Management of infected bone defects of the femoral shaft by Masquelet technique: sequential internal fixation and nail with plate augmentation.

BACKGROUND: To evaluate the effectiveness of a sequential internal fixation strategy and intramedullary nailing with plate augmentation (IMN/PA) for bone reconstruction in the management of infected femoral shaft defects using the Masquelet technique. METHODS: We performed a retrospective descriptive cohort study of 21 patients (mean age, 36.4 years) with infected bone defects of the femoral shaft treated by the Masquelet technique with a minimum follow-up of 18 months after second stage. After aggressive debridement, temporary stabilisation (T1) was achieved by an antibiotic-loaded bone cement spacer and internal fixation with a bone cement-coated locking plate. At second stage (T2), the spacer and the locking plate were removed following re-debridement, and IMN/PA was used as definitive fixation together with bone grafting. We evaluated the following clinical outcomes: infection recurrence, bone union time, complications, and the affected limb's knee joint function. RESULTS: The median and quartiles of bone defect length was 7 (4.75-9.5) cm. Four patients required iterative debridement for infection recurrence after T1. The median of interval between T1 and T2 was 10 (9-19) weeks. At a median follow-up of 22 (20-27.5) months, none of the patients experienced recurrence of infection. Bone union was achieved at 7 (6-8.5) months in all patients, with one patient experiencing delayed union at the distal end of bone defect due to screws loosening. At the last follow-up, the median of flexion ROM of the knee joint was 120 (105-120.0)°. CONCLUSIONS: For infected femoral shaft bone defects treated by the Masquelet technique, sequential internal fixation and IMN/PA for the reconstruction can provide excellent mechanical stability, which is beneficial for early functional exercise and bone union, and does not increase the rate of infection recurrence.

Satisfactory results in five patients with septic clavicle nonunion using the modified Masquelet technique and structural iliac crest autograft.

Background: Indications for clavicle fracture fixation have increased dramatically over the last 20 years. Chronic surgical site infection is a particularly severe complication arising from this procedure and can induce nonunion and clinical disability. In such cases, the modified Masquelet technique using an iliac crest autograft (cancellous or tricortical) enables treatment of any bone infection as well as reconstruction of the segmental defect. The aim of this study was to analyze the clinical and radiological results of this procedure at mid-term follow-up. Methods: In this monocentric retrospective study, patients suffering from a septic clavicle nonunion were treated with a modified Masquelet technique and reviewed at a minimum follow-up point of two years. They were clinically assessed using active range of motion, pain score (visual analog scale 0 to 10), Constant score, American Shoulder and Elbow Surgeons score, and subjective shoulder value score. Bone healing was measured using standard X-rays and CT scans. Results: Five patients were included (mean age 49 years; range 30 to 62). C. acnes was involved in 80% (n = 4) of these cases. Following the first stage of treatment, the mean bone defect was 3.4 cm (range 2.6 to 6.4 cm). The second stage, performed at a minimum of six weeks (mean 7 ± 1 weeks), used an iliac crest bone autograft in all cases. At a mean follow-up of 5 ± 3 years, the mean pain score was 0.3/10 points (0 to 1), the mean Constant score was 86 points (78 to 96), the mean American Shoulder and Elbow Surgeons score was 98 ± 2%, and the subjective shoulder value score 91 ± 11%, with two "forgotten shoulders" out of five. On CT scan analysis, bone healing was achieved in 100% of cases. One plate (20%) was removed one year following the procedure due to the patient's discomfort; pain and discomfort at the iliac crest site were reported in 5/5 (100%) patients. Conclusion: The modified Masquelet technique using an iliac crest autograft is a reliable and effective technique for treating septic nonunion of the clavicle. It both treats the bony defect and eradicates infection when conducted in association with débridement and antibiotics. In the five cases reported here, this approach had satisfactory results, both subjectively and objectively, with a very low reoperation rate despite persistent pain from iliac bone harvesting.

Hemi-Masquelet technique and nailing in a circumferential bone defect of 7 cm after open femoral shaft fracture. A case report.

The treatment of Gustilo-Anderson type III open femoral fracture with large segmental bone defect remains a challenge for orthopedic trauma surgeons. The aims of management are first to prevent the risk of infection and then to reconstruct the bone loss with correct alignment and length. The induced membrane technique (or Masquelet technique) was initially described for tibia nonunion but became over the years an established procedure to treat any kind of large bone defect. The case of a 22-year old male who sustained an open femoral shaft fracture with a circumferential 7-cm bone defect after a car accident is presented. Given the critical size of the bone loss, we chose to manage this patient using a modified-Masquelet technique, in which we stabilized the fracture by an intramedullary femoral nail and filled only the lateral side of the defect with a cement spacer. He went on to have a full and successful union of his fracture 16-weeks after the second stage surgery. The final functional outcomes were excellent allowing the patient to resume all activities without restriction.

Membrane Formed Around Liquid Nitrogen-treated Bone Promotes Osteogenesis and Revitalization in a Rat Model.

