机构地区:[1]广州医学院第三附属医院骨科,广东省广州市510150 [2]中山大学孙逸仙纪念医院骨科,广东省广州市510120
出 处:《中国组织工程研究》2012年第44期8348-8355,共8页Chinese Journal of Tissue Engineering Research
基 金:2008年广东省科技计划项目(2008A030201015);2011年广州市科技计划项目(2011J4100052)~~
摘 要:背景:随着现代科学技术尤其是计算机技术和医学技术的迅猛发展,现代脊柱外科进入了一个崭新的时代,呈现出数字化、个性化、显微化、精确化和人工智能化的发展趋势。目的:探讨数字化技术在脊柱外科中的应用研究进展。方法:文章检索词为"脊椎(spine);腰椎(lumbar);颈椎(cervical);数字化(digitization);脊柱外科(spinal surgery);数字骨科学(digital orthopedics);有限元模型(the finite elementmodel);计算机辅助设计(computer assisted design,CAD);微创技术(minimally invasive technology);三维重建(three dimensions reconstruction,3D);CT;磁共振成像(MRI);计算机仿真(computere mulation);内窥镜(endoscope);椎间盘(intervertebral disc);经皮内窥镜激光椎间盘切除术(percutaneous endoscopiclaser-assisted discectomy,PELD)",对有限元、计算机导航技术、微创技术以及医学影像在脊柱外科中的应用文献进行深入分析,探讨数字化脊柱外科手术的特点,临床效果以及安全性。结果与结论:数字化医学在有限元模型、计算机导航技术、微创技术、医学影像等领域研究进展的基础上,建立独特的脊柱外科新方法,并将其广泛应用于临床骨科。有限元模型最大的优势在于可以反映集体内部的应力变化情况,有限元分析应用于医学生物力学后,取得了很大的进步与发展。计算机导航技术的工作原理是利用数字化影像信息通过媒介体输入计算机工作站,经运算处理后重建三维模型影像,通过相关软件,在此影像基础上进行术前计划并模拟进程,通过高解像度的显示屏从各个方位观察到当前的手术入路以及各种参数,完成微创手术。微创脊柱外科采用微小切口或穿刺通道,运用特殊的器械或装置在影像仪器监视下或导航技术的引导下进行手术。医学影像分析作为信息科学技术为基础的交叉学科研究,对脊柱外科的临床诊断和观察具有参考价值。数字�BACKGROUND: With the rapid development of modern science and technology, especially computer technology and medical technology, modern spinal surgery has entered a new era, showing trends of digitization, personalization, microsurgery, precision and artificial intelligence.OBJECTIVE: To explore the application of digitization in spinal surgery.METHODS: A computer online retrieval was performed by the first author in CNKI and Wanfang database to search papers regarding the application of digitization technology in spinal surgery, using key words of "spine, lumbar, cervica digitization, spinal surgery, digital orthopedics, the finite element model, computer assisted design, minimally invasive technology, three dimensions reconstruction or 3D, CT, MRI, computer emulation, endoscope, intervertebral disc, percutaneous endoscopic laser-assisted discectomy or PELD". According to inclusion criteria, papers about the finite element model, computer navigation technology, minimally invasive technology, and medical imaging in spinal surgery were included for further analysis to explore the characteristics of digitized spine surgery, clinical efficacy and safety. RESULTS AND CONCLUSION: The digitization establishes the method of unique digitized spine surgery and widely uses in clinical orthopedics on the basis of the finite element model, computer navigation, minimally invasive technology, medical imaging and other areas of research progress. The biggest advantage of the finite element model is that it can reflect the collective internal stress changes. The analysis of finite element used in medical biomechanics, made a lot ofprogress and development. Computer navigation technology works using digital image information through the medium of the body to enter a computer workstation. The reconstruction of three-dimensional model of the image after operation processing and related software through high-resolution display observed from all directions to the surgical approach as well as a variety of parameters complet
关 键 词:脊椎 腰椎 颈椎 数字化 脊柱外科 数字骨科学 有限元模型 计算机辅助设计 微创技术 三维重建 CT 磁共振成像 计算机仿真 内窥镜
分 类 号:R318[医药卫生—生物医学工程]
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