Taylor’s spatial frame (TSF) and Ilizarov external fixators (IEF) are two circular external fixator commonly used to address complex deformity and fractures. There is currently no data available comparing the biomechanical properties of these two external fixators. This study looks into the mechanical characteristics of each system. TSF rings with 6 oblique struts, 4 tube connectors, 4 threaded rods, and 6 threaded rods were compared to a standard IEF rings with 4 threaded rods. Compression and torsional loading was performed to the frame as well as construct with Polyvinylchloride tubes. TSF rings with 4 tube connectors had the highest stiffness (3288 N/mm) while TSF rings with 6 struts was the least stiff. The situation was reversed for torsion where TSF rings with 6 oblique struts had the highest torsional stiffness (82.01 Nm/Degree) and frame Ilizarov rings with 4 threaded rods the least. Standard TSF construct of two ring with 6 oblique struts have better torsional stiffness and lower axial stiffness compared to the standard IEF.
Ilizarov Technique

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Ilizarov Technique*

No abstract available.
Ilizarov Technique*

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Ilizarov Technique* ; Pseudarthrosis* ; Tibia*

No abstract available.
Extremities* ; Ilizarov Technique*

No abstract available.
Congenital Abnormalities* ; Ilizarov Technique*

The tibial pilon fracture has been described as difficult fracture to manage. We have reviewed 23 cases of tibial pilon fractures from Mar. 1987 to Feb. 1993 at our hospital. 1. The fractures were classified into five types according to the system of Ovadia and Beals and the methods of treatment were divided into two groups; 9 cases were treated with Ilizarov device(Group I). 6 cases out of Group I were type 3, 4 and 5. Other methods were performed in 14 cases(Group II). 8 cases out of Group II were type 3, 4, and 5. 2. In type 3, 4 and 5 fractures, there were 86 per cent good and fair radiographic results in Group I and 63 per cent good and fair results in Group II. 3. Satisfactory results were obtained by the treatment of Ilizarov method especially in type 3, 4 and 5 fractures. The advantages of Ilizarov device were its primary reduction with ligamentotaxis, easy open reduction due to proximal and distal stabilization, minimal soft tissue injury and minimal internal fixation.
Ilizarov Technique ; Soft Tissue Injuries

PURPOSE: To report the challenging problems in the treatment of patients with chronic cavitary osteomyelitis that is refractory to conventional treatment methods, and to illustrate the author's newly designed fragmentary partial bone transport technique using the modification of the Ilizarov method. MATERIALS AND METHODS: Three patients with chronic cavitary osteomyelitis with a large cavitary bone defect of the tibia were treated with the author's newly designed biological fragmentary partial bone transport technique. RESULTS: After an average of 78 days of fragmentary partial bone transport, the cavitary bone defects were completely filled with the transported bone fragment, and the draining sinus disappeared without any evidence of active infection. The Ilizarov frame was removed on an average of 271.3 days after surgery. The mean total length of the distraction was 8.0 cm and the mean healing index was 33.9 days/cm. CONCLUSION: A fragmentary partial bone transport technique using the Ilizarov apparatus can solve the problem of chronic cavitary osteomyelitis of the tibia by filling the bone defect with new living bone without sacrificing the bony continuity and effectively eradicating the infection. Therefore, this new technique is an effective treatment for chronic cavitary osteomyelitis of the tibia.
Humans ; Ilizarov Technique ; Osteomyelitis* ; Tibia

Wolff law was an adaptable principle of bone, Tension-Stress Principle was equal to Distraction Osteogenesis or Distraction Tissue Regeneration, The Natural Reconstruction theory was a new orthopedic perspective proposed by Prof. QIN after deformity correction using Ilizarov technology. The thought about their relationship originated from a social phenomena, that the crowds and the confusion about export choice in Beijing's subway. Ilizarov technology and Wolff law were one concept related to Mechanics, and the former is completely in line with the latter. In other words, Ilizarov technology is an extension of Wolff law, is a repeated process of micro-trauma and continuous repair of bone trabecular initiated by moden engineering, just trabecular formed along the tension-stress direction. With adjustment of mechanical force,doctor can control the process of fracture healing and bone remolding to a certain extent. Natural Reconstruction theory enlarged the defined range of Wolff law obviously. Not only guided orthopedics clinical and basic research,but also related to the dialectical thinking of the doctor-patient relationship in sociology. There was an inevitable connection among Wolff law, Ilizarov technology and Natural Reconstruction theory. The history of discovery and understanding was a continuous process of thinking,practice and integration.
Humans ; Ilizarov Technique ; Reconstructive Surgical Procedures

BACKGROUND AND OBJECTIVE: Limb deformity in terms of length discrepancy, angular and rotational deformities are amenable to correction using the Ilizarov method. The corrections can be achieved using the Ortho SUV Frame (OSF), a computer assisted six axes external fixator. Previous studies have reported easier and more accurate deformity correction. In this study, we report on our initial experience and treatment outcomes in using this system. MATERIALS AND METHODS: This study is a case series of patients where the Ilizarov circular frame was applied and which the deformity correction was carried out using the OSF. Success and accuracy in correction, length of time to correct, number of revisions needed and complications were gathered from a review of medical records. RESULTS: Thirty limbs in twenty nine cases were included in this report. Seventy seven percent (23/30) of the deformities were due to previous trauma. The rest were due to Blounts, infection and tumor. Correction in eighty seven percent (26/30) were achieved using the turning schedule provided by the Ortho SUV application software. Three cases required surgical removal of soft tissue interposition before further correction using the software was achieved. One case with posterior translation underwent closed manipulation. In the end all planned deformity corrections were achieved. Complications included pin tract swelling and erythema in 13% and all resolved either with oral antibiotics alone or combined with surgical release of pin sites under local anesthesia. CONCLUSION: The Ortho SUV is an effective tool to carry out deformity corrections using the Ilizarov method.
Ilizarov Technique ; External Fixators ; Upper Extremity ; Pelvis