BACKGROUND/AIM: This study aimed to investigate the structure and functions of the membrane formed around liquid nitrogen-treated bones in the osteogenesis and revitalization of frozen bone using a rat model. MATERIALS AND METHODS: Segmental defects were created in femurs of rats, and resected bones treated with liquid nitrogen [frozen bone (FB) group, n=20] or polymethylmethacrylate (PMMA group; n=20) were implanted as spacers. Histological analysis and quantitative real-time reverse transcription-polymerase chain reaction (qRT-PCR) of the membrane around each spacer were performed for bone morphogenetic protein 2 (BMP2), transforming growth factor (TGF)-ß1, and vascular endothelial growth factor (VEGF). Furthermore, in week 2, spacers were removed from both groups (n=5 each), and autologous cancellous bone (ACB) harvested from the ilium was grafted into the defect. Radiological analysis was performed until bone union was observed. RESULTS: In week 2, similar two-layered membrane structures were observed in both groups; these matured into fibrous tissues over time. At each evaluation point, qRT-PCR showed higher expression of all factors in the FB than in the PMMA group. In the ACB graft model, the mean period to bone union and new bone volume were significantly shorter and greater, respectively, in the FB. Chondrocytes invaded the osteotomy site from the membrane in the FB, suggesting that endochondral ossification may occur and be related to osteogenesis. Additionally, fibroblasts and capillaries in the membrane invaded the surface of treated bone in week 2, and osteocytes were observed around them in weeks 6 and 8. CONCLUSION: Fibrous membranous tissue formed around liquid nitrogen-treated bones may be vital for osteogenesis and revitalization of frozen bones.

Modified and alternative bone cements can improve the induced membrane: Critical size bone defect model in rat femur.

BACKGROUND: As a two-stage surgical procedure, Masquelet's technique has been used to care for critical-size bone defects (CSD). We aimed to determine the effects of modified and altered bone cement with biological or chemical enriching agents on the progression of Masquelet's induced membrane (IM) applied to a rat femur CSD model, and to compare the histopathological, biochemical, and immunohistochemical findings of these cements to enhance IM capacity. METHODS: Thirty-five male rats were included in five groups: plain polymethyl methacrylate (PMMA), estrogen-impregnated PMMA (E+PMMA), bone chip added PMMA (BC+PMMA), hydroxyapatite-coated PMMA (HA) and calcium phosphate cement (CPC). The levels of bone alkaline phosphatase (BALP), osteocalcin (OC), and tumor necrosis factor-alpha (TNF-α) were analyzed in intracardiac blood samples collected at the end of 4 weeks of the right femur CSD intervention. All IMs collected were fixed and prepared for histopathological scoring. The tissue levels of rat-specific Transforming Growth Factor-Beta (TGF-ß), Runt-related Transcription Factor 2 (Runx2), and Vascular Endothelial Growth Factor (VEGF) were analyzed immunohistochemically. RESULTS: Serum levels of BALP and OC were significantly higher in E+PMMA and BC+PMMA groups than those of other groups (P = 0.0061 and 0.0019, respectively). In contrast, TNF-α levels of all groups with alternative bone cement significantly decreased compared to bare PMMA (P = 0.0116). Histopathological scores of E+PMMA, BC+PMMA, and CPC groups were 6.86 ± 1.57, 4.71 ± 0.76, and 6.57 ± 1.51, respectively, which were considerably higher than those of PMMA and HA groups (3.14 ± 0.70 and 1.86 ± 0.69, respectively) (P < 0.0001). Significant increases in TGF-ß and VEGF expressions were observed in E+PMMA and CPC groups (P = 0.0001 and <0.0001, respectively) whereas Runx2 expression significantly increased only in the HA group compared to other groups (P < 0.0001). CONCLUSIONS: The modified PMMA with E and BC, and CPC as an alternative spacer resulted in a well-differentiated IM and increased IM progression by elevating BALP and OC levels in serum and by mediating expressions of TGF-ß and VEGF at the tissue level. Estrogen-supplemented cement spacer has yielded promising findings between modified and alternative bone cement.

Mechanisms of the Masquelet technique to promote bone defect repair and its influencing factors.

The Masquelet technique, also known as the induced membrane technique, is a surgical technique for repairing large bone defects based on the use of a membrane generated by a foreign body reaction for bone grafting. This technique is not only simple to perform, with few complications and quick recovery, but also has excellent clinical results. To better understand the mechanisms by which this technique promotes bone defect repair and the factors that require special attention in practice, we examined and summarized the relevant research advances in this technique by searching, reading, and analysing the literature. Literature show that the Masquelet technique may promote the repair of bone defects through the physical septum and molecular barrier, vascular network, enrichment of mesenchymal stem cells, and high expression of bone-related growth factors, and the repair process is affected by the properties of spacers, the timing of bone graft, mechanical environment, intramembrane filling materials, artificial membrane, and pharmaceutical/biological agents/physical stimulation.

A review of 10 patients treated with the masquelet technique and microsurgical technique combined for Gustilo type III open tibial fractures.

