西北工业大学学报
西北工業大學學報
서북공업대학학보
JOURNAL OF NORTHWESTERN POLYTECHNICAL UNIVERSITY
2009年
6期
812-816
,共5页
王萑%史仪凯%唐博%耶亚林%高亚
王萑%史儀凱%唐博%耶亞林%高亞
왕추%사의개%당박%야아림%고아
胸廓%漏斗胸%肋软骨%螺旋CT%图像处理%三维建模
胸廓%漏鬥胸%肋軟骨%螺鏇CT%圖像處理%三維建模
흉곽%루두흉%륵연골%라선CT%도상처리%삼유건모
image processing%image reconstruction%thorax%pectus excavatum(PE)%costal cartilage%spiral CT%3-D modeling%pre-processing treatment
为了快速、精确地从胸廓螺旋CT中提取肋骨、胸骨、脊椎与肋软骨并建立模型,文章提出了一种胸廓CT图像预处理与三维建模的方法.采用图像格式转换、灰度拉伸、自适应魏纳滤波、图像批处理等算法,滤除内脏、肌肉等噪声图像,增强胸廓各部分骨骼的区分度;再用阈值分割、区域增长等方法,分别建立胸廓硬骨三维模型与肋软骨三维模型,并装配成符合有限元受力分析要求的整体模型.结果表明,肋软骨模型的精确性得到了一定程度的提高,人工修改模型的工作量显著减少,三维建模周期缩短约40%.该方法为提供漏斗胸Nuss手术仿真奠定了基础,对Nuss手术中支撑板选材及定位具有重要参考价值.
為瞭快速、精確地從胸廓螺鏇CT中提取肋骨、胸骨、脊椎與肋軟骨併建立模型,文章提齣瞭一種胸廓CT圖像預處理與三維建模的方法.採用圖像格式轉換、灰度拉伸、自適應魏納濾波、圖像批處理等算法,濾除內髒、肌肉等譟聲圖像,增彊胸廓各部分骨骼的區分度;再用閾值分割、區域增長等方法,分彆建立胸廓硬骨三維模型與肋軟骨三維模型,併裝配成符閤有限元受力分析要求的整體模型.結果錶明,肋軟骨模型的精確性得到瞭一定程度的提高,人工脩改模型的工作量顯著減少,三維建模週期縮短約40%.該方法為提供漏鬥胸Nuss手術倣真奠定瞭基礎,對Nuss手術中支撐闆選材及定位具有重要參攷價值.
위료쾌속、정학지종흉곽라선CT중제취륵골、흉골、척추여륵연골병건립모형,문장제출료일충흉곽CT도상예처리여삼유건모적방법.채용도상격식전환、회도랍신、자괄응위납려파、도상비처리등산법,려제내장、기육등조성도상,증강흉곽각부분골격적구분도;재용역치분할、구역증장등방법,분별건립흉곽경골삼유모형여륵연골삼유모형,병장배성부합유한원수력분석요구적정체모형.결과표명,륵연골모형적정학성득도료일정정도적제고,인공수개모형적공작량현저감소,삼유건모주기축단약40%.해방법위제공루두흉Nuss수술방진전정료기출,대Nuss수술중지탱판선재급정위구유중요삼고개치.
The introduction of the full paper believes that good thorax spiral CT image reconstructions,essentially needed in Nuss PE(pectus excavatum)surgery,are unobtainable with the mainly used Mimics software.We believe we can make the Mimics software work through adding a pre-processing treatment.Section 1 deals with the transformation of image format.Section 2 discusses how to enhance the discrimination of thorax skeleton with gray stretching,adaptive Weiner filtering and image batch processing.Utilizing the simplification afforded by what has been done on pre-processing treatment in sections 1 and 2,section 3 establishes the simplified 3-D model:this establishment consists essentially of:(1)the threshold segmentation method and the region growth method were used to set up respectively the rigid thorax skeleton's 3-D model as shown in Fig.5 and the costal cartilage's 3-D model as shown in Fig.6;(2)then the two models were integrated into one,which can meet the requirements of finite element analysis.The discussion in section 4 indicates preliminarily that:(1)the pre-processing treatment enhances the accuracy of costal cartilage's model to some extent;(2)it also significantly reduces the manual modification of the thorax model;(3)last but most importantly,it shortens the time consumption for 3-D modeling by approximately 40%.