Using the Ilizarov external fixation device for skin expansion

Soft tissue defect closure using an Ilizarov frame: a case series

The Ilizarov technique is a well-known procedure for limb deformity corrections. However, in the present study, the purpose was to examine the potential of wound closure by means of an Ilizarov frame. Two main cases are presented, a further seven were retrospectively reviewed. The first case experienced a chronic wound at the tibial tuberosity. A fistula was excised followed by antibiotic therapy, however, dehiscence at the wound occurred for which an Ilizarov procedure was used. After two weeks the frame was removed and the wound was closed. The second patient underwent osteosynthesis of a tibia and fibula fracture but was complicated by infection. An Ilizarov device was applied for bone healing as well as the skin defect. Nine patients were included in total. Four of them attained enough skin length via the Ilizarov procedure for secondary closure. Three had the frame removed before having full wound covering and needed further granulation of the wound. Finally, two more patients underwent graft reconstruction. Three patients suffered from infectious complications. The gold standard in soft tissue closure remains skin or flap reconstruction, however, this is not advisable in poor overall health and decreased local vascularity. If an Ilizarov frame is present for bone reconstruction, it can simultaneously be used for skin closure. The results shown in the current study indicate that a satisfactory outcome can be achieved.

Staged Ilizarov distraction histogenesis and corrective reconstruction for severe malunited calcaneal fractures

PURPOSE

Severe calcaneal malunion is a clinical conundrum for the difficulty of calcaneal reconstruction without soft tissue complications. The aim of this study is to introduce the treatment strategy and preliminary results of staged Illizarov distraction histogenesis and corrective reconstruction for severe malunion of calcaneal fractures.

METHODS

From June 2014 to May 2020, 14 patients with severe calcaneal malunion treated with the staged strategy were retrospectively analyzed. At the first stage, calcaneal osteotomy and external fixation with Ilizarov frame were performed. The restoration of the approximate configuration of calcaneus and the expansion of contractural soft tissue were achieved by gradual calcaneal distraction. At the second stage, corrective reconstruction was performed and autogenous iliac crest bone graft was used. Clinical and radiographic outcomes were evaluated at final follow-up.

RESULTS

The average time of Ilizarov distraction and total fixation was 21.4 days and 41.0 days at first-stage treatment. At a mean follow-up of 33.1 months, the average American Orthopaedic Foot and Ankle Society (AOFAS) ankle and hindfoot score increased significantly from 24.0 to 72.4 (p < 0.01). And the mean visual analogue scale (VAS) score had improved remarkably from 8.2 to 2.4 (p < 0.01). Radiographs showed that talocalcaneal height, calcaneal width, calcaneal tuberosity height, hindfoot alignment angle, and talar declination angle were improved to a great extent (p < 0.01). Only one patient had minor pin site infection at first-stage treatment and one got superficial wound infection after second-stage surgery. No wound dehiscence, skin necrosis, or deep infection occurred.

CONCLUSION

Staged Ilizarov distraction histogenesis and corrective reconstruction is a safe and effective treatment strategy for reducing soft tissue complications and improving reconstruction results in surgical correction of severe calcaneal malunion.

Definitive management of significant soft tissue loss associated with open diaphyseal fractures utilising circular external fixation without free tissue transfer, a comprehensive review of the literature and illustrative case

Accepted management of diaphyseal fractures associated with significant tissue loss is rigid intramedullary stabilisation with free or rotational musculocutaneous flap coverage. Circular external fixation is a powerful tool in the management of limb trauma and with recent advances has been developed to provide multiple techniques for which even massive tissue loss can be addressed without the need for free tissue transfer. Gradual and acute shortening, acute fracture deformation and gradual lengthening with restoration of deformity combined with distraction tissue histiogenesis can provide the surgeon with an array of options which can be precisely tailored to the particular personality of a severe open diaphyseal fracture.

Mechanoregulation of Angiogenesis in Wound Healing

Significance: Mechanical forces are important regulators of cell and tissue function. Endothelial cells proliferate in response to tissue stretch and the mechanical properties of the environment direct capillary sprouting and growth. As the vascular network is a key factor in physiology and disease, control of the vascularity by means of mechanical forces could lead to the development of innovative therapeutic strategies. Recent Advances: Increased understanding of mechanobiology has stimulated translational research and allowed the development and optimization of clinical devices that exploit mechanical forces for the treatment of diseases, in particular in the field of wound healing. Stretching in distraction osteogenesis and tissue expansion induces neogenesis of well-vascularized tissues. In micro-deformational wound therapy, micro-mechanical distortions of the wound bed stimulate cell proliferation and angiogenesis by stretching resident cells to improve healing of difficult wounds. Relief from tension antagonizes proliferation and angiogenesis in primarily closed wounds allowing for better scar quality. Critical Issues: The integration of mechanobiology into traditional cell biology and pathophysiology in general is not yet complete and further research is needed to fill existing gaps, in particular in the complexity of in vivo conditions. Future Directions: Still largely unexplored approaches based on mechanical perturbation of the micro-/macro-environment can be devised to overcome the limits of current strategies in a broad spectrum of clinical conditions.