BACKGROUND: Open tibial fractures often include severe bone loss and soft tissue defects and requires complex reconstructive operations. However, the optimal treatment is unclear. METHODS: This retrospective study enrolled patients with Gustilo type III open tibial fractures from January 2018 to January 2021 to assess the clinical utility of Masquelet technique together with microsurgical technique as a combined strategy for the treatment of open tibial fractures. The demographics and clinical outcomes including bone union time, infection, nonunion and other complications were recorded for analysis. The bone recovery quality was evaluated by the AOFAS Ankle-Hindfoot Scale score and the Paley criteria. RESULTS: We enrolled 10 patients, the mean age of the patients and length of bone defects were 31.7 years (range, 23-45 years) and 7.5 cm (range, 4.5-10 cm) respectively. Bone union was achieved for all patients, with an average healing time of 12.2 months (range, 11-16 months). Seven patients exhibited a bone healing time of less than 12 months, whereas 3 patients exhibited a bone healing time exceeding 12 months. No significant correlation was found between the length of bone loss and healing time. In addition, no deep infection or nonunion was observed, although 2 patients experienced wound fat liquefaction with exudates and 1 patient presented with a bloated skin flap. The average AOFAS Ankle-Hindfoot Scale score was 80.5 (range, 74-85), and all patients were evaluated as good or exellent based on the Paley criteria. CONCLUSIONS: Our study indicated that the use of the Masquelet technique and the microsurgical technique as a combined strategy is safe and effective for the treatment of Gustilo type III open tibial fractures.

Unique Case of Accelerated Bone Growth Precipitating a One-Stage Masquelet: A Case Report.

Introduction: The masquelet technique is a two-stage procedure used by orthopedic surgeons to treat large segmental bone defects secondary to infection, trauma, and tumor resection. This technique characteristically requires the placement of a temporary cement spacer and subsequent bone grafting for complete reconstruction. We describe a unique case of segmental bone loss reconstruction in which a patient successfully achieved fracture union after the first step of the masquelet technique without bone grafting. Case Report: This is a case of a 21-year-old male who presented with an open femur fracture with 10 cm of segmental bone loss after a motorcycle collision. An antibiotic cement spacer was inserted according to the first stage of the masquelet technique. Due to considerable callus formation around the spacer, normal alignment, and pain-free ambulation at follow-up, further surgical intervention was not pursued, and the poly-methyl-methacrylate spacer was left in place. The fracture healed without infection, and the patient remained weight-bearing without pain. Conclusion: This case identifies a unique instance of successful fracture union of a 10 cm segmental bone defect despite the completion of only the first step in the masquelet procedure. While the masquelet technique is believed to be a mandatory two-step procedure, this unique case of rapid bone growth and fracture union warrants further research on the possibilities of masquelet-induced regeneration without bone grafting.

Application of double plate fixation combined with Masquelet technique for large segmental bone defects of distal tibia: a retrospective study and literature review.

BACKGROUND: There is no effective consensus on the choice of internal fixation method for the Masquelet technique in the treatment of large segmental bone defects of the distal tibia. Thus, the study aimed to investigate the outcomes of the Masquelet technique combined with double plate fixation in the treatment of large segmental bone defects. METHODS: This was a retrospective study involving 21 patients with large segmental bone defects of the distal tibia who were treated between June 2017 and June 2020. The length of bone defect ranged from 6.0 cm to 11 cm (mean, 8.19 cm). In the first stage of treatment, following complete debridement, a cement spacer was placed to induce membrane formation. In the second stage, double plate fixation and autologous cancellous bone grafting were employed for bone reconstruction. Each patient's full weight-bearing time, bone healing time, and Iowa ankle score were recorded, and the occurrence of any complications was noted. RESULTS: All patients were followed up for 16 to 26 months (mean, 19.48 months). The group mean full weight-bearing time and bone healing time after bone grafting were 2.41 (± 0.37) months and 6.29 (± 0.66) months, respectively. During the treatment, one patient had a wound infection on the medial side of the leg, so the medial plate was removed. The wound completely healed after debridement without any recurrence. After extraction of iliac bone for grafting, one patient had a severe iliac bone defect, which was managed by filling the gap with a cement spacer. Most patients reported mild pain in the left bone extraction area after surgery. The postoperative Iowa ankle score range was 84-94 (P < 0.05). In this cohort, 15 cases were rated as "excellent", and 6 cases as "good" on the Iowa ankle scoring system. CONCLUSION: The Masquelet technique combined with double plate fixation is a safe and effective method for the treatment of large segmental bone defects of the distal tibia.

Masquelet combined with free-flap technique versus the Ilizarov bone transport technique for severe composite tibial and soft-tissue defects.

