An in vitro biomechanical study of bone plate and interlocking nail in a canine diaphyseal femoral fracture model

Bernardé, Antoine; Diop, Amadou Gallo; Maurel, Nathalie; Viguier, É.

doi:10.1053/jvet.2001.25863

Cited by 44 publications

(72 citation statements)

References 32 publications

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“…This method has been recommended by the authors in a number of previous mechanical studies. [6][7][8][9][10] Initially quasi-static testing was carried out on all specimens using an Instron 4507 universal testing machine. The specimens were first tested in compression to a maximum load of 450 N. The compression force was applied along the central axis of the bone specimen.…”

Section: Methodsmentioning

confidence: 99%

A Mechanical Comparison of the Locking Compression Plate (LCP) and the Low Contact-Dynamic Compression Plate (DCP) in an Osteoporotic Bone Model

Snow¹,

Thompson²,

Turner³

2008

Journal of Orthopaedic Trauma

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Section: Methodsmentioning

confidence: 99%

A Mechanical Comparison of the Locking Compression Plate (LCP) and the Low Contact-Dynamic Compression Plate (DCP) in an Osteoporotic Bone Model

Snow¹,

Thompson²,

Turner³

2008

Journal of Orthopaedic Trauma

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“…A longer bone plate is generally more suitable because forces are more distributed; there is less tension at the place of absent bone (Rozbruch et al 1998;Stoffel et al 2003) because concentration of bending forces is prevented at the site of the hollow opening (unfilled with screw) of the plate. The size (robustness) of the bone plate that may be used in given case for fixation, however, tends to be limited by the size of the experimental animal, while a suitable alternative appears to be the use of larger-sized bone plates (Bernarde et al 2001). Although we found 3 cases of bone plate breaking in the group of pigs with segmental femoral osteotomy fixated using the five-hole 4.5 mm titanium LCP, we did not find a significant difference in the occurrence of fixation failure in the form of broken LCP compared to the group of animals with the bone defect stabilized using the six-hole 3.5 mm LCP.…”

Section: Discussionmentioning

confidence: 99%

Radiographic Assessment of Implant Failures of Titanium 3.5 LCP vs. 4.5 LCP Used for Flexible Bridging Osteosynthesis of Large Segmental Femoral Diaphyseal Defects in a Miniature Pig Model

et al. 2010

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The study describes types, absolute and relative numbers of implant failures in flexible bridging osteosynthesis using a six-hole 3.5 mm titanium Locking Compression Plate (n = 9) or a fivehole LCP 4.5 mm titanium (n = 40) selected for the fixation of segmental ostectomy of femoral diaphysis in the miniature pig used as an in vivo model in a study on the healing of a critically sized bone defect using transplantation of mesenchymal stem cells combined with biocompatible scaffolds within a broader research project.Occasional implant failure was evaluated based on radiographic examination of femurs of animals 2, 4, 8, 12 and 16 weeks after surgery. When bone defect was stabilized using 3.5 mm LCP, in 6 cases (66.7%) the screw was broken/lost in the proximal fragment of the femur 2 weeks after implantation (n = 4) and 4 weeks after implantation (n = 2). In 4 cases of these, the implant failure was accompanied also by loosening of the screw in position 3 in the proximal fragment of the femur. During ostectomy stabilization with 4.5 mm LCP, in 3 cases (7.5%) LCP was broken at the place of the empty central plate hole (without inserted screw) at the level of the segmental bone defect.Compared to the six-hole 3.5 mm LCP, the five-hole titanium 4.5 mm LCP is more suitable implant for flexible bridging osteosynthesis of a critically sized segmental defect of femoral diaphysis in the miniature pig. The results of this study will allow reducing implant failures in time-and cost-demanding transplantation experiments focused on bone healing.

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“…Osteosynthesis methods of relative stability are used in the surgical treatment of fractures due to its properties' mechanical behavior, once a lower level of stiffness enables fragments to move on fracture core, thus stimulating osteogenesis, and this fact has led to the development of a number of experimental studies comparing rigid plates to blocked intramedullary nails of relative stability (4)(5)(6)(7)(8) . External fixation systems may be used as an osteosynthesis method of relative stability and are dependent on the kind of assembly and on the accessories employed to enhance stability (9) .…”

Section: Discussionmentioning

confidence: 99%

Propriedades mecânicas de um sistema de osteossíntese de estabilidade relativa

et al. 2008

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Neste trabalho foram estudadas as propriedades mecânicas de um novo sistema de osteossíntese metálica (SPS® - Sistema Pengo de Síntese) por meio de ensaios mecânicos de flexão e torção. Os SPS® foram montados e fixados em bastões cilíndricos de madeira. Para os ensaios mecânicos foram adotados nove grupos de modelos em função dos três comprimentos de placas e das três distâncias de montagem entre as placas. Os ensaios de flexão foram realizados com o SPS® na posição lateral em relação ao eixo de movimentação da máquina de ensaios. Para os ensaios de torção não se adotou nenhuma posição específica do SPS®. Os resultados das propriedades de rigidez e da deflexão do SPS®, nos ensaios mecânicos de flexão e torção, tiveram a interferência das variantes números de furos nas placas e o espaço entre as placas, ou seja, quanto maior o número de furos nas placas e menor o espaço entre elas maior a rigidez e menor a deflexão. Conclui-se que a rigidez e a deflexão variaram proporcionalmente ao número de furos nas placas e ao espaço entre elas.

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An in vitro biomechanical study of bone plate and interlocking nail in a canine diaphyseal femoral fracture model

Abstract: Structural properties and interfragmentary shear motion analysis demonstrated a much higher rigidity in the IN-bone than in the DCP-bone constructs.

Cited by 44 publications

References 32 publications

A Mechanical Comparison of the Locking Compression Plate (LCP) and the Low Contact-Dynamic Compression Plate (DCP) in an Osteoporotic Bone Model

A Mechanical Comparison of the Locking Compression Plate (LCP) and the Low Contact-Dynamic Compression Plate (DCP) in an Osteoporotic Bone Model

Radiographic Assessment of Implant Failures of Titanium 3.5 LCP vs. 4.5 LCP Used for Flexible Bridging Osteosynthesis of Large Segmental Femoral Diaphyseal Defects in a Miniature Pig Model

Propriedades mecânicas de um sistema de osteossíntese de estabilidade relativa

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