Anterior versus posterior approach in reconstruction of infected nonunion of the tibia using the vascularized fibular graft: potentialities and limitations

The potentialities, limitations, and technical pitfalls of the vascularized fibular grafting in infected nonunions of the tibia are outlined on the basis of 14 patients approached anteriorly or posteriorly. An infected nonunion of the tibia together with a large exposed area over the shin of the tibia is better approached anteriorly. The anastomosis is placed in an end‐to‐end or end‐to‐side fashion onto the anterior tibial vessels. To locate the site of the nonunion, the tibialis anterior muscle should be retracted laterally and the proximal and distal ends of the site of the nonunion debrided up to healthy bleeding bone. All the scarred skin over the anterior tibia should be excised, because it becomes devitalized as a result of the exposure. To cover the exposed area, the fibula has to be harvested with a large skin paddle, incorporating the first septocutaneous branch originating from the peroneal vessels before they gain the upper end of the flexor hallucis longus muscle. A disadvantage of harvesting the free fibula together with a skin paddle is that its pedicle is short. The skin paddle lies at the antimesenteric border of the graft, the site of incising and stripping the periosteum. In addition, it has to be sutured to the skin at the recipient site, so the soft tissues (together with the peroneal vessels), cannot be stripped off the graft to prolong its pedicle. Vein grafts should be resorted to, if the pedicle does not reach a healthy segment of the anterior tibial vessels. Defects with limited exposed areas of skin, especially in questionable patency of the vessels of the leg, require primarily a fibula with a long pedicle that could easily reach the popliteal vessels and are thus better approached posteriorly. In this approach, the site of the nonunion is exposed medial to the flexor digitorum muscle and the proximal and distal ends of the site of the nonunion debrided up to healthy bleeding bone. No attempt should be made to strip the scarred skin off the anterior aspect of the bone lest it should become devitalized. Any exposed bone on the anterior aspect should be left to granulate alone. This occurs readily when stability has been regained at the fracture site after transfer of the free fibula. The popliteal and posterior tibial vessels are exposed, and the microvascular anastomosis placed in an end‐to‐side fashion onto either of them, depending on the length of the pedicle and the condition of the vessels themselves. To obtain the maximal length of the pedicle of the graft, the proximal osteotomy is placed at the neck of the fibula after decompressing the peroneal nerve. The distal osteotomy is placed as distally as possible. After detaching the fibula from the donor site, the proximal part of the graft is stripped subperiosteally, osteotomized, and discarded. Thus, a relatively long pedicle could be obtained. To facilitate subperiosteal stripping, the free fibula is harvested without a skin paddle. In this way, the use of a vein graft could be avoided. Patients presenting with infected nonunions of the tibia with extensive scarring of the lower extremity, excessively large areas of skin loss, and with questionable patency of the anterior and posterior tibial vessels are not suitable candidates for the free vascularized fibular graft. Although a vein graft could be used between the recipient popliteal and the donor peroneal vessels, its use decreases flow to the graft considerably. These patients are better candidates for the Ilizarov bone transport method with or without free latissimus dorsi transfer. © 2002 Wiley‐Liss, Inc. MICROSURGERY 22:91–107 2002

[1]  J. Hermans,et al.  Reconstruction of large skeletal defects by vascularized fibula transfer , 1990, International Orthopaedics.

[2]  D. Ring,et al.  Infected nonunion of the tibia. , 1995, Clinical orthopaedics and related research.

[3]  Seum Chung,et al.  Ipsilateral Island Fibula Transfer for Segmental Tibial Defects: Antegrade and Retrograde Fashion , 1998, Plastic and reconstructive surgery.

[4]  J Aronson,et al.  Limb-lengthening, skeletal reconstruction, and bone transport with the Ilizarov method. , 1997, The Journal of bone and joint surgery. American volume.

[5]  J. Nunley,et al.  Treatment of Segmental Defects of the Radius with Use of the Vascularized Osteoseptocutaneous Fibular Autogenous Graft* , 1997, The Journal of bone and joint surgery. American volume.

[6]  E. Chao,et al.  Free vascularised fibular grafting for reconstruction after tumour resection. , 1997, The Journal of bone and joint surgery. British volume.

[7]  P. Hudak,et al.  Microsurgical Treatment of Septic Nonunion of the Tibia: Quality of Life Results , 1996, Clinical orthopaedics and related research.

[8]  R. Feibel,et al.  Combined Muscle Flap and Ilizarov Reconstruction for Bone and Soft Tissue Defects , 1996, Clinical orthopaedics and related research.

[9]  T. Vail,et al.  Donor-Site Morbidity with Use of Vascularized Autogenous Fibular Grafts* , 1996, The Journal of bone and joint surgery. American volume.

[10]  R. Pho,et al.  Infection of Vascularized Fibular Grafts , 1996, Clinical orthopaedics and related research.

