Infected tibial pseudarthrosis. A 2-year follow up on patients treated by the Ilizarov technique

Evolution and Development of Ilizarov Technique in the Treatment of Infected Long Bone Nonunion with or without Bone Defects

The treatment of infected bone nonunion and bone defects is a considerable challenge in the orthopedics field. The standard clinical therapy methods include local free bone transplantation, vascularized bone graft, and the Ilizarov technique; the first two are controversial due to the iatrogenic self‐injury. The Ilizarov bone transport technique has been widely used to treat infected bone nonunion and bone defects, and good clinical effect has been demonstrated. Yet, it brings many related complications, which exerts additional suffering to the patient. The best treatment is to combine bone defect rehabilitation with infection control, intramedullary nail fixation, appropriate time for bone grafts, beaded type scaffold slippage and new Taylor fixation, reducing the external fixation time and the incidence of complications, thereby reducing the occurrence of patients' physical and psychological problems. This review focuses on the induction, summary and analysis of the Ilizarov bone transport technique in the treatment of infected long bone nonunion with or without bone defects, providing new ideas and methods for orthopedic disease prevention and treatment by the Ilizarov technique, which is following the development direction of digital orthopedics.

A new criterion for assessing Ilizarov treatment outcomes in nonunion of the tibia

INTRODUCTION

The purpose of this study was to assess a population of patients with nonunion of the tibia treated with the Ilizarov method in terms of achieved union rates and maintained union rates, determination of re-fracture factors, with a subsequent comparison of our findings with those reported in the available literature.

MATERIALS AND METHODS

This study was a retrospective assessment of 102 patients with nonunion of the tibia treated with the Ilizarov method in the period 2008-2015. The assessed parameters were bone union achieved during treatment, duration of stabilization with an Ilizarov external fixator, and maintained bone union at the last follow-up visit.

RESULTS

The mean age at the start of treatment was 46.7 years (11-84 years). The mean follow-up period was 7 years (2-12 years). Bone union was achieved in all patients. The mean duration of Ilizarov stabilization in the study group was 7.9 months (2.8-20.7 months). The rate of union maintained at the last follow-up visit was 95.1%.

CONCLUSIONS

All patients in our study achieved bone union, which constitutes a better outcome than those reported on average in the literature (73.7-100%). The mean length of time which the Ilizarov external fixator was in place in our patients was 8.3 months, which is consistent with the data from literature. Infection, atrophic nonunion, nonunion in 1/3 distal of tibia, and close surgery technique are risk factors of re-fracture. None of the analyzed studies assessed the proportion of patients with maintained bone union. In our study, maintained bone union was observed in 95.1% of patients at the follow-up visit at least 2 years after treatment, which indicates excellent long-term treatment outcomes in nonunion of the tibia treated with the Ilizarov method.

Osteomyelitis of the foot and ankle: diagnosis, epidemiology, and treatment

Osteomyelitis of the foot and ankle is a common, potentially devastating condition with diagnostic and treatment challenges. Understanding the epidemiology and pathogenesis of osteomyelitis can raise clinical suspicion and guide testing and treatments. History and physical examination, laboratory studies, vascular studies, histologic and microbiologic analyses, and various imaging modalities contribute to diagnosis and treatment. Treatment including empiric broad-spectrum antibiotics and surgery should take a multidisciplinary approach to optimize patient factors, ensure eradication of the infection, and restore function. Optimization of vascular status, soft tissues, limb biomechanics, and physiologic state of the patient must be considered to accelerate and ensure healing.

Lower limb deformity due to failed trauma treatment corrected with the Ilizarov technique: factors affecting the complication rate in 52 patients

BACKGROUND AND PURPOSE

Failed treatment of fractures may be corrected by the Ilizarov technique but complications are common. In 52 patients with compromised healing of femoral and tibial fractures, the results of secondary reconstruction with Ilizarov treatment were investigated retrospectively in order to identify the factors that contribute to the risk of complications.