BACKGROUND: The treatment of bone and soft-tissue defects after open fractures remains challenging. This study aimed to evaluate the clinical efficacy of the Masquelet technique combined with the free-flap technique (MFFT) versus the Ilizarov bone transport technique (IBTT) for the treatment of severe composite tibial and soft-tissue defects. METHODS: We retrospectively analysed the data of 65 patients with tibial and soft-tissue defects and Gustilo type IIIB/C open fractures treated at our hospital between April 2015 and December 2021. The patients were divided into two groups based on the treatment method: group A (n = 35) was treated with the MFFT and internal fixation, and group B (n = 30) was treated with the IBTT. RESULTS: The mean follow-up period was 28 months (range 13-133 months). Complete union of both soft-tissue and bone defects was achieved in all cases. The mean bone-union times were 6 months (range 3-12 months) in group A and 11 months (range 6-23 month) in group B, with a significant difference between the two groups (Z = -4.11, P = 0.001). The mean hospital stay was 28 days (range 14-67 d) in group A which was significantly longer than the mean stay of 18 days (range 10-43 d) in group B (Z = -2.608, P = 0.009). There were no significant differences in the infection rate between group A (17.1 %) and group B (26.7%) (χ2 = 0.867, P = 0.352). The Total Physical Health Scores were 81.51 ± 6.86 (range 67-90) in group A and 75.83±16.14 (range 44-98) in group B, with no significant difference between the two groups (t = 1.894, P = 0.063). The Total Mental Health Scores were significantly higher in group A (90.49 ± 6.37; range 78-98) than in group B (84.70 ± 13.72; range 60-98) (t = 2.232, P = 0.029). CONCLUSION: Compared with IBTT, MFFT is a better choice of treatment for open tibial and soft-tissue defects with Gustilo IIIB/C fractures. IBTT is the preferred option when the tibial bone defect is large or if the surgeon's expertise in microsurgery is limited.

Biodegradable poly(caprolactone fumarate) 3D printed scaffolds for segmental bone defects within the Masquelet technique.

Segmental bone defects, often clinically treated with nondegradable poly(methylmethacrylate) (PMMA) in multistage surgeries, present a significant clinical challenge. Our study investigated the efficacy of 3D printed biodegradable polycaprolactone fumarate (PCLF)/PCL spacers in a one-stage surgical intervention for these defects, focusing on early bone regeneration influenced by spacer porosities. We compared nonporous PCLF/PCL and PMMA spacers, conventionally molded into cylinders, with porous PCLF/PCL spacers, 3D printed to structurally mimic segmental defects in rat femurs for a 4-week implantation study. Histological analysis, including tissue staining and immunohistochemistry with bone-specific antibodies, was conducted for histomorphometry evaluation. The PCLF/PCL spacers demonstrated compressive properties within 6 ± 0.5 MPa (strength) and 140 ± 15 MPa (modulus). Both porous PCLF/PCL and Nonporous PMMA formed collagen-rich membranes (PCLF/PCL: 92% ± 1.3%, PMMA: 86% ± 1.5%) similar to those induced in the Masquelet technique, indicating PCLF/PCL's potential for one-stage healing. Immunohistochemistry confirmed biomarkers for tissue regeneration, underscoring PCLF/PCL's regenerative capabilities. This research highlights PCLF/PCL scaffolds' ability to induce membrane formation in critical-sized segmental bone defects, supporting their use in one-stage surgery. Both solid and porous PCLF/PCL spacers showed adequate compressive properties, with the porous variants exhibiting BMP-2 expression and woven bone formation, akin to clinical standard PMMA. Notably, the early ossification of the membrane into the pores of porous scaffolds suggests potential for bone interlocking and regeneration, potentially eliminating the need for a second surgery required for PMMA spacers. The biocompatibility and biodegradability of PCLF/PCL make them promising alternatives for treating critical bone defects, especially in vulnerable patient groups.

Application of biomaterials in Masquelet technology / 中国组织工程研究

BACKGROUND:The remediation and treatment of bone defects present considerable challenges,with a variety of clinical intervention strategies available.One such approach,the Masquelet technique,has demonstrated high rates of success and reliable outcomes and is currently employed in clinical practice.However,the underlying mechanisms of this technique remain incompletely understood,and certain challenges persist in its clinical application,indicating that this technique is not yet fully mature. OBJECTIVE:To compile and categorize the biomaterials currently employed in research aimed at improving the Masquelet technique,in order to provide insights and references for the further development of this technique. METHODS:A literature search of the China National Knowledge Infrastructure and PubMed databases was conducted,spanning publications from January 2013 to November 2022.The search terms used included"Masquelet technique;induced membrane technique;induced membrane;biomaterial;bone defect"in both Chinese and English.A total of 58 articles meeting the inclusion criteria were reviewed. RESULTS AND CONCLUSION:(1)The emergence and continual development of the Masquelet technique provide a therapeutic strategy for treating bone defects.Some researchers are focusing on developing superior spacer materials,autograft substitutes,and membrane materials that mimic the properties of the induced membrane,to simplify the two-stage procedure,shorten treatment duration,and reduce patient distress.(2)Calcium sulfate,silicone,poly(lactic-co-glycolic acid),and polypropylene can replace polymethylmethacrylate bone cement to form induced membranes in animal experiments or clinical applications,each with their advantages.Contrary to expectations,common materials such as titanium and polyvinyl alcohol sponge cannot replace polymethylmethacrylate bone cement.(3)Autograft substitutes are diverse,with allograft bone,β-tricalcium phosphate,absorbable gelatin sponge,α-calcium sulfate hemihydrate,bioactive glass,titanium,and tantalum demonstrating their ability to reduce the quantity of autologous cancellous bone graft required in the second stage of the procedure.Among them,allograft bone,β-tricalcium phosphate,bioactive glass,titanium and tantalum can replace autogenous bone as grafts,and other materials need to be mixed with autogenous bone,in both clinical and fundamental experiments.(4)Biomimetic-induced membranes,human amnion,human decellularized dermis,polytetrafluoroethylene,and even autogenous cortical bone have been shown to possess properties similar to the induced membrane.(5)Most of the application and research of biomaterials in this technology still exist in the stage of basic research and have not been applied in clinical practice or popularized on a large scale,but the above materials can provide more sufficient theoretical basis and new ideas for the exploration of Masquelet technical mechanism,the improvement of surgical methods and clinical application.

