Resection of a primary sarcoma of the diaphysis of a long bone creates a large defect. The biological options for reconstruction include the use of a vascularised and non-vascularised fibular autograft. The purpose of the present study was to compare these methods of reconstruction. Between 1985 and 2007, 53 patients (26 male and 27 female) underwent biological reconstruction of a diaphyseal defect after resection of a primary sarcoma. Their mean age was 20.7 years (3.6 to 62.4). Of these, 26 (49 %) had a vascularised and 27 (51 %) a non-vascularised fibular autograft. Either method could have been used for any patient in the study. The mean follow-up was 52 months (12 to 259). Oncological, surgical and functional outcome were evaluated. Kaplan–Meier analysis was performed for graft survival with major complication as the end point. At final follow-up, eight patients had died of disease. Primary union was achieved in 40 patients (75%); 22 (42%) with a vascularised fibular autograft and 18 (34%) a non-vascularised (p = 0.167). A total of 32 patients (60%) required revision surgery. Kaplan–Meier analysis revealed a mean survival without complication of 36 months (0.06 to 107.3, . sd. 9) for the vascularised group and 88 months (0.33 to 163.9, . sd. 16) for the non-vascularised group (p = 0.035). . Both groups seem to be reliable biological methods of reconstructing a diaphyseal bone defect. Vascularised autografts require more revisions mainly due to problems with wound healing in distal sites of tumour, such as the foot. Cite this article: Bone Joint J 2014;96-B:1258–63

Various kinds of bone have been used as a donor for vascularised bone grafts (VGF) to the upper extremities; among them the fibula has been widely used because of its structural characteristics and low donor site morbidity. Vascularised fibular graft is indicated in patients with large bone defects, bone tumour resection, established or infected non-union, congenital pseudarthrosis, avascular necrosis or bone defects surrounded by scarred, infected and poorly vascularised soft tissue or failure of conventional techniques. Between 1994 and 2003 nine patients were treated with vascularised fibular graft (VFG) and five for reconstruction of upper extremities defects, following trauma of the forearm with failure of conventional treatments. Four were male and one were female; the mean age was 32 years; the reconstructed sites were four radius and one ulna. The mean lengths of the bone defect was 9 cm. All patients were evaluated pre-operatively with angiography and/or magnetic resonance imaging. Two patients had a concomitant arthrodesis of the wrist. The bone graft was stabilised with plates (AO/LCP), screws, K-wires and the forearm was immobilised in plaster or with external fixation for several months. Cancellous iliac bone graft was packed about the proximal and distal junctions. In two recent cases autologous platelet gel was added at the sites of fixation. Bone healing was assessed clinically by the absence of pain and mobility on stress, and radiologically. Patients’ satisfaction and function results were assessed by the DASH questionnaire. After an average duration of follow-up of 48 months (from December 1996 to December 2003), all but one of the patients had radiographic evidence of osseous union of both bone junctions. All wounds healed primarily and no patient had problems related to the donor leg. Three patients had returned to their pre-injury occupation. Vascularised fibula transfer is a valuable technique for the reconstruction of extensive long-bone defects in the upper extremities. The fibula allows a transfer of a bone that is structurally similar to the radius and is of sufficient length for the reconstruction of most skeletal defects in the forearm. In these serious forearm injuries, rapidity of fracture healing is not the primary issue, but rather control of infection and bone stability. The only disadvantage of VFG is that it is more costly; because more technical expertise is required for the microvascular work and the operating time is extended. The reliability and the value of vascularised fibula transfer will increase, with further experience, careful patient selection and appropriate pre and post-operative technical details