Nailing treatment in bone transport complications

A series of cases of reamed intramedullary nailings carried out after complications in regenerated bone and docking site had occurred in bone transport is presented here. Nine patients (femur = 5; tibia = 4) had treatment with resection after open fractures or infection and underwent bone transport. The mean length of regenerated bone was 9.5 cm (range 6–18 cm). After bone transport, the fixator remained in place for a mean period of 12.8 months (range 8–24 months). In six cases (femur 4; tibia 2), the thickness of the cortical wall of the regenerate column was insufficient, and in two of these, there was, in addition, nonunion of the docking site. In the two tibial cases, nailing was carried out shortly after the fixator had been removed and after refracture of the regenerated bone had occurred due to insufficient cortical thickness. In one femur, nailing was carried out for nonunion of the docking site. Follow-up involved clinical and X-ray checks. The mean follow-up was 3.9 years (range 2–6 years). In all cases, union and with complete corticalization of the regenerate column was observed at an average 6 months after nailing (range 4–11 months). Infection occurred in one tibia 4 months after nailing. The infection was treated with antibiotics, and the nail was subsequently removed. We conclude that nailing is a potential solution for regenerated bone and docking site problems but, if used after prolonged periods of external fixation, may necessitate antibiotic therapy for at least 10 days after the fixator has been removed.

Simultaneous treatment of tibial bone and soft-tissue defects with the Ilizarov method

OBJECTIVES

To evaluate the potential for limb salvage using the Ilizarov method to simultaneously treat bone and soft-tissue defects of the leg without flap coverage.

DESIGN

Retrospective study.

SETTING

Level I trauma centers at 4 academic university medical centers.

PATIENTS/PARTICIPANTS

Twenty-five patients with bone and soft-tissue defects associated with tibial fractures and nonunions. The average soft-tissue and bone defect after debridement was 10.1 (range, 2-25) cm and 6 (range, 2-14) cm respectively. Patients were not candidates for flap coverage and the treatment was a preamputation limb salvage undertaking in all cases.

INTERVENTION

Ilizarov and Taylor Spatial Frames used to gradually close the bone and soft-tissue defects simultaneously by using monofocal shortening or bifocal or trifocal bone transport.

MAIN OUTCOME MEASUREMENTS

Bone union, soft-tissue closure, resolution or prevention of infection, restoration of leg length equality, alignment, limb salvage.

RESULTS

The average time of compression and distraction was 19.7 (range, 5-70) weeks, and time to soft-tissue closure was 14.7 (range, 3-41) weeks. Bony union occurred in 24 patients (96%). The average time in the frame was 43.2 (range, 10-82) weeks. Lengthening at another site was performed in 15 patients. The average amount of bone lengthening was 5.6 (range, 2-11) cm. Final leg length discrepancy (LLD) averaged 1.2 (range, 0-5) cm. Use of the trifocal approach resulted in less time in the frame for treatment of large bone and soft-tissue defects. There were no recurrences of osteomyelitis at the nonunion site. All wounds were closed. There were no amputations. All limbs were salvaged.

CONCLUSIONS

The Ilizarov method can be successfully used to reconstruct the leg with tibial bone loss and an accompanying soft-tissue defect. This limb salvage method can be used in patients who are not believed to be candidates for flap coverage. One also may consider using this technique to avoid the need for a flap. Gradual closure of the defect is accomplished resulting in bony union and soft-tissue closure. Lengthening can be performed at another site. A trifocal approach should be considered for large defects (>6 cm). Advances in technique and frame design should help prevent residual deformity.

Dermal traction on the Ilizarov frame

We report a technique of skin traction, which harnesses the biological and mechanical properties of skin. We have used this technique in open fractures to close or reduce the size of the wound, thereby avoiding the use of split skin grafts or free flaps and their resultant additional morbidity. This report summarises our early experience with this technique in seven patients. We describe the technique and the results so far.

Ilizarov external fixator for open fractures of the tibial shaft

Between December 1993 and 1999 we treated 34 open tibial diaphyseal fractures. Thirty patients were available for evaluation with a mean follow-up after fracture union of 40.5 (24-80) months. Patient average age was 33.1 (15-71) years. Two fractures were grade I, 16 grade II, six grade IIIA, five grade IIIB and one grade IIIC. The wound was debrided and the bone fixed with Ilizarov device. Soft-tissue healing was achieved through Z-plasty, delayed primary closure, split-thickness skin grafting, pedicle flaps and skin traction, and all fractures united with an average 5.6 (3-15.4) months. In 28 patients the results were excellent and good, in one fair and in one poor. Despite numerous complications the use of Ilizarov external fixator provides initial and definitive fracture stability.