METHODS

52 consecutive patients was analyzed. The median interval between injury and secondary reconstruction was 3 (0.1-27) years. The patients had failed fracture treatment resulting in bone defects, pseudarthrosis, infection, limb length discrepancy (LLD) caused by bone consolidation after bone loss, malunion, soft-tissue loss, and stiff joints. Most patients had a combination of these deformities. The results were analyzed by using logistic regression in a polytomous universal mode (PLUM) logistic regression model.

RESULTS

The median treatment time was 9 (4-30) months, and the obstacle and complication rate was 105% per corrected bone segment. In 2 patients treatment failed, which resulted in amputation. In all other patients healing of nonunion could be established, malunion could be corrected, and infections were successfully treated. The statistical analysis revealed that relative bone loss of the affected bone was the only predictor for occurrence of complications. From these data, we constructed a simple graph that shows the relationship between relative bone loss of the affected bone and risk of complications.

INTERPRETATION

Relative bone loss of the affected bone segment is the main predictor of complications after Ilizarov treatment of previously failed fracture treatment. The visualization of the analysis in a simple graph may assist comparison of the complication rates in the literature.

Distal tibia nonunions

Although tibia metaphyseal nonunion is rare, its treatment is often complex. The merits of related management techniques are discussed. These techniques include: intramedullary nailing, fine wire fixation, and blade plate reconstruction, which is the method preferred by the authors.

Infected nonunion of the humerus treated with an antibiotic cement rod. Case report

The authors present a case of an infected nonunion of the humerus treated initially with reaming of the medullar canal followed by the introduction of an antibiotic-impregnated intramedullary rod. Reconstruction of the humerus with bone fixation and bone graft was performed in a second stage. The final result was healing of the fracture and a good functional result with no evidence of recurrence of infection at a 25 months follow up.

Infected nonunion of the long bones

BACKGROUND

Although definitions vary, infected nonunion has been defined as a state of failure of union and persistence of infection at the fracture site for 6 to 8 months.>). Infected nonunions of the supracondylar region of the femur are uncommon and are mostly due to a severe open fracture with extensive comminution and segmental bone loss or after internal fixation of a comminuted closed fracture. Associated factors include exposed bone devoid of vascularized periosteal coverage for more than 6 weeks, purulent discharge, a positive bacteriological culture from the depth of the wound, and histologic evidence of necrotic bone containing empty lacunae. Soft-tissue loss with multiple sinuses, osteomyelitis, osteopenia, complex deformities with limb-length inequality, stiffness of the adjacent joint, polybacterial multidrug-resistant infection, and smoking all complicate treatment and recovery. Although uncommon in incidence, infected nonunions of the long bones present a great challenge to the orthopaedic surgeon in providing optimal treatment of this entity. To give direction to the optimal strategy, this systematic review was performed.

OBJECTIVE

We aimed to review the highest level of available evidence on the operative management of infected nonunions of the long bones.

Adult osteomyelitis

Adult osteomyelitis remains difficult to treat, with considerable morbidity and costs to the health care system. Bacteria reach bone through the bloodstream, from a contiguous focus of infection, from penetrating trauma, or from operative intervention. Bone necrosis begins early, limiting the possibility of eradicating the pathogens, and leading to a chronic condition. Appropriate treatment includes culture-directed antibiotic therapy and operative debridement of all necrotic bone and soft tissue. Treatment often involves a combination of antibiotics. Operative treatment is often staged and includes debridement, dead space management, soft tissue coverage, restoration of blood supply, and stabilization. Clinicians and patients must share a clear understanding of the goals of treatment and the difficulties that may persist after the initial course of therapy or surgical intervention. Chronic pain and recurrence of infection still remain possible even when the acute symptoms of adult osteomyelitis have resolved.

Nonunions of the distal tibia treated by reamed intramedullary nailing

OBJECTIVE

The purpose of this study is to determine the efficacy of reamed intramedullary nailing in the treatment of nonunions of the distal one-fourth of the tibia. Nonunions of the distal tibia are particularly difficult to treat given the short distal segment, the proximity to the ankle joint, and the fragile soft-tissue envelope. Intramedullary nailing is an attractive solution to this problem because it avoids extensive dissection, and the implant remains intraosseous, posing minimal problem for the soft tissues.