The results and complications of 104 vascularised fibular grafts in 102 patients are presented. Bony union was ultimately achieved in 97 patients, with primary union in 84 (84%). The mean time to union was 15.5 weeks (8 to 40). In 13 patients, primary union was achieved at one end of the fibula and secondary union at the other end. In these patients, the mean time to union was 31.1 weeks (24 to 40). Five patients failed to achieve union, with a resultant pseudarthrosis (3 patients) or amputation (2 patients). There were various complications. Immediate thrombosis occurred in 14 cases. In two of 23 patients with osteomyelitis, infection recurred at two and six months after surgery, respectively. Both patients had active osteomyelitis less than one month before the operation. Bony infection occurred in a patient with a synovial sarcoma of the forearm one year after surgery. In 15 patients, 19 fractures of the fibular graft occurred after bony union, all except one within one year after union. In patients in whom an external fixator had been used, fracture occurred soon after its removal. Union was difficult to achieve in cases of congenital pseudarthrosis of the tibia. Appropriate alignment of the fibular graft is an important factor in preventing stress fracture. The vascularised fibula should be protected during the first year after union. Postoperative complications at the donor site included transient palsy of the superficial peroneal nerve in three patients, contracture of flexor hallucis longus in two and valgus deformity of the ankle in three. Vascularised fibular grafts are useful in the reconstruction of massive bony defects. We believe that meticulous preoperative planning, including choosing which vessels to select in the recipient and the type of fixation devices to use, and care in the introduction of the vascularised fibula, can improve the results and prevent complications

We describe our experience with vascularised bone grafting for the treatment of fibrous dysplasia of the upper limb in eight patients, five men and three women, aged between 17 and 36 years. The site was in the humerus in six and the radius in two. Persistent pain, progression of the lesion and pathological fracture with delayed union were the indications for surgical intervention. We used a vascularised fibular graft after curettage of the lesion. Function and radiological progress were serially monitored. Early radiological union of the graft occurred at periods ranging from 8 to 14 weeks. The mean period for reconstitution of the diameter of the bone was 14 months (12 to 18) predominantly through inductive formation of bone around the vascularised graft, which was a prominent feature in all patients. There were no recurrences and none of the grafts sustained a fracture or failed to unite. After operation function was excellent in three patients and good in five. Vascularised bone grafts provide a safe and reliable means of ensuring good continuity of bone with little risk of recurrence and failure

In our practice sequestration of the shafts of long bones in children because of acute osteomyelitis continues to be a problem. Conventional procedures for bone grafting are likely to fail. Vascularised grafts with microvascular anastomosis are technically demanding with a high rate of failure. Transfer of the rib on its vascular pedicle to achieve anterior fusion in the thoracic spine is now well established and the length of the pedicle available is adequate to allow grafting of a diaphyseal defect in the humerus. We describe the successful use of this procedure in two patients

Five children with congenital pseudarthrosis of the tibia treated by free vascularised fibular grafts were followed up until skeletal maturity. The ipsilateral fibula was used in four cases, the contralateral fibula in one. All our cases achieved bone union, but leg length discrepancy, atrophy of the foot and ankle stiffness were frequent complications, due perhaps to the many previous operations. Vascularised fibular grafting might achieve better results if it were done as the primary procedure

Purpose: Therapeutic options for shaft reconstruction are allografts, shaft prosthesis, and autografts, which may be vascularised or not. The purpose of this work was to assess mid-term results and complications after upper limb reconstructions using a vascularised fibula in children and adolescents undergoing surgery for tumour resection. Material and methods: A vascularised fibular graft was used for reconstruction in ten patients who underwent surgery for resection of upper limb tumours between 1994 and 2000. The patients were seven boys and three girls, aged seven to seventeen years. the vascularised fibula was used for reconstruction after tumour resection in the same operation for eight patients and to salvage a proximal humeral prosthesis in two patients. The eight single-procedure reconstructions concerned four resections of the humeral shaft and four resections of the radius. Tumour histology was: classical osteosarcoma (n=7), low-grade osteosarcoma (n=1), Ewing tumour (n= 1) and aggressive enchondroma (n=1). Six patients were on chemotherapy at the time of the fibular transfer. Graft lengths varied from nine to 21 cm (mean 14 cm). Plate fixation was used in most cases. All patients wore a cast for six to twelve weeks after surgery. Results: Results were analysed retrospectively after 3.9 years follow-up (range 1 – 7 years). Mean time to bone healing was three months (range 1.5 – 5 months). Five of the six humeral shaft reconstructions fractured due to trauma, requiring revision surgery in four cases. All patients who were reoperated achieved bone healing rapidly. One radius had to be revised to add supplementary bone. The mean functional score (MSTS) was 25.5/30 (range 21 – 30). One patient died from lung metastasis and the others exhibited complete tumour remission. Discussion: Vascularised fibula reconstruction of the upper limb provides good radiological results, particularly for the radius. For the humerus, the results are better for younger children because the bone can grow in thickness. Certain mechanical complications may occur if normal sports activities are resumed too early. Functional outcome after these shaft reconstructions is nearly normal