Bone remodeling in the Masquelet-induced membrane model of rat femur by modulation of H-type vessels by total flavonoids of rhizome drynariae / 中国组织工程研究

BACKGROUND:Several studies have found that the total flavonoids of rhizome drynariae can promote neovascularization in the induced membrane,improve the biological properties of the induced membrane,and accelerate bone remodeling in the induced membrane,but the related molecular mechanisms still need to be further explored. OBJECTIVE:To explore the effect of total flavonoids of rhizome drynariae on bone remodeling in rat femoral Masquelet-induced membrane model by regulating H-type blood vessels. METHODS:Thirty-six male Sprague-Dawley rats were stratified by body mass and then randomly divided into blank group,model group and traditional Chinese medicine group,with 12 rats in each group.A 4-mm femoral bone defect model was established in all the rats.Bone defects in the model group and traditional Chinese medicine group were filled with polymethylmethacrylate bone cement.At 6 weeks after modeling,the tail bone of the rats was implanted in the blank group,as well as in the other two groups after removal of bone cement.The traditional Chinese medicine group was given 157.5 mg/kg per day of total flavonoids of rhizome drynariae at 3 days after bone implantation,while the model and blank groups were given the same amount of saline by gavage until the 8th week after bone implantation.Bone graft samples were taken for relevant testing at 8 weeks after implantation. RESULTS AND CONCLUSION:X-ray films showed that in the blank group,the fracture line in the defect area was clear,and only a small amount of bone callus formed;in the model group,the bone defect area still existed,where discontinuous cortical bone was visible;in the traditional Chinese medicine group,the defect area was filled with newborn bone tissues,the bone marrow cavity and part of the cortical bone formed,and the fracture line disappeared.Micro-CT scans showed that the amount of new bone in the defect area was low in the blank group,the number of bone trabeculae in the defect area was significantly increased in the model group,and a large amount of new bone tissue was filled in the bone defect area in the traditional Chinese medicine group.Hematoxylin-eosin staining results showed that in the blank group,only a small amount of new bone formed in the defect area and the quality of osteogenesis was poor;in the model group,there was more new bone tissue in the defect area,but some fibrous connective tissues were interspersed within the bone tissue;and in the traditional Chinese medicine group,a large amount of new bone formed in the defect area and the quality of osteogenesis was the best.CD31/Emcn immunofluorescence double-labeling staining results showed that the number of H-type blood vessels in the newborn bone tissue in the bone defect area of the blank group was sparse and sparsely distributed;compared with the blank group,there were more H-type blood vessels in the bone tissue in the bone defect area of the model group,and the blood vessels were distributed in relatively regular strips;the number of H-type blood vessels in the bone defect area of the traditional Chinese medicine group was the highest and the blood vessels were densely distributed.To conclude,the total flavonoids of rhizoma drynariae can upregulate the expression of H-type blood vessels to enhance the angiogenic-osteogenic effect,improve the osteogenic efficiency of the rat femoral Masquelet induced membrane model,and promote bone remodeling.

Use of Autologous Bone Graft with Bioactive Glass as a Bone Substitute in the Treatment of Large-Sized Bone Defects of the Femur and Tibia.

BACKGROUND: Managing bone defects in non-union surgery remains challenging, especially in cases of large defects exceeding 5 cm in size. Historically, amputation and compound osteosynthesis with a remaining PMMA spacer have been viable and commonly used options. The risk of non-union after fractures varies between 2% and 30% and is dependent on various factors. Autologous bone grafts from the iliac crest are still considered the gold standard but are limited in availability, prompting consideration of artificial grafts. OBJECTIVES: The aims and objectives of the study are as follows: 1. To evaluate the radiological outcome of e.g., the consolidation and thus the stability of the bone (three out of four consolidated cortices/Lane-Sandhu-score of at least 3) by using S53P4-type bioactive glass (BaG) as a substitute material for large-sized bone defects in combination with autologous bone using the RIA technique. 2. To determine noticeable data-points as a base for future studies. METHODS: In our clinic, 13 patients received bioactive glass (BaG) as a substitute in non-union therapy to promote osteoconductive aspects. BaG is a synthetic material composed of sodium, silicate, calcium, and phosphate. The primary endpoint of our study was to evaluate the radiological consolidation of bone after one and two years. To assess bone stabilization, we used a modified Lane-Sandhu score, considering only radiological criteria. A bone was considered stabilized if it achieved a minimum score of 3. For full consolidation (all four cortices consolidated), a minimum score of 4 was required. Each bone defect exceeded 5 cm in length, with an average size of 6.69 ± 1.92 cm. RESULTS: The mean follow-up period for patients without final bone consolidation was 34.25 months, with a standard deviation of 14.57 months, a median of 32.00 months and a range of 33 months. In contrast, patients with a fully consolidated non-union had an average follow-up of 20.11 ± 15.69 months and a range of 45 months. Overall, the mean time from non-union surgery to consolidation for patients who achieved final union was 14.91 ± 6.70 months. After one year, six patients (46.2%) achieved complete bone consolidation according to the Lane-Sandhu score. Three patients (23.1%) displayed evident callus formation with expected stability, while three patients (23.1%) did not develop any callus, and one patient only formed a minimal callus with no expected stability. After two years, 9 out of 13 patients (69.2%) had a score of 4. The remaining four patients (30.8%) without expected stability either did not heal within two years or required a revision during that time. CONCLUSIONS: Bioactive glass (BaG) in combination with autologous bone (RIA) appears to be a suitable filler material for treating extensive non-unions of the femur and tibia. This approach seems to show non-inferiority to treatment with Tricalcium Phosphate (TCP). To ensure the success of this treatment, it is crucial to validate the procedure through a randomized controlled trial (RCT) with a control group using TCP, which would provide higher statistical power and more reliable results.