DESIGN

Retrospective review of patient charts and radiographs.

SETTING

Tertiary care orthopaedic hospital.

PATIENTS/PARTICIPANTS

Thirty-two patients with nonunions of the distal one-fourth of the tibia. Prior treatments included casting, internal fixation with plates and screws, intramedullary nailing, and external fixation. Seven patients had a history of infection, but no patient had signs of active infection at the time of surgery.

INTERVENTION

Study patients were treated by reamed, locked intra-medullary nailing.

MAIN OUTCOME MEASUREMENTS

Main outcome measurements included time to union, correction of deformity, and complications including infection and reoperation.

RESULTS

Average length of follow-up was 25 months (range 4-81 months). Twenty-nine out of 32 patients achieved union at an average of 3.5 months after reamed, locked intramedullary nailing. Of the remaining three, 2 patients united after dynamization (one at 4 months after dynamization and the other at 7 months), and the third patient united 4 months after exchange nailing. Deformity was corrected to a maximum of 4 degrees in all planes. Four patients had positive intraoperative cultures, and only 2 required removal of the nail after achieving union to control infection. There were no signs of chronic osteomyelitis in these 2 patients at the date of the last follow-up visit; 5.5 years and 2 years following nail removal.

CONCLUSIONS

Reamed, locked intramedullary nailing is a reliable and safe procedure in the treatment of nonunions in the distal one-fourth of the tibia, even in the setting of prior infection or external fixation. It allows for excellent correction of deformity, which is an essential component of the procedure.

Osteomyelitis in long bones

Osteomyelitis in long bones remains challenging and expensive to treat, despite advances in antibiotics and new operative techniques. Plain radiographs still provide the best screening for acute and chronic osteomyelitis. Other imaging techniques may be used to determine diagnosis and aid in treatment decisions. The decision to use oral or parenteral antibiotics should be based on results regarding microorganism sensitivity, patient compliance, infectious disease consultation, and the surgeon's experience. A suppressive antibiotic regimen should be directed by the results of cultures. Standard operative treatment is not feasible for all patients because of the functional impairment caused by the disease, the reconstructive operations, and the metabolic consequences of an aggressive therapy regimen. Operative treatment includes debridement, obliteration of dead space, restoration of blood supply, adequate soft-tissue coverage, stabilization, and reconstruction.

Surgical management of chronic osteomyelitis

Chronic osteomyelitis is a surgical disease that can require significant dedication from both patients and surgeons to eradicate. Osteomyelitis can result from a variety of etiologies but most often is a consequence of trauma to a long bone, frequently the tibia. It is important to understand the etiology of the infection, as well as the pathophysiology of its chronicity. Additionally, the surgeon must individualize treatment for each patient, because host morbidities often play an important role in propagation of infection. Treatment requires isolation of the pathogens, significant debridement for removal of all infective and necrotic material, and then bony and soft tissue reconstruction. We review the literature of surgical treatment of chronic osteomyelitis and discuss the numerous techniques available to the treatment team, including debridement, dead space management, Ilizarov techniques, and vascularized reconstruction. These patients often require a multimodality approach that incorporates a team approach involving orthopedic and plastic surgery, as well as infectious disease and general medicine.

Biologic model of bone transport distraction osteogenesis and vascular response

We developed an experimental model in the rabbit of distraction osteogenesis through bone transport that closely corresponds to the clinical use of bone transport in humans. We also applied injection angiography to study the arterial response of a limb undergoing bone transport. This model includes a proximal osteotomy and bone transport to fill in a segmental tibial diaphyseal defect. Regenerate bone formed well in the gap that was created that trailed the transport segment, and slow healing at the docking site was observed, as seen in humans. The angiographic techniques clearly revealed, by radiography and anatomic dissection, the arterial response to bone transport. The results showed that the transport segment had an arterial supply after osteotomy and after transport. They also demonstrated an extensive increase in vessels in limbs that had undergone distraction osteogenesis, an observation made clinically in humans but not well demonstrated experimentally. Furthermore, angiography showed proximal stretching and distal kinking of the major artery of the leg. This model closely resembles distraction osteogenesis through bone transport in humans and definitively demonstrates that the transport segment can maintain blood supply and remain viable during the transport process. The results of this study provide a basis for further work on factors that enhance and interfere with successful bone transport in humans.