Vascularised soft tissue transfer may be helpful in the salvage of severe sepsis involving avascular tissues hosting joint replacements or other metal work. Transferred tissue covers the exposed implants and delivers intravenous antibiotics. Twenty-one cases for the knee, elbow and shoulder are presented. Gastrocnemius flaps were used for seven knee replacements and 10 knee fractures. Antegrade radial artery flaps were used for two elbow replacements. Pectoralis major or minor flaps were used for two shoulder replacements. All procedures were performed by an orthopaedic surgeon with supplementary plastics training. Synchronous bony surgery included revision arthroplasty in seven cases, conversion to fusion in one case and preservation of existing hardware in the remainder. Sepsis was eliminated in the longterm in 9 of 10 knee fracture fixation cases, 5 out of 7 knee replacements and both elbow replacements. Both shoulder replacements remained septic despite multiple repeat procedures. Complications included necrosis of two gastrocnemius flaps, one from pre-existing partial compartment syndrome and one when combined with fusion of the knee. One other knee replacement developed further sepsis three years post procedure. No limb required amputation. These procedures are well within the remit of orthopaedic surgeons, the non reliance on plastics surgeons allowed prompt treatment combined with bony procedures. Results were good for the knee and elbow but disappointing for the shoulder—this, probably related to the natural mobility of the joint

Vascularised bone grafts have been most commonly applied in reconstructions of the lower extremities. However, the indications for vascularised bone grafts in the upper extremities have now been expanded, as this technique is becoming more widely appreciated. Between 1993 and 2000, 12 patients who had segmental bone defects following trauma of the forearm received vascularised fibular grafts, among them six men and six women. The average age was 39 years (range 16–65 years). The reconstructed sites were the radius in eight patients and the ulna in four. The length of the bone defect ranged from 6 to 13 cm. In four cases the fibular graft was raised as a vascular osteoseptocutaneous fibular graft. For fixation of the grafted fibula, plates were used in ten cases, screws and Kirschner wires in two. In these two cases an external skeletal fixator was used for immobilisation of the extremity. The follow-up period ranged from 93 to 10 months. In 11 patients grafting was successful. There were no instances of fractures of the grafted bone; however, non-union occurred at the proximal site in one case and only one patient required an additional bone graft. No patient showed evidence of resorption of the graft or symptoms related to the donor leg. No recurrence of local infection was encountered in the patients with previous osteomyelitis. The mean period to obtain radiographic bone union was 4.8 months (range 2.5–8 months). With the use of fibular grafts a segment of diaphyseal bone can be transferred that is structurally similar to the radius and ulna and that is of sufficient length for the reconstruction of most skeletal defects in the forearm. A vascularised fibular graft is indicated in patients with intractable non-unions, where conventional bone grafting has failed or for large bone defects (in excess of 6 cm) in the radius or ulna

Purpose: To describe our experience with vascularised fibulas used in sarcoma limb salvage surgery using standardized patient outcome measures. Methods: All vascularised fibulas and osteochondral allografts performed in the Capital District Health authority were assessed. A complete chart review and current functional assessment of the patients using the Toronto Extremity Salvage score (TESS) and the Musculosketal Tumour Society (MSTS) score were performed. Results: Nineteen patients with 19 tumors were recorded. The tumors range from 11 osteosarcomas, 4 Ewing’s sarcoma, 3 Malignant Fibrous Histiocytoma’s and 1 Chondrosarcoma. Average age was 23. The patient demographics are 75% male, 42% smokers, 86% femoral lesions and 13 % presented with pathological fracture. There were 9 hip fusions, 3 knee fusions, 6 intercalary grafts and one osteochondral graft. There was 21 % mortality with 21% lung mets, 20% local recurrence, 15.7% rates of amputation or infection or and non union. Allograft fracture rates of 10% were noted. Two patients underwent numerous operations (18) due to non-compliance. Rate of surgical failures defined as patients requiring re-operation after 2 years is 21%. Of 19 patients 10 are working, 4 are unable and 4 are deceased and 1 lost to follow up. Average follow up is 9.8 years (range of 4–18). Our functional results include TESS averaging 57.5 with a range of 30–105 and MSTS scores of average of 16.8 with a range of 3–28 and a percent score average of 55.8. The average score on the subjective assessment question was 4 equaling a response of accept it and would do it again. The Halifax outcome and functional data corresponds well with that in the literature. Conclusions: The biological repair of a combination of large Allografts with Vascularised Fibula’s is an excellent long term solution for construct survival with unrestricted patient activity

