INTRODUCTION: Among bone reconstruction techniques, the induced membrane technique, proposed in 1986 by Masquelet, has rarely been studied or evaluated in the surgical literature until recently. The 2010 French Society of Orthopaedic Surgery and Traumatology (SoFCOT) Annual Convention symposium was the occasion to evaluate a large cases series having used this technique. PATIENTS AND METHODS: This retrospective study included 84 posttraumatic diaphyseal long bone reconstructions using the induced membrane technique (1988-2009). The series included 79 men and five women (mean age 32-year-old). In 89% of cases, the initial trauma was an open fracture. The leg was involved in 70% of cases. The mean delay between the accident and treatment of bone defects (BD) was 8 months. In 50% of the cases, infection was present. Bone defects were larger than 5cm in 57% of the cases. RESULTS: Union was obtained in 90% of cases, a mean 14.4 months after the first stage of the reconstruction. A mean 6.11 interventions were necessary to obtain union. Malalignment was present in 17% of cases. Delayed interventions to correct deformities mostly of the foot were necessary in 16% of the cases. Eight failures (10%) involved severe leg traumas associating extensive bone defects, soft tissue lesions and infection and required amputation in six cases. DISCUSSION: This series emphasizes the severity of open fractures of the leg, especially those with primary or secondary infection. The induced membrane technique has been shown to be effective in treating bone defects, regardless of their magnitude. In a two-step procedure, this simple but demanding technique, which may be more complicated when repair of soft tissue is necessary, provides successful treatment in case of initial infection and fulfills the goal of controlling infection before bone reconstruction. Moreover, the induced membrane technique can be integrated in hybrid reconstruction procedures. LEVEL OF EVIDENCE: Level IV. Retrospective study.
INTRODUCTION: Among bone reconstruction techniques, the induced membrane technique, proposed in 1986 by Masquelet, has rarely been studied or evaluated in the surgical literature until recently. The 2010 French Society of Orthopaedic Surgery and Traumatology (SoFCOT) Annual Convention symposium was the occasion to evaluate a large cases series having used this technique. PATIENTS AND METHODS: This retrospective study included 84 posttraumatic diaphyseal long bone reconstructions using the induced membrane technique (1988-2009). The series included 79 men and five women (mean age 32-year-old). In 89% of cases, the initial trauma was an open fracture. The leg was involved in 70% of cases. The mean delay between the accident and treatment of bone defects (BD) was 8 months. In 50% of the cases, infection was present. Bone defects were larger than 5cm in 57% of the cases. RESULTS: Union was obtained in 90% of cases, a mean 14.4 months after the first stage of the reconstruction. A mean 6.11 interventions were necessary to obtain union. Malalignment was present in 17% of cases. Delayed interventions to correct deformities mostly of the foot were necessary in 16% of the cases. Eight failures (10%) involved severe leg traumas associating extensive bone defects, soft tissue lesions and infection and required amputation in six cases. DISCUSSION: This series emphasizes the severity of open fractures of the leg, especially those with primary or secondary infection. The induced membrane technique has been shown to be effective in treating bone defects, regardless of their magnitude. In a two-step procedure, this simple but demanding technique, which may be more complicated when repair of soft tissue is necessary, provides successful treatment in case of initial infection and fulfills the goal of controlling infection before bone reconstruction. Moreover, the induced membrane technique can be integrated in hybrid reconstruction procedures. LEVEL OF EVIDENCE: Level IV. Retrospective study.
Authors: Sarah McBride-Gagyi; Zacharie Toth; Daniel Kim; Victoria Ip; Emily Evans; John Tracy Watson; Daemeon Nicolaou Journal: J Orthop Res Date: 2018-02-09 Impact factor: 3.494
Authors: Mario Ronga; Mario Cherubino; Katia Corona; Alessandro Fagetti; Barbara Bertani; Luigi Valdatta; Redento Mora; Paolo Cherubino Journal: Int Orthop Date: 2018-10-02 Impact factor: 3.075