Infected pseudarthrosis - A review of 75 cases Pseudarthroses infectées - Révision de 75 cas

The authors have reviewed 75 cases of infected Pseudarthrosis treated over the last five years (1989-1993) in the Septic Osteo Articular Pathology Unit (UP.S.O.A.) in the Orthopaedic Service of the Coimbra University Hospitals (H. U. C.).The primary objective was to cure infection, and the method of treatment was based on external fixation, applied at a distance from the focus. Once infection was resolved and as long as there was bone contact, the external fixators were removed and a plaster cast was applied (two months), followed by nailing.Where there was no bone contact, external fixation was maintained. Corticotomy was performed at a distance and transportation effected until consolidation was obtained. If this did not take place, treatment was with plaster cast followed by nailing.Of the cases treated, 65 were male and the average age was 32.5 years. Infection was cured in 73 patients. Twleve patients continued treatment for aseptic pseudarthrosis.

Treatment of infected pilon nonunions with small pin fixators

Six consecutive patients with infected intra-articular fractures of the distal tibia were studied. They were treated with resection of all infected or necrotic bone, systemic antibiotics, and instrumentation with a small pin fixator (Ilizarov external fixator). The fixator was used to perform an ankle arthrodesis and to fill the defect created by bone resection with distraction osteogenesis. In all cases, the infections were eradicated, and a solid arthrodesis was attained. The patients required from zero to two revision procedures (average 1.3), and their time in the fixator varied from 3 to 13 months (average 8 months). All of the patients experienced at least minor complications during treatment (superficial pin tract infections). At final follow-up, no patient demonstrated shortening of more than 1.5 cm. One patient has an internal rotation deformity of 15 degrees; a second has a varus deformity of 10 degrees and occasionally uses lateral support (a cane) secondary to unsteadiness on uneven ground; and one patient uses aspirin occasionally for subtalar pain. All are pleased with their results and would undergo the same procedure again without reservation.

Physical therapy management of patients undergoing limb lengthening by distraction osteogenesis

Limb lengthening by distraction osteogenesis and external fixation is used increasingly in the United States for a variety of orthopaedic conditions. Maintenance of joint motion, critical for successful outcomes, can be difficult to achieve. The rate of growth needed for distraction osteogenesis is faster than that of normal growing bone. Histogenesis of soft tissues must also occur to maintain the motion in joints above and below the limb being lengthened. Physical therapists in patients' home communities need to be knowledgeable about the aggressive management needed to prevent the loss of joint motion. This article introduces physical therapists to a commonly used external fixator, the procedure of distraction osteogenesis, and the role of functional loading. To assist in treatment planning, a physical therapy management plan is presented. Two case examples illustrate how therapists can assess a patient's status relative to the goals in the management plan and determine intervention priorities.

Treatment of complex limb deformities in children with the Ilizarov technique

Twenty-nine children underwent 36 Ilizarov procedures for a variety of limb deformities. We present the results in 11 patients, six with leg length discrepancies and five with achondroplasia, who underwent lengthening procedures using the Ilizarov method. Lengthening was accomplished in 15 of the 16 procedures (93%). Average increase in femur length was 10 cm (32%), in tibial length 7.5 cm (30%), in humerus length 11 cm (40%). Eleven complications occurred. The most common were pin tract infections (4), joint contractures (2), transient nerve injury (4), premature consolidation (5), and three fractures of the regenerated bone. The complication rate was as high as in other methods, but with the Ilizarov apparatus longer segments of bone were lengthened and more complex deformities were treated. The number of complications were lessened as experience was gained.