Characterization of the Masquelet Induced Membrane Technique in a Murine Segmental Bone Defect Model / Caracterização da membrana induzida pela técnica de Masquelet em modelo murino de defeito ósseo segmentar

Abstract Objective To reproduce in an animal model the surgical technique of Masquelet used in the treatment of critical bone defects and to analyze the characteristics of the membrane formed around the bone cement. Methods A 10mm critical defect was created in the femoral shaft of 21 Sprague-Dawley rats. After resection of the central portion of the diaphysis, the defect was stabilized with a Kirschner wire introduced through the medullary canal and with the interposition of a bone cement spacer. After 2, 4, and 6 weeks of the surgical procedure, the animals were euthanized and evaluated on radiographs of the posterior limb regarding the size of the defect, alignment and stability of the osteosynthesis. The membranes formed around the spacer were subjected to histological analysis to assess thickness, connective tissue maturation and vascular density. Results Over time, the membranes initially made up of loose connective tissue were replaced by membranes represented by dense connective tissue, rich in thick collagen fibers. At six weeks, membrane thickness was greater (565 ± 208μm) than at four (186.9 ± 70.21μm, p = 0.0002) and two weeks (252.2 ± 55.1μm, p = 0.001). All membranes from the initial time showed foci of osteogenic differentiation that progressively reduced over time. Conclusion In addition to the structural and protective function of the membrane, its intrinsic biological characteristics can actively contribute to bone regeneration. The biological activity attributed by the presence of foci of osteogenesis confers to the membrane the potential of osteoinduction that favors the local conditions for the integration of the bone graft.

Resumo Objetivo Reproduzir em modelo animal a técnica cirúrgica de Masquelet utilizada no tratamento de defeitos ósseos críticos e analisar as características da membrana formada em torno do cimento ósseo. Métodos Um defeito crítico de 10mm foi realizado na diáfise femoral de 21 ratos Sprague-Dawley. Após a ressecção da porção central da diáfise o defeito foi estabilizado com fio de Kirschner introduzido pelo canal medular e com a interposição de espaçador de cimento ósseo. Após 2, 4, e 6 semanas do procedimento cirúrgico os animais foram eutanasiados e avaliados em radiografias do membro posterior quanto ao tamanho do defeito, o alinhamento e a estabilidade da osteossíntese. As membranas formadas em torno do espaçador foram submetidas a análise histológica para avaliação da espessura, da maturação do tecido conjuntivo e da densidade vascular. Resultados Ao longo do tempo as membranas inicialmente constituídas por tecido conjuntivo frouxo foram substituídas por membranas representadas por tecido conjuntivo denso, rico em fibras colágenas espessas. Com seis semanas a espessura das membranas foi maior (565 ± 208μm) do que com quatro (186,9 ± 70,21μm, p = 0,0002) e duas semanas (252,2 ± 55,1μm, p = 0,001). Todas as membranas do tempo inicial apresentaram focos de diferenciação osteogênica que reduziram progressivamente ao longo do tempo. Conclusão Além da função estrutural e protetora da membrana, suas características biológicas intrínsecas podem contribuir ativamente para a regeneração óssea. A atividade biológica atribuída pela presença de focos de osteogênese confere à membrana potencial de osteoindução que favorece as condições locais para a integração do enxerto ósseo.

Revisión bibliográfica de resultados obtenidos utilizando la Técnica de Masquelet en lesiones complicadas con osteomielitis: a propósito de un caso clínico / Bibliographic review of results obtained using Masquelet's technique in complicated lesions with osteomyelitis: apropos of a clinical case

SUMMARY: The Masquelet technique or membrane induction is considered new in many ways, born under the need to seek therapeutic options in patients with extensive bone lesions. Since this technique was proposed, hopeful and reproducible results have been reported to different centers throughout the world. That is why in this work we seek to collect information from different authors and their case reports, in addition to presenting a case handled in the O'higgins region with this technique. OBJECTIVES: To review the literature regarding general results in bone consolidation in cases similar to the one exposed, in addition to exposing the Masquelet Technique as management in a patient with extensive bone loss, due to a firearm wound. METHODS: descriptive observational study, in addition to a systematic review in databases such as PubMed/MEDLINE, Elsevier, Cochrane and manually through the Internet in journals and public bodies. This work seeks to collect information from different authors and their case reports, in addition to delving into the technique itself, evaluating its indications, contraindications and protocol to follow. The patient's signature of an informed consent was requested, which is explicitly voluntary, in which he authorizes the review of his file, his background and the use of images and / or x-rays pertinent to the research. RESULTS: Inclusion and exclusion criteria were defined to analyze the characteristics of the selected articles. We present the clinical case of a 27-year-old male patient who suffers high-energy injury by firearm in the middle third of the right leg with exposure and loss of musculoskeletal tissue of 12 cm in diameter, polyfragmentary fracture of the proximal third of tibia and fibula, initially damage control is performed which is complicated by presenting osteomyelitis in said limb. It is handled with Masquelet technique. The induction time was approximately 4 months, after the second surgical time the lesion is consolidated in three months showing results similar to the literature studied.