[11]  R. Jakob,et al.  Use of the ipsilateral vascularised fibula for tibial reconstruction. , 1995, The Journal of bone and joint surgery. British volume.

[12]  A. Schmidt,et al.  [Comparison of donor defects of fibula and iliac crest grafts]. , 1995, Handchirurgie, Mikrochirurgie, plastische Chirurgie : Organ der Deutschsprachigen Arbeitsgemeinschaft fur Handchirurgie : Organ der Deutschsprachigen Arbeitsgemeinschaft fur Mikrochirurgie der Peripheren Nerven und Gefasse : Organ der V....

[13]  F. Wei,et al.  Reconstruction of four damaged or destroyed ipsilateral fingers with free toe-to-hand transplantations. , 1994, Plastic and reconstructive surgery.

[14]  F. Wei,et al.  Fibula Osteoseptocutaneous Flap for Reconstruction of Composite Mandibular Defects , 1994, Plastic and reconstructive surgery.

[15]  J. Nunley,et al.  Secondary reconstruction after vascularized fibular transfer. , 1993, The Journal of bone and joint surgery. American volume.

[16]  M. Joyce,et al.  Open tibial fractures with severe soft-tissue loss. Limb salvage compared with below-the-knee amputation. , 1993, The Journal of bone and joint surgery. American volume.

[17]  D. Rosenthal,et al.  Free vascularized fibular grafts: radiographic evidence of remodeling and hypertrophy. , 1993, AJR. American journal of roentgenology.

[18]  R. Pigott,et al.  A computer-aided method of measuring nasal symmetry in the cleft lip nose. , 1993, British journal of plastic surgery.

[19]  P. Townsend,et al.  The morbidity of the free vascularised fibula flap. , 1993, British journal of plastic surgery.

[20]  H. Yajima,et al.  Vascularised fibular grafts for reconstruction of the femur. , 1993, The Journal of bone and joint surgery. British volume.

[21]  S. Hou,et al.  Reconstruction of skeletal defects in the femur with 'two-strut' free vascularized fibular grafts. , 1992, The Journal of trauma.

[22]  S. S. Kroll,et al.  Immediate breast reconstruction: why the free TRAM over the conventional TRAM flap? , 1992, Plastic and reconstructive surgery.

[23]  K. Ikeda,et al.  Long-term follow-up of vascularized bone grafts for the reconstruction of tibial nonunion: evaluation with computed tomographic scanning. , 1992, The Journal of trauma.

[24]  P. Manson,et al.  Microvascular Soft‐Tissue Transplantation for Reconstruction of Acute Open Tibial Fractures: Timing of Coverage and Long‐Term Functional Results , 1992, Plastic and reconstructive surgery.

[25]  M. Miller,et al.  The osteocutaneous free fibula flap: is the skin paddle reliable? , 1992, Plastic and reconstructive surgery.

[26]  J. Goh,et al.  Donor site morbidity following resection of the fibula. , 1990, The Journal of bone and joint surgery. British volume.

[27]  J. May,et al.  Clinical classification of post-traumatic tibial osteomyelitis. , 1989, The Journal of bone and joint surgery. American volume.

[28]  H. de Boer,et al.  Bone changes in the vascularised fibular graft. , 1989, The Journal of bone and joint surgery. British volume.

[29]  D. Mears,et al.  The "double barrel" free vascularized fibular bone graft. , 1988, Plastic and reconstructive surgery.

[30]  D. Macdonald,et al.  The blood supply of the osteocutaneous free fibular graft. , 1988, The Journal of bone and joint surgery. British volume.

[31]  D. Harrison The osteocutaneous free fibular graft. , 1986, The Journal of bone and joint surgery. British volume.

[32]  Ch'en Hc,et al.  Fibular osteoseptocutaneous flap: anatomic study and clinical application. , 1986 .

[33]  A. Weiland,et al.  The efficacy of free tissue transfer in the treatment of osteomyelitis. , 1984, The Journal of bone and joint surgery. American volume.

[34]  M. Yoshimura,et al.  Free vascularized fibular transplant. A new method for monitoring circulation of the grafted fibula. , 1983, The Journal of bone and joint surgery. American volume.

[35]  J. May,et al.  Microvascular transfer of free tissue for closure of bone wounds of the distal lower extremity. , 1982, The New England journal of medicine.

[36]  R. Pho Malignant giant-cell tumor of the distal end of the radius treated by a free vascularized fibular transplant. , 1981, The Journal of bone and joint surgery. American volume.

[37]  A. Weiland Current concepts review: vascularized free bone transplants. , 1981, The Journal of bone and joint surgery. American volume.

[38]  A. Weiland,et al.  Microvascular anastomoses for bone grafts in the treatment of massive defects in bone. , 1979, The Journal of bone and joint surgery. American volume.

[39]  G. I. Taylor,et al.  THE FREE VASCULARIZED BONE GRAFT: A Clinical Extension of Microvascular Techniques , 1975, Plastic and reconstructive surgery.