Purpose: Reconstruction using a revascularised fibula has advantages in terms of remodelling the transplant to the stress forces and of better resistance against infections. Osteosynthesis offers mechanical advantages (stabilisaton facilitating primary and stress fracture healing) but with the risk of preventing hypertrophy of the fibula which is not exposed to the stress forces. Material and methods: Our series of 25 vascularised fibular transfers (maximum follow-up 15 years) concerned post-trauma tissue loss (11 cases) and tumour resections (14 cases). For this study of remodelling, we retained only oncological reconstructions because in the event of trauma sequelae, many factors can interfer (infection, preservation of the homolateral fibula with tibial tissue loss). None of the patients were lost to follow-up and remodelling was assessed at two years or more. Results: There was one failure requiring leg amputation (infected nonunion of the distal tibia on a radiated osteo-sarcoma). All the other fibulae healed. Three metaphyseal resections of the distal femur were assembled with a lateral plate using the fibula as a medial strut under compression. This type of assembly favours remodelling and excellent results were obtained in three cases. Five arthrodeses of the knee were performed using a fibula with a femorotibial nail. Healing was slow and the fibula thickened little, particularly when it was simply apposed on the tutor (three cases) rather than encased under compression (two cases). For five proximal humeri, use of a thin plate in three cases (forearm plate) was sufficient to allow healing without inhibiting remodelling. Discussion: For the lower limb, good remodelling is obtained with an assembly allowing compression of the fibula placed medially to the shaft alignment. For metaphyseal loss, we advise a lateral plate with a fibular strut medially. For arthrodesis, a nail is probably more prudent. The position of the lateral tutor decreases the stress on the fibula and is recommended less than the medial strut position. For the humerus, synthesis is required but may be minimal to allow optimal remodelling. Conclusion: Vascularised fibula transfer is a reliable technique which can be recommended for major resections (mean 160 mm) in active subjects. Axial compression forces applied to the graft and use of light osteosynthesis appear to favour healing and remodelling

Fibula autograft reconstruction, both vascularised (v) and non-vascularised (nv), has been established as a standard method in limb salvage surgery of bone and soft tissue tumours of the extremities. This study retrospectively analyses the results of fibula autograft procedures in general and in relation to vascular reconstruction or simple bone grafting. Since the implementation of the Vienna Tumour Registry in 1969, 26 vascularised and 27 non-vascularised fibula transfers have been performed at our institution in 53 patients, 26 males and 27 females with an average age of 21 years (range 4 to 62 years). Indications included osteosarcoma in 18, Ewing’s Sarcoma in 15, adamantinoma in 5, leiomyosarcoma in 3 and others in 12. Thirty patients were operated for reconstruction of the tibia (8v/22 nv), 7 for the femur (6v/1nv), 7 for defects of the forearm (4v/3nv), 5 for metarsal defects (all v), 3 for the humerus (1v/2nv) and one patient was treated for a pelvic defect (nv). Average follow-up was 63 months (range 2 to 259 months). 43 patients showed successful primary bony union of the autograft. In 12 cases pseudarthrosis indicated further surgical revision, 9 of these patients were primarily reconstructed by use of a nv autograft. 4 patients, 2 with v and 2 with nv reconstruction, suffered a fracture of the transplant and were operated for secondary osteosynthesis. 10 patients with v bone graft developed wound healing disturbances which led to surgery, 2 patients with nv grafts suffered such complications. In 2 patients recurrent infection of a nv and a v fibula transfer led to the implantation of a modular tumour prostheses or amputation, retrospectively. Function of all patients with primary bone healing was rated satisfactory. The use of fibula autograft in limb-salvage surgery under oncological conditions allows biological reconstruction with good functional outcome, especially when primary bone healing is achieved. Vascularised bone grafting seems to have a better outcome in terms of primary bone healing than simple fibula bone grafting, and thus represents a feasible choice in the reconstruction of bone defects from tumour resection

