Composite time-lapse computed tomography and micro finite element simulations: A new imaging approach for characterizing cement flows and mechanical benefits of vertebroplasty

Stadelmann Vincent A.; Zderic Ivan; Baur Annick; Unholz Cynthia; Eberli Ursula; Gueorguiev Boyko

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Composite time-lapse computed tomography and micro finite element simulations: A new imaging approach for characterizing cement flows and mechanical benefits of vertebroplasty

机译：复合延时计算机断层扫描和微观有限元模拟：一种用于表征水泥流动和椎骨成形术的机械益处的新成像方法

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Vertebroplasty has been shown to reinforce weak vertebral bodies and reduce fracture risks, yet cement leakage is a major problem that can cause severe complications. Since cement flow is nearly impossible to control during surgery, small volumes of cement are injected, but then mechanical benefits might be limited. A better understanding of cement flows within bone structure is required to further optimize vertebroplasty and bone augmentation in general. We developed a novel imaging method, composite time-lapse CT, to characterize cement flow during injection.

机译：椎骨成形术已显示出可增强椎体的脆弱性并降低骨折的风险，但骨水泥渗漏是可导致严重并发症的主要问题。由于在手术过程中几乎无法控制水泥流量，因此需要注入少量水泥，但机械效益可能会受到限制。通常，需要更好地了解骨结构内的骨水泥流动，以进一步优化椎骨成形术和骨增强。我们开发了一种新颖的成像方法，即复合延时CT，以表征注入过程中的水泥流。

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来源
《Medical engineering & physics.》 |2016年第2期|共11页
作者
Stadelmann Vincent A.; Zderic Ivan; Baur Annick; Unholz Cynthia; Eberli Ursula; Gueorguiev Boyko;
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正文语种 eng
中图分类生物医学工程;
关键词
Micro computed tomography; Computed tomography; Time-lapse imaging; Vertebroplasty; Bone augmentation; Finite-element method;

机译：微型计算机体层摄影术;计算机断层摄影术;延时成像;椎体成形术;骨增大;有限元法;

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1. Composite time-lapse computed tomography and micro finite element simulations: A new imaging approach for characterizing cement flows and mechanical benefits of vertebroplasty [J] . Stadelmann Vincent A., Zderic Ivan, Baur Annick, Medical engineering & physics. . 2016,第2期

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Composite time-lapse computed tomography and micro finite element simulations: A new imaging approach for characterizing cement flows and mechanical benefits of vertebroplasty

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