rupture. The disease course was 2 days to 5 months, averaged 74 days. A specific EIEPL evaluation method (SEEM) wasused to measure the EPL function after transfer.Results Fortyone cases were followed up 9 years and 3 months on average (7 months to 23 years). Based on the SEEM, the results were excellent and good in 39 of 41 patients. The elevation deficit and combined flexion deficit were 0-2.2 cm (1.8 cm on average) and 0-3 cm (1.6 cm on average); the independent extension deficit was 0°-8° (5° on average). Conclusion Restoration of the extensor pollicis function by transfer of the extensor indicis is an effective and safe treatment option and the SEEM is a valid method for assessing EPL function.
Objective To investigate the influence of the exogenouscollagen on the function of cells in construction of artificial biotendon.Methods Three materials including human hair, carbon fiber(CF) and polyglycolic acid (PGA) were combined with exogenous collagen and co-cultured with standard transferred human embryonic tenocytes at a concentration of 3×106/mm3 in vitro. The cell number and morphology were observed under inverted microscope and scanning electron microscope after 2 hours, 3 days and 5 days.Results In the artificial biotendon combined with collagen, the cells concentrated around the materials and the cells adhering to the materials turned into round after 2 hours. After 3 days, the adhering cells increased. After 5 days, the shape of the cells changed from round to spindle.ConclusionExogenous collagen will facilitate the cells to adhere onto materials and proliferate.
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.
OBJECTIVE To investigate the therapeutical effect of treatment of ischemic necrosis of femoral head by the transfer of vascular pedicled iliac periosteum. METHODS From June 1983 to August 1997, 106 cases with ischemic necrosis of femoral head (II stage in 64 cases, III stage in 39 cases, IV stage in 3 cases) were treated by the transfer of vascular pedicled iliac periosteum with ascending branch of lateral femoral circumflex vessel or deep circumflex iliac vessel pedicle. RESULTS Followed up 2 years and 4 months to 16 years, there were excellent in 54 cases, better in 38 cases, moderate in 9 cases, poor in 5 cases, and 86.8% in excellent rate according to the criterion of the therapeutical effect on the repair and reconstruction of adult ischemic necrosis of femoral head. CONCLUSION Treating ischemic necrosis of femoral head by the transfer of vascular pedicled iliac periosteum has the advantage of constant pedicle, easily drawing materials and reliable therapeutical effect.
OBJECTIVE: To evaluate the clinical application of primary transfer of pectoralis major to reconstruct the elbow flexion and shoulder abduction. METHODS: 12 cases of old injury of branchial plexus with dysfunction of both elbow and shoulder joints were received surgical operation to reconstruct the palsy joints by primary transfer of pectoralis major, shoulder abduction was reconstructed by clavicular head and elbow flexion by sternal head respectively. All cases were followed up for 5 to 18 months. RESULTS: The function of both joints recovered obviously, the total superior rate is 91.7%. CONCLUSION: Only if the palsy joints, shoulder or elbow, remained normal or almost normal passive motion, and the muscle power of pectoralis major over 4 degrees, the primary transfer of pectoralis major should be a simple, reliable and convenient technique to reconstruct the palsy joints.
Abstract A doublepediculated randomized flap parallal to the longitudinal axis of the extremity was designed. The skin and the subcutaneous tissue superficial to the deep fascia was incised on both sides of the axis of the flap. The subcutaneous tissue was separated from the deep fascia. The two ends of the flap should not be incised, thus a bipolar doulepediculated flap was formed. A silicone membrane was placed under the flap toobstruct the blood supply of the flap partially so that the delay effect was created. After 10~14 days, one end of the pedicles was divided so thata pediculated superlong randomized flap was formed. The flap was transferred to cover the wound on the recipient area. The wound on the donor site was closed directly or covered by split skin graft. From Janurary 1991 to July 1994,this technique was used in 8 patients (male 6, female 2). The age averaged 30 years old. These cases included 5 cases of fracture complicated with skin defect or scar on leg and 3 cases of crashing injury of the lower extremity. The length and width of the flap and the width of the pedicle ranged from 20cm×7cm×4cm to 29cm×10cm×3cm respectively. The flaps were completely survived after operation. The wound and the exposed deep tissues such as bone, tendon, nerve and vessels were covered and repaired. As a consequence that the pediculated superlong randomized flap was effective in repairing soft tissue defect.
From 1984 to 1993, 49 cases with varioussoft tissue defects around the knee were treated with pedicled calf myocutaneous flap, lateral sural cutaneous artery island skin flap, saphenous neurovascularskin flap and fasciocutaneous flap. The postoperation results were sucessful in 47 cases, and failure 2 cases, in one case with flap infection and theother with scar formation surrounding the knee. Both the failure cases were cured with split skin graft. The patient were followed up for an average of three and a halfyears, the knee function was almost completely regained, and the blood supply of the flaps, the elasticity and colour of the flaps were similiar to that of the normal skin, without being cumbersome. The sensation of the saphenous neurovascular flaps and the lateral suralcutaneous artery island flaps was preserved, except partial numbness was presented at the distal part of the flaps. Operative indications and selection of cases were discussed.
Greater omentum was chosen to treat chronic osteomyelitis in 12 cases. The involved bones included cranium in 5, tibia and fibula in 4 and metatarsus in 3. After thorough debridement, all patients had partial defects of bone, skin and soft tissue. The defect was filled with vascularized autogenous greater omentum by anastomosing with the host vessels. Theskin defect was covered with medium-thickness skin graft. After 3~9 years follw-up, no recurrence of osteomyelitis and no abdominal symptoms were observed in 11 cases. The osteomyelitis recurred in 1 case at 4 months after operation and died of squamous carcinoma 1 year later. It was suggested that transfer of vascularizedautogenous greater omentum was valuable in treating chronic osteomyelitis.