中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2013年
4期
683-687
,共5页
骨关节植入物%骨关节植入物综述%C 型臂%超短扫描路径%FDK 算法%有限角锥形束三维重建%超短扫描扇束重建算法%三维重建%感兴趣区%2D 图像%3D 模型%重建方法%国家自然科学基金
骨關節植入物%骨關節植入物綜述%C 型臂%超短掃描路徑%FDK 算法%有限角錐形束三維重建%超短掃描扇束重建算法%三維重建%感興趣區%2D 圖像%3D 模型%重建方法%國傢自然科學基金
골관절식입물%골관절식입물종술%C 형비%초단소묘로경%FDK 산법%유한각추형속삼유중건%초단소묘선속중건산법%삼유중건%감흥취구%2D 도상%3D 모형%중건방법%국가자연과학기금
背景:CT 成像质量的优劣不仅取决于仪器的精密性和先进性,在很大程度上也取决于重建算法,由二维扇束扫描向三维锥束扫描是 CT 技术的发展方向,因此,寻找一种合适的锥束重建算法具有无法忽略的意义.目的:探讨基于 C 型臂超短扫描路径锥束投影的图像合成,为实现基于 C 型臂2D 投影图像的3D 模型重建提供算法支持.方法:由第一作者于2012年3至5月检索 PubMed 数据库、CNKI 系列数据库及万方数据库1990年至2011年文献.检索词为“C 型臂,超短扫描路径,FDK 算法,有限角锥形束三维重建,超短扫描扇束重建算法”,检索文章的语言种类为中文和英文.计算机初检得到58篇文献,其中19篇符合纳入标准被保留.结果与结论:基于 C 型臂2D 投影图像的3D 模型重建必须进行三维模型的重建,目前应用最为广泛的的三维图像重建方法仍然是 FDK.但是 FDK 算法适用于全路径,对超短路径而言不能直接采用,而通过将二维扇束重建算法推广到三维空间中而获得的短扫描轨迹的 FDK 类型锥束重建算法可对采集到的锥束投影数据进行感兴趣区域重建.未来的研究可针对减少噪声等干扰数据对重建质量造成的影响进行探讨.
揹景:CT 成像質量的優劣不僅取決于儀器的精密性和先進性,在很大程度上也取決于重建算法,由二維扇束掃描嚮三維錐束掃描是 CT 技術的髮展方嚮,因此,尋找一種閤適的錐束重建算法具有無法忽略的意義.目的:探討基于 C 型臂超短掃描路徑錐束投影的圖像閤成,為實現基于 C 型臂2D 投影圖像的3D 模型重建提供算法支持.方法:由第一作者于2012年3至5月檢索 PubMed 數據庫、CNKI 繫列數據庫及萬方數據庫1990年至2011年文獻.檢索詞為“C 型臂,超短掃描路徑,FDK 算法,有限角錐形束三維重建,超短掃描扇束重建算法”,檢索文章的語言種類為中文和英文.計算機初檢得到58篇文獻,其中19篇符閤納入標準被保留.結果與結論:基于 C 型臂2D 投影圖像的3D 模型重建必鬚進行三維模型的重建,目前應用最為廣汎的的三維圖像重建方法仍然是 FDK.但是 FDK 算法適用于全路徑,對超短路徑而言不能直接採用,而通過將二維扇束重建算法推廣到三維空間中而穫得的短掃描軌跡的 FDK 類型錐束重建算法可對採集到的錐束投影數據進行感興趣區域重建.未來的研究可針對減少譟聲等榦擾數據對重建質量造成的影響進行探討.
배경:CT 성상질량적우렬불부취결우의기적정밀성화선진성,재흔대정도상야취결우중건산법,유이유선속소묘향삼유추속소묘시 CT 기술적발전방향,인차,심조일충합괄적추속중건산법구유무법홀략적의의.목적:탐토기우 C 형비초단소묘로경추속투영적도상합성,위실현기우 C 형비2D 투영도상적3D 모형중건제공산법지지.방법:유제일작자우2012년3지5월검색 PubMed 수거고、CNKI 계렬수거고급만방수거고1990년지2011년문헌.검색사위“C 형비,초단소묘로경,FDK 산법,유한각추형속삼유중건,초단소묘선속중건산법”,검색문장적어언충류위중문화영문.계산궤초검득도58편문헌,기중19편부합납입표준피보류.결과여결론:기우 C 형비2D 투영도상적3D 모형중건필수진행삼유모형적중건,목전응용최위엄범적적삼유도상중건방법잉연시 FDK.단시 FDK 산법괄용우전로경,대초단로경이언불능직접채용,이통과장이유선속중건산법추엄도삼유공간중이획득적단소묘궤적적 FDK 류형추속중건산법가대채집도적추속투영수거진행감흥취구역중건.미래적연구가침대감소조성등간우수거대중건질량조성적영향진행탐토.
@@@@BACKGROUND: The merit of CT imaging quality not only depends on the precision and advance of the instrument, but also depends on the reconstruction algorithm. Developing from the two dimensional fan bunch scan to the three-dimensional cone bunch scan is the development trend of CT technology. Therefore, looking for a suitable cone bunch reconstruction algorithm has a great significance. OBJECTIVE: To explore the cone projection image synthesis based on C-arm super short scan path in order to provide the algorithm support for the realization of C-arm based two-dimensional projection image and three-dimensional model rebuilding.METHODS: The PubMed database, CNKI database and Wanfang database were searched by the first author from March 2012 to May 2012 for the related articles published from 1990 to 2011. The key words were “C-arm, super short scan path, FDK algorithm, limited cone angle of three-dimensional reconstruction, super short scanning fan bunch of reconstruction algorithm”, the language of the retrieved articles were Chinese and English. A total of 58 articles were obtained after initial screen, and final y 19 articles that met the inclusion criteria were included. RESULTS AND CONCLUSION: The three-dimensional model reconstruction based on C-arm two-dimensional projection image must be treated with three-dimensional model reconstruction. Currently, the most widely used three-dimensional image reconstruction method was FDK algorithm. However, the FDK algorithm only suitable for the whole pathway, and cannot directly used for super short scan path. The short scanning trajectory FDK cone bunch reconstruction algorithm obtained through extending the two-dimensional fan bunch reconstruction algorithm to the three-dimensional space could reconstruct the interest region of the col ected cone bunch projection data. Future studies may explore the effect of noise reducing and other interference data on the reconstruction quality.
