还原(数学)
尸体痉挛
骨折复位
3d打印
医学
骨合成
断裂(地质)
外固定器
外科
口腔正畸科
核医学
生物医学工程
射线照相术
材料科学
数学
几何学
复合材料
作者
Matthew D. Johnson,Daniel D. Lewis,William A. Sutton,Logan M. Scheuermann,Christina C. De Armond,Stanley E. Kim,Adam H. Biedrzycki
标识
DOI:10.2460/ajvr.21.12.0215
摘要
To assess the feasibility and accuracy of using 2 methods for reduction and alignment of simulated comminuted diaphyseal tibial fractures in conjunction with 3-D-printed patient-specific pin guides.Paired pelvic limbs from 8 skeletally mature dogs weighing 20 to 35 kg.CT images of both tibiae were obtained, and 3-D reconstructions of the tibiae were used to create proximal and distal patient-specific pin guides. These guides were printed and used to facilitate fracture reduction and alignment in conjunction with either a 3-D-printed reduction guide or a linear type 1A external fixator. Postreduction CT images were used to assess the accuracy of pin guide placement and the accuracy of fracture reduction and alignment.The 3-D-printed guides were applied with acceptable ease. Guides for both groups were placed with minor but detectable deviations from the planned location (P = .01), but deviations were not significantly different between groups. Fracture reduction resulted in similar minor but detectable morphological differences from the intact tibiae (P = .01). In both groups, fracture reduction and alignment were within clinically acceptable parameters for fracture stabilization by means of minimally invasive plate osteosynthesis.Virtual surgical planning and fabrication of patient-specific 3-D-printed pin guides have the potential to facilitate fracture reduction and alignment during use of minimally invasive plate osteosynthesis for fracture stabilization.
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