[Clinical experience on the management of post-traumatic bone defects of long bones treated with the membrane induction technique]. / Experiencia clínica en el manejo de defectos óseos postraumáticos de huesos largos tratados con la técnica de inducción de membrana.

INTRODUCTION: bone defects drastically alter the patient's quality of life, and can produce serious sequelae such as dysfunctional shortening, angular deformity, joint stiffness and irreversible gait disorder. OBJECTIVE: to describe the experience of managing post-traumatic bone defects of long bones treated with the membrane induction technique. MATERIAL AND METHODS: retrospective observational study of patients with bone defects greater than 3 cm in diaphyseal pseudoarthrosis of long bones, who underwent the Masquelet technique. Period taken from January 2019 to January 2021. All patients underwent vigorous debridement and stabilization of the fracture, to then place the cement spacer. Spacer removal was at 4-6 weeks. The degree of consolidation was assessed, as well as the evolution of the treatment. RESULT: 25 patients were included in the study; the mean age was 36.8 ± 8.9 years. Diameter of bone losses was 3 to 10 cm (84%) and > 10 cm (16%). Bone consolidation occurred in patients with a defect < 10 cm (16%). 32% of patients presented some complication. CONCLUSIONS: bone union was achieved only in a few patients with defects smaller than 10 cm, requiring alternative procedures in most cases. Proper selection of patients is required.

INTRODUCCIÓN: los defectos óseos alteran drásticamente la calidad de vida del paciente y pueden producir serias secuelas como acortamiento disfuncional, deformidad angular, rigidez articular y trastorno irreversible de la marcha. OBJETIVO: describir la experiencia clínica en el manejo de defectos óseos postraumáticos de huesos largos tratados con la técnica de inducción de membrana. MATERIAL Y MÉTODOS: estudio observacional, retrospectivo, de pacientes con defectos óseos mayores de 3 cm con pseudoartrosis diafisaria de huesos largos, a los que se aplicó la técnica de Masquelet. En el período de Enero de 2019 a Enero de 2021. A todos los pacientes se les realizó desbridamiento enérgico y estabilización de la fractura, para posteriormente colocar el espaciador de cemento. El retiro del espaciador fue a las 4-6 semanas. Se valoró el grado de consolidación y la evolución del tratamiento. RESULTADOS: se incluyeron 25 pacientes, la media de edad fue de 36.8 ± 8.9 años. El diámetro de las pérdidas óseas fue de 3 a 10 cm (84%) y > 10 cm (16%). La consolidación ósea se presentó en pacientes con un defecto < 10 cm (16%). Treinta y dos por ciento de los pacientes presentó alguna complicación. CONCLUSIONES: la consolidación ósea se logró sólo en aquellos pacientes con defectos < 10 cm, requiriendo procedimientos alternativos a la técnica de inducción de membrana en la mayoría de los casos. Se requiere una selección adecuada de pacientes para lograr la consolidación ósea por medio de esta técnica.

Masquelet induced membrane technique combined with an external locking plate for treatment of infectious bone defects of the tibia / 中华创伤骨科杂志

Objective:To investigate the efficacy of Masquelet induced membrane technique combined with an external locking plate in the treatment of infectious bone defects of the tibia.Methods:A retrospective study was conducted to analyze the data of 32 patients with infectious bone defects of the tibia who had been treated by Masquelet induced membrane technique combined with an external locking plate at Department of Orthopaedic Surgery, The Fourth Hospital of Wuhan from January 2011 to January 2021. There were 22 males and 10 females, with an age of (43.2±13.1) years. The length of bone defects was (5.1±1.3) cm. By the Cierny-Mader classification, there were 12 cases of type Ⅲ and 20 cases of type Ⅳ. The defects were located at the proximal tibia in 11 cases, at the middle tibia in 12, and at the distal tibia in 9. At the last follow-up, the lower limb function was evaluated by the Paley scale, and the quality of life by the 36-Item Short Form Health Survey (SF-36).Results:All the 32 patients were followed up for (21.2±5.7) months. Normal healing was achieved in 30 cases but delayed healing occurred in 2 cases. The external plate and screws were removed at (23.1±4.6) weeks after operation. There was no infection in the original surgical incision or no injury to the nerve, blood vessel or tendon after operation, but nail tract infection occurred more or less in 3 cases. According to the Paley scale at the last follow-up, the lower limb function was evaluated as excellent in 22 cases, as good in 8, and as fair in 2, giving an excellent and good rate of 93.75% (30/32). The SF-36 quality of life score was (88.9±3.8) points.Conclusion:In the treatment of infectious bone defects of the tibia, Masquelet induced membrane technique combined with an external locking plate can achieve satisfactory clinical outcomes due to its effective control of infection, reduction in delayed healing, good stability and good patient tolerance.

