A MINIMALLY INVASIVE CAGE FOR SPINAL FUSION SURGERY UTILIZING SUPERELASTIC HINGES

机译：利用超弹力铰链进行微创手术的脊柱融合术

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A prototype cage implant for spinal fusion surgery has been designed and developed. Spinal fusion surgery is sometimes performed to alleviate low back pain. The cage implant is a spacer that sits in between two vertebrae to allow for bone growth and fusion, all while relieving compression of the spinal cord. The cage implant is minimally invasive in nature, utilizing embedded nitinol hinges as dual purpose actuators and assembly structural elements. The cage implant utilizes elliptical shaped nitinol hinge pins as actuators to allow the cage to be in a straightened before deployment and manipulate its shape to an oblong octagon once within the disc space. A new modeling technique was developed to aid with the design of the nitinol ellipses. The model is MATLAB based and accounts for the non Mises behavior of nitinol through a correction factor for mapping the effective stress and strain. A nitinol rod and an elliptical geometry were examined experimentally and show the robustness of the developed model. These experiments were conducted to design the nitinol hinges for the cage implant. The cage implant is made of two different materials, nitinol hinge actuators and the containing titanium structural segments. The nitinol hinge actuators are completely enclosed within the medical grade titanium segments through the use of selective laser sintering.

机译：已经设计和开发了用于脊柱融合手术的笼式植入物原型。有时会进行脊柱融合手术以减轻腰痛。笼式植入物是位于两个椎骨之间的间隔物，以允许骨骼生长和融合，同时还减轻了脊髓的压迫。笼式植入物本质上是微创的，利用嵌入的镍钛合金铰链作为两用驱动器和组装结构元件。笼式植入物利用椭圆形的镍钛合金铰链销作为促动器，以允许笼在展开之前处于拉直状态，并一旦在椎间盘空间内将其形状调整为长方形八角形。开发了一种新的建模技术，以帮助设计镍钛合金椭圆形。该模型基于MATLAB，并通过用于绘制有效应力和应变的校正因子解决了镍钛诺的非Mises行为。实验测试了镍钛合金棒和椭圆形几何形状，并显示了开发模型的鲁棒性。进行这些实验以设计用于笼式植入物的镍钛合金铰链。笼状植入物由两种不同的材料制成：镍钛合金铰链致动器和包含钛的结构段。通过使用选择性激光烧结，可将镍钛合金铰链执行器完全封闭在医用级钛金属片内。

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《ASME conference on smart materials, adaptive structures and intelligent systems》|2014年|V001T03A026.1-V001T03A026.8|共8页
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Walter Anderson; Christoph Haberland; Mohammad Elahinia;
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1. Design, modeling and experimental evaluation of a minimally invasive cage for spinal fusion surgery utilizing superelastic Nitinol hinges [J] . Andani Masood Taheri, Anderson Walter, Elahinia Mohammad Journal of intelligent material systems and structures . 2015,第6期

机译：使用超弹性镍钛诺铰链的脊柱融合手术微创笼的设计，建模和实验评估
2. Design and testing of a minimally invasive intervertebral cage for spinal fusion surgery [J] . Walter Anderson, Cory Chapman, Zohreh Karbaschi, Smart structures and systems . 2013,第3期

机译：脊柱融合手术微创椎间融合器的设计与测试
3. Economics of less invasive spinal surgery: an analysis of hospital cost differences between open and minimally invasive instrumented spinal fusion procedures during the perioperative period [J] . John C Lucio, R Brent VanConia, Kevin J DeLuzio, Risk Management and Healthcare Policy . 2012,第2期

机译：侵入性较小的脊柱外科手术的经济学：围手术期开放式和微创性器械化脊柱融合术之间医院费用差异的分析
4. A MINIMALLY INVASIVE CAGE FOR SPINAL FUSION SURGERY UTILIZING SUPERELASTIC HINGES [C] . Walter Anderson, Christoph Haberland, Mohammad Elahinia ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems . 2014

机译：一种利用超弹性铰链的脊柱融合手术的微创笼
5. An electronic patient record (ePR) system for image-assisted minimally invasive spinal surgery. [D] . Documet, Jorge. 2009

机译：用于图像辅助的微创脊柱外科手术的电子病历（ePR）系统。
6. Economics of less invasive spinal surgery: an analysis of hospital cost differences between open and minimally invasive instrumented spinal fusion procedures during the perioperative period [O] . John C Lucio, R Brent VanConia, Kevin J DeLuzio, 2012

机译：侵入性较小的脊柱外科手术的经济性：围手术期开放式和微创性器械化脊柱融合术之间医院费用差异的分析
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A MINIMALLY INVASIVE CAGE FOR SPINAL FUSION SURGERY UTILIZING SUPERELASTIC HINGES

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