Morphological errors in 3D bone models of the distal femur and proximal tibia generated from magnetic resonance imaging and computed tomography determined using two registration methods

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Morphological errors in 3D bone models of the distal femur and proximal tibia generated from magnetic resonance imaging and computed tomography determined using two registration methods

机译：磁共振成像和计算机断层扫描使用两种配准方法确定的股骨远端和胫骨近端3D骨模型的形态学误差

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Three dimensional models of the femur and tibia from MRI and CT are used in various studies of knee biomechanics but morphological errors occur.The objectives were to determine the morphological errors in 3D bone models from MRI and CT using clinically-adopted imaging protocols,to determine whether these errors are affected by the method of registration to a gold-standard 3D model,and to determine whether the slice thickness of CT affects errors.CT and MRI scans of 13 human cadaveric knees were performed and 3D bone models of the distal femur and proximal tibia were compared to a gold-standard 3D bone model generated by laser scanning.Registration of the models from MRI and CT to those from laser scanning was performed using the iterative closest point (ICP) algorithm and fiducial markers.The key findings were that 1) 3D bone models generated with CT yield submillimeter accuracy while 3D models generated with MRI yield accuracy worse than 1 mm; 2) CT bone models slightly overestimate the bone morphology,while the MRI bone models substantially underestimate it; 3) morphological errors of 3D bone models from 0.625 mm and 1.25 mm slice thickness CT scans are not different; and 4) ICP registration underestimates the morphological errors compared to registration with fiducial markers.

机译：MRI和CT使用的股骨和胫骨三维模型用于各种膝关节生物力学研究，但会发生形态学错误。目的是使用临床采用的成像方案从MRI和CT确定3D骨模型的形态学错误，以确定这些错误是否受金标准3D模型的注册方法影响，并确定CT的切片厚度是否影响错误。对13个人的尸体膝盖进行了CT和MRI扫描，并对股骨远端和将胫骨近端与通过激光扫描生成的金标准3D骨模型进行比较，使用迭代最近点（ICP）算法和基准标记对MRI和CT模型与激光扫描模型进行配准。 1）以CT产生的3D骨骼模型产生亚毫米级的精度，而以MRI产生的3D模型产生的精度小于1毫米; 2）CT骨骼模型略微高估了骨骼形态，而MRI骨骼模型则低估了骨骼形态; 3）从0.625 mm和1.25 mm切片厚度的CT扫描得出的3D骨模型的形态学误差没有差异; （4）与使用基准标记进行注册相比，ICP注册低估了形态错误。

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《Computer methods in biomechanics and bio》 |2020年第2期|31-39|共9页
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Department of Mechanical Engineering University of California Davis CA USA;

Department of Biomedical Engineering University of California Davis CA USA;

Department of Mechanical Engineering University of California Davis CA USA Department of Biomedical Engineering University of California Davis CA USA Department of Orthopaedic Surgery University of California Davis CA USA;

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3D bone models; total knee arthroplasty; computed tomography; magnetic resonance imaging; medical imaging; slice thickness; knee; bone morphology; accuracy; laser scanner;

机译：3D骨骼模型;全膝关节置换术CT检查;磁共振成像医学影像;切片厚度膝盖;骨形态准确性;激光扫描仪;

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1. In vivo estimation of bone stiffness at the distal femur and proximal tibia using ultra-high-field 7-Tesla magnetic resonance imaging and micro-finite element analysis [J] . ChangG., RajapakseC.S., BabbJ.S., Journal of bone and mineral metabolism . 2012,第2期

机译：使用超高场7-Tesla磁共振成像和微有限元分析在体内评估股骨远端和胫骨近端的骨刚度
2. In vivo estimation of bone stiffness at the distal femur and proximal tibia using ultra-high-field 7-Tesla magnetic resonance imaging and micro-finite element analysis [J] . Gregory Chang, Chamith S. Rajapakse, James S. Babb, Journal of Bone and Mineral Metabolism . 2012,第2期

机译：使用超高场7-Tesla磁共振成像和微有限元分析在体内评估股骨远端和胫骨近端的骨刚度
3. Trabecular bone architecture in the distal radius using magnetic resonance imaging in subjects with fractures of the proximal femur. Magnetic Resonance Science Center and Osteoporosis and Arthritis Research Group. [J] . Majumdar S, Link TM, Augat P, Osteoporosis international: a journal established as result of cooperation between the European Foundation for Osteoporosis and the National Osteoporosis Foundation of the USA . 1999,第3期

机译：股骨近端骨折的患者使用磁共振成像在in骨远端的小梁骨结构。磁共振科学中心和骨质疏松和关节炎研究小组。
4. Combined registration of 3D tibia and femur implant models in 3D magnetic resonance images [C] . Karl-Hans Englmeier, Markus Siebert, Ruediger von Eisenhart-Rothe, Physiology, Function, and Structure from Medical Images . 2008

机译：3D磁共振图像中3D胫骨和股骨植入物模型的组合配准
5. Segmentation of proximal femur in 3d magnetic resonance images for detection of cam type fai. [D] . Arezoomandershadi, Sadaf. 2014

机译：在3d磁共振图像中对股骨近端进行分割以检测cam型fai。
6. Three-Dimensional Quantification of Bone Mineral Density in the Distal Femur and Proximal Tibia Based on Computed Tomography: In Vitro Evaluation of an Extended Standardization Method [O] . Hugo Babel, Patrick Omoumi, Killian Cosendey, 2021

机译：基于计算断层扫描的远端股骨和近端胫骨骨密度的三维定量：扩展标准化方法的体外评价
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机译：使用成人猪（sus scrofa）低血容量模型中的EX IO骨内装置比较高压下胫骨近端，肱骨近端和远端股骨输注率。

Morphological errors in 3D bone models of the distal femur and proximal tibia generated from magnetic resonance imaging and computed tomography determined using two registration methods

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