To determine union rate in complicated nonunions of the scaphoid treated with a vascularised bone graft. Vascularised bone grafting for scaphoid nonunions (1–2 ICSRA, Zaidemberg technique) has shown initial enthusiasm. Its usefulness has been challenged in cases where the proximal pole of the scaphoid is avascular. Complicated nonunions where the proximal pole is highly likely to be avascular occur in revision surgery and proximal pole nonunions. Fourteen patients were retrospectively followed up. Eight had nonunion following previous scaphoid surgery (two previous ORIF, two previous nonvascular grafting, and four with two previous surgeries). Six patients had no previous surgery for a proximal pole nonunion of 12.5 months’ duration. All patients were male with an average age of twenty-four. Delay from fracture to vascularised bone grafting was twenty months. Graft harvesting was done according to the Zaidemberg technique by two orthopaedic surgeons. CT-scan was used to confirm union in all patients except two who were lost of the follow-up. Twelve patients were followed up by an independent surgeon at a postoperative minimal period of four months. Functional status was assessed with the DASH questionnaire and follow x-rays were performed to determine the presence of degenerative changes. Union was confirmed by CT-scan in eleven of twelve followed patients (92%) at an average time of six months following vascularised graft. Radio-scaphoid osteoarthritis was seen in the one patient that didn’t achieve union. This series suggests that the Zaidemberg graft is useful and may be proposed in situations of revision surgery and proximal pole non-unions. We achieved a high union rate in these complicated nonunions even though there was high likelihood that the proximal pole was avascular. This study stresses the importance of protective immobilization until documented union by CT-scan in this difficult subset of patients

Autografts produced by recycling of tumor-bearing bone have been used for bridging intercalary bone defects but they are known to act as massive allografts after recycling procedures due to devitalisation. Recycled bone is superior to massive allografts since it allows anatomical reconstruction. Vascularised fibular grafts are inserted into recycled bone segments to provide biological support and to promote healing. Twelve patients with a mean age of 13.3 years (6–31), who had undergone curative resection of malignant bone tumor followed by biological reconstruction comprised of recycled bone combined with vascularised fibula, were followed up for a mean period of 16.8 (6–46). The tumor was located in distal femur in 7 patients, proximal femur in 2, proximal tibia in 2 and mid-diaphyseal tibia in 1. Cryopreservation with liquid nitrogen was employed for all patients. Contralateral single strut vascularised fibular grafts were used in all except one patient for whom bilateral fibula grafts were harvested to span a longer defect. Plates were used for fixation in 11 patients, and intramedullary nailing in one case. Mean length of bony defect was 16.1 cm (9.0–25.0). Mean fibular graft length was 17.5 cm (10.0–23.0 cm). Complete union and full weight bearing was achieved in 6 patients, and mean time to detect the commencement of union was 6 months (4–8). Incomplete union was detected in 4 patients and no union in 2. Five patients were complicated by implant failure, 1 with deep infection and 1 with drop foot. In order to fill large defects after resection of bone tumors, recyled bone combined with vascularised fibular graft is an effective reconstructive tool. Union rate of this technique is quite satisfactory with good functional results

The management of osteonecrosis of the femoral head ranges from symptomatic therapy to total hip replacement. Conservative treatment is effective only in small, early-stage lesions. Free vascularised fibular grafting has provided more consistently successful results than any other joint-preserving method. It supports the collapsing subchondral plate by primary callus formation, reduces intra-osseous pressure, removes and replaces the necrotic segment, and adds viable cortical bone graft plus fresh cancellous graft, which has osseoinductive and osseoconductive potential. Factors predisposing to success are the aetiology, stage and size of the lesion. Furthermore, it is a hip-salvaging procedure in early pre-collapse stages, and a time-buying one when the femoral head has collapsed.

Aim

Segmental bone defects following osteomyelitis in pediatric age group may require specifically designed surgical options. Clinical and radiographic elements dictate the option. Different elements play a role on the surgeon's choice. Among them, the size of the defect, the size and the quality of the bone stock available, the status of the skin envelope, the involvement of the adjacent joint. When conditions occur, vascularized fibula flap may represent a solution in managing defects of the long bones even during the early years of life.

