中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2014年
4期
601-606
,共6页
植入物%数字化骨科%VC++6.0%VTK%医学三维可视化系统%MC算法
植入物%數字化骨科%VC++6.0%VTK%醫學三維可視化繫統%MC算法
식입물%수자화골과%VC++6.0%VTK%의학삼유가시화계통%MC산법
software%imaging,three-dimensional%algorithms%man-machine systems
背景:目前通过二维断层图像信息来判断病变组织的具体性状其难度仍然较大,而运用医学三维重建技术,将能够显著改善医务工作者对相关疾病诊断的工作效率和准确率。<br> 目的:开发一套医学三维可视系统,能够通过读取髋关节 DICOM 数据重建相应部位三维模型,并通过重建模型直观观察病变髋关节的形态。<br> 方法:使用个人电脑在WindowsXP操作系统,开发环境为VC++6.0,安装VTK 5.6并进行必要设置,使用MFC开发一套医学三维可视化系统,具体步骤如下:①创建一个绘制对象。②创建一个绘制窗,将绘制对象加入绘制窗口。③读取 CT 图像序列,设置读取图像序列的路径。④使用 MC 算法抽取等值面(生成三角面片),根据灰度的不同,分别从切片数据中提取出皮肤和骨骼。设置输入图像序列数据;设置抽取的组织轮廓线灰度值。⑤建立三角带对象和数据映射对象。⑥实现图形的绘制,接收几何数据的属性,并分别对骨骼和皮肤设置不同的颜色和透明度。⑦设置视角位置,观察对象位置和焦点。⑧创建人机交互功能。<br> 结果与结论:使用 VC++6.0及 VTK可以满足医学三维可视系统开发的需求,开发的三维可视系统软件能通过对髋关节DICOM格式的CT图像序列进行三维重建,重建的髋关节三维模型可以使用旋转、缩放、平移来直观的观察髋关节的骨性结构,骨折形态及类型,对相关治疗及手术有一定参考作用。
揹景:目前通過二維斷層圖像信息來判斷病變組織的具體性狀其難度仍然較大,而運用醫學三維重建技術,將能夠顯著改善醫務工作者對相關疾病診斷的工作效率和準確率。<br> 目的:開髮一套醫學三維可視繫統,能夠通過讀取髖關節 DICOM 數據重建相應部位三維模型,併通過重建模型直觀觀察病變髖關節的形態。<br> 方法:使用箇人電腦在WindowsXP操作繫統,開髮環境為VC++6.0,安裝VTK 5.6併進行必要設置,使用MFC開髮一套醫學三維可視化繫統,具體步驟如下:①創建一箇繪製對象。②創建一箇繪製窗,將繪製對象加入繪製窗口。③讀取 CT 圖像序列,設置讀取圖像序列的路徑。④使用 MC 算法抽取等值麵(生成三角麵片),根據灰度的不同,分彆從切片數據中提取齣皮膚和骨骼。設置輸入圖像序列數據;設置抽取的組織輪廓線灰度值。⑤建立三角帶對象和數據映射對象。⑥實現圖形的繪製,接收幾何數據的屬性,併分彆對骨骼和皮膚設置不同的顏色和透明度。⑦設置視角位置,觀察對象位置和焦點。⑧創建人機交互功能。<br> 結果與結論:使用 VC++6.0及 VTK可以滿足醫學三維可視繫統開髮的需求,開髮的三維可視繫統軟件能通過對髖關節DICOM格式的CT圖像序列進行三維重建,重建的髖關節三維模型可以使用鏇轉、縮放、平移來直觀的觀察髖關節的骨性結構,骨摺形態及類型,對相關治療及手術有一定參攷作用。
배경:목전통과이유단층도상신식래판단병변조직적구체성상기난도잉연교대,이운용의학삼유중건기술,장능구현저개선의무공작자대상관질병진단적공작효솔화준학솔。<br> 목적:개발일투의학삼유가시계통,능구통과독취관관절 DICOM 수거중건상응부위삼유모형,병통과중건모형직관관찰병변관관절적형태。<br> 방법:사용개인전뇌재WindowsXP조작계통,개발배경위VC++6.0,안장VTK 5.6병진행필요설치,사용MFC개발일투의학삼유가시화계통,구체보취여하:①창건일개회제대상。②창건일개회제창,장회제대상가입회제창구。③독취 CT 도상서렬,설치독취도상서렬적로경。④사용 MC 산법추취등치면(생성삼각면편),근거회도적불동,분별종절편수거중제취출피부화골격。설치수입도상서렬수거;설치추취적조직륜곽선회도치。⑤건립삼각대대상화수거영사대상。⑥실현도형적회제,접수궤하수거적속성,병분별대골격화피부설치불동적안색화투명도。⑦설치시각위치,관찰대상위치화초점。⑧창건인궤교호공능。<br> 결과여결론:사용 VC++6.0급 VTK가이만족의학삼유가시계통개발적수구,개발적삼유가시계통연건능통과대관관절DICOM격식적CT도상서렬진행삼유중건,중건적관관절삼유모형가이사용선전、축방、평이래직관적관찰관관절적골성결구,골절형태급류형,대상관치료급수술유일정삼고작용。
BACKGROUND:It remains hard to judge characterization of lesion tissues using two-dimensional sectional image at present. Medical three-dimensional reconstruction technique could obviously improve work efficiency and accuracy of medical working staff on disease diagnosis. <br> OBJECTIVE:To develop a three-dimensional medical visualization system can rebuild three-dimensional model of corresponding parts by reading DICOM data, and observe the appearance of affected hip joint using reconstructed models. <br> METHODS:A three-dimensional (3D) medical visualization system was developed using the MFC in a PC with Windows XP operating system, development environment VC++6.0, VTK 5.6 instal ation, and necessary settings were made. Precise procedures are as fol ows: ① create a drawing object; ② create a drawing window, and draw objects was added in draw window; ③ read the CT image sequences, and set the path of the read image sequence; ④ isosurface (generate triangular facets) were extracted using MC algorithm, depending on the gray, skin and bones. Data of the input image sequence were set;gray value of tissue contour was set; ⑤the establishment of a V-belt objects and data mapping object; ⑥ graphics rendering, to receive the properties of the geometric data, and a different colors and transparency of bones and skin were set; ⑦ the viewing position was set to observe the position of the object and focus; ⑧ to create a human-computer interaction function. <br> RESULTS AND CONCLUSION:VC++6.0 and VTK could meet the needs of medical 3D visualization systems development. Developed 3D visualization system software could perform 3D reconstruction through reading CT images of DICOM format files. Thus, the relevant parts of the reconstructed 3D model could be observed by rotating, zooming, and panning so as to visual y observe the bone structure of hip joint, fractured appearance and type. It provided a reference for relevant therapy and operation.