Masquelet technique with transfer of free iliac inguinal flap in reconstruction of infectious bone and soft tissue defect after metacarpal fracture surgery: a report of 16 cases / 中华显微外科杂志

Objective:To investigate the clinical effects of Masquelet technique with the transfer of free iliac inguinal flap in reconstruction of infectious bone and soft tissue defect after metacarpal fracture surgery.Methods:From January 2014 to January 2020, 16 patients suffered from infectious bone and soft tissue defect after surgery of metacarpal fracture were treated in Department of Hand Surgery, Institute for Hygiene of Ordnance Industry (Weapon Industry 521 Hospital). Debridement and vacuume sealing drainage (VSD) coverage of wound were carried out in emergency surgery, and Masquelet technique combined with free iliac inguinal flap for reconstruction of infected metacarpal bone defect were performed in sub-emergency surgery. The patients were 14 males and 2 females with an average age of 38 (20-50) years old. Plates were removed in 10 patients and retained in 6 patients. Defects of metacarpal bone ranged from 0.8 cm×0.8 cm×2.0 cm to 1.5 cm×2.0 cm× 5.1 cm in size. Soft tissue defects ranged from 3.6 cm×6.8 cm to 7.8 cm×11.6 cm. Tendon defects were found in all 16 patients. After the primary procedure of Masquelet technique combined with free iliac inguinal flap, routine anti-infection, anticoagulant, antispasmodic and other treatments were offered to all patients. Then all patients were observed by fortnightly reviews. After infection was cleared, the second phase of Masquelet treatment began. The defects of metacarpal bone were reconstructed with autologous cancellous bone grafts, and measures to prevent from infection together with other therapies were offered after the surgery. Follow-up of the second phase surgery was carried out once per 1-2 weeks and then per 2-4 months after bone union. The follow-up review items included: wound infection and necrosis, appearance, shape, texture and sensory recovery of flap. Bone union of infectious metacarpal defect was evaluated, recurrence of infection was closely observed as well as the resorption or nonunion of bone by X-rays. Hand function was assessed according to the Evaluation Trial Standards of Upper Limb Partial Functional of Hand Surgery of Chinese Medical Association. Donor sites healing and functional recovery were also included in the postoperative observation.Results:The follow-up time ranged from 1.5-3.0 (average 2.4) years. There was no necrosis of iliac inguinal flap, no recurrence of infection, and the flaps all healed well. The appearance, shape and texture of flaps were found close to the adjacent skin in all patients. Two-point discriminations (TPD) of the transferred iliac inguinal flaps were at 8-10 mm. X-ray reviews showed that bone union achieved in all patients. The time of bone union were 2.1-3.4 months (2.9 months in average) after bone grafting. There was no bone resorption, infection or nonunion. According to the Evaluation Standard of Upper Limb Partial Functional of Hand Surgery of Chinese Medical Association, 13 patients were excellent and 3 patients were good. All donor sites had primary healing with the motion of donor hips unaffected.Conclusion:Masquelet technique combined with free iliac inguinal flap is an effective, safe and feasible surgical procedure in reconstruction of infectious bone and soft tissue defect after metacarpal fracture surgery. It offers a satisfactory outcome with relatively less damage to the donor site.

Masquelet technique combined with skin graft in treatment of chronic refractory wounds in elderly patients / 中华显微外科杂志

Objective:To introduce a surgical method and clinical effect of using Masquelet technique combined with skin graft to cover chronic refractory wounds in elderly patients.Methods:From September 2020 to September 2022, 20 elderly patients with wounds of bone or tendon exposure in lower limbs were treated in the Department of Wound Repair, the Second Affiliated Hospital of Wenzhou Medical University. Due to the age and poor general condition of the patients, flap transfer for wound coverage were not allowed. Masquelet technique was therefore applied in the treatment of chronic wounds of such patients. Sizes of wounds were found at 4.5 cm×3.0 cm to 15.0 cm×6.0 cm and all accompanied with tendon and bone exposure, after thorough debridement. Wounds were then sealed with antibiotic bone cement several times. After having induced formation of membrane in wounds, free mesh skin graft was used to cover the refractory wounds. The patients were entered in follow up regularly after surgery at outpatient service, and telephone or video reviews. The wound healing of patients and whether there were related complications in the skin donor area were observed. The number of operation times in the first stage was 1-4 with an average of 1.3 times ± 0.7 times. Lower Extremity Function Scale (LEFS) was used to evaluate the recovery of lower limb function.Results:All 20 wounds healed well. The follow-up time was 3-12 months, with an average of 7.6 months. The appearance and texture of the skin in the wounds area were satisfactory. The mean LEFS was 69.83 point ± 10.82 point.Conclusion:Using Masquelet technique combined with free skin grafting to treat refractory wounds in the elderly patients can achieve satisfactory clinical outcomes. It is a simple and reliable supplement to the wound repair, and can reduce the surgical risk.