Infected non-union after severe open fracture or unsuitable fracture operation is frequently associated with bone defect and its treatment has been controversial. We have used microsurgical vascularised composite graft for these problematic cases. Fifty one patients aged 17∼70 year old (43.6 years old in average), including 41 men and 10 women. Follow-up has been more than 6 months. The vascularised composite graft included a free fibular osteocutaneous flap in 41 cases, a vascular pedicled fibular osteocutaneous flap in 2 cases, a free iliac osteocutaneous flap in 5 cases, a vascularised cutaneous flap in 2 cases and other in one case. All infected non-unions were united without trouble and co-existing infection was successfully eradicated. This method also enables the patients rapid bone union and subsequent early functional recovery. This success was attributed to greater transport of oxygen and good antibiotic perfusion in presence of good blood supply. We conclude that microsurgical vascularised composite graft for infected non-union is an extremely useful method with early bone union and subsidence of infection.

From 1979 to 1990 we treated 20 patients with large bone defects or established nonunion of the femur by vascularised fibular grafts. There were 18 men and two women with an average age at operation of 36.6 years (16 to 69). Ten patients had infected nonunion, three had post-traumatic nonunion or a bone defect without infection, four had a defect after tumour resection, and three had other lesions. The mean length of the fibular grafts was 18.1 cm. Postoperative circulatory disturbances needed revision surgery in five patients, including three with circulatory problems in the monitoring flap, but not at their anastomoses. The outcome was successful in 19 of the 20 patients with bone union at means of 6.1 months at the proximal site and 6.6 months at the distal site. Three patients had fractures of the fibular grafts but all these united in two to three months after cast immobilisation.

The results of vascularised rib graft transfers are analysed in 25 patients followed up for more than two years (average 34 months). Radiographs showed early and rapid incorporation of the grafts in 4 to 16 weeks (average 8.5 weeks); external immobilisation averaged 11 weeks (range 5 to 24 weeks). The technique seems a useful alternative to allografts or homografts employing an avascular rib or fibula since it promotes rapid healing without needing microsurgical techniques.

Introduction and Objectives: Muscular neurotisation is one of the reconstructive techniques used in peripheral nerve surgery. A funded study was designed to evaluate function and maturation of the motor endplate in reconstructions done using free and vascularized nerve grafts.

Materials and Methods: An experiment was designed with 3 groups of female Wistar rats: a control group which underwent heterotopic neurotization of the superior gastrocnemius through the peroneal nerve. Group A consisted of 25 animals (free nerve graft, FNG) which underwent neurotisation of the gastrocnemius using an autologous EPS nerve graft. Group B consisted of 25 animals (vascularised nerve grafts, VNG) which underwent neurotisation of the gastrocnemius using vascularized peroneal nerve grafts. Animals were sacrificed and studied in groups of 5 individuals at 4, 8, 12, 16, and 20 weeks. Results were obtained using electromyographic and nervous conduction studies measuring graft conduction latency, motor action potential, and wave duration. Statistical analysis was done using Student’s t-test, Wilcoxon, Kruskal–Wallis, and Mann-Whitney U tests.

Results: Latency: There was no difference in latency between VNG and FNG groups except during the first and last month, although latencies tended to shorten and approach normal values. There was no difference in the control group. Amplitude: The FNG group never showed a normal amplitude, while the VNG group did only in the fifth month. No difference was noted between the control and VNG group in the first month. Potential duration: This parameter normalised in the VNG group in the fifth month but never normalised in the FNG group. In fact, during the fifth month there was no difference between the VNG and control groups, and by the second month, it was different from the FNG group.

Discussion and Conclusions: 1) There was no significant difference between FNG and VNG neurotisation in conduction latency as measured by nerve fiber conduction speed or motor unit excitement. 2) There was no significant difference in conduction amplitude between FNG and VNG as measured by the number of excited motor units. 3) There was a statistically significant difference in motor action potential duration between the FNG and VNG groups, with a shorter duration in the VNG group as measured by synchrony and maturation of motor unit conduction.