国际放射医学核医学杂志
國際放射醫學覈醫學雜誌
국제방사의학핵의학잡지
INTERNATIONAL JOURNAL OF RADIATION MEDICINE AND NUCLEAR MEDICINE
2010年
3期
190-192,封3
,共4页
贾彬%黄爱苓%陈福忠%门春燕%隋成宗%隋一鸣%杨允东
賈彬%黃愛苓%陳福忠%門春燕%隋成宗%隋一鳴%楊允東
가빈%황애령%진복충%문춘연%수성종%수일명%양윤동
体层摄影术,X线计算机%图像处理,计算机辅助%肱骨骨折%骨折移位
體層攝影術,X線計算機%圖像處理,計算機輔助%肱骨骨摺%骨摺移位
체층섭영술,X선계산궤%도상처리,계산궤보조%굉골골절%골절이위
Tomography,X-ray%Image processing,computer%Humeral fractures%Fractures displacement
目的 探讨常规X线摄影(正、侧位)时骨折移位影像表现的校正方法,并用CT验证.方法 根据X线摄影几何学原理设计出移位的校正方法.取一枚中段骨折的肱骨标本构成一定程度的侧方移位和成角移位后,将标本沿横轴多角度旋转并分别行前后(正位)、左右(侧位)方向X线拍摄,然后利用CT进行整个标本的容积扫描,并将容积扫描数据进行多维平面重建(MPR)及表面遮盖显示(SSD).对X线图像的移位程度及校正数据、MPR及SSD后的移位程度、标本实际移位程度分别进行比较分析.结果 经X线图像求得的校正数据、MPR及SSD后所得的数据与标本实际设置移位方向、程度误差较小,位置差异<1.5 mm,角度差异<1.5°.结论 常规X线摄影显示的骨折移位的影像表现经坐标图测量校正,方法真实可靠,可以显著提高X线诊断骨折移位程度的准确性.
目的 探討常規X線攝影(正、側位)時骨摺移位影像錶現的校正方法,併用CT驗證.方法 根據X線攝影幾何學原理設計齣移位的校正方法.取一枚中段骨摺的肱骨標本構成一定程度的側方移位和成角移位後,將標本沿橫軸多角度鏇轉併分彆行前後(正位)、左右(側位)方嚮X線拍攝,然後利用CT進行整箇標本的容積掃描,併將容積掃描數據進行多維平麵重建(MPR)及錶麵遮蓋顯示(SSD).對X線圖像的移位程度及校正數據、MPR及SSD後的移位程度、標本實際移位程度分彆進行比較分析.結果 經X線圖像求得的校正數據、MPR及SSD後所得的數據與標本實際設置移位方嚮、程度誤差較小,位置差異<1.5 mm,角度差異<1.5°.結論 常規X線攝影顯示的骨摺移位的影像錶現經坐標圖測量校正,方法真實可靠,可以顯著提高X線診斷骨摺移位程度的準確性.
목적 탐토상규X선섭영(정、측위)시골절이위영상표현적교정방법,병용CT험증.방법 근거X선섭영궤하학원리설계출이위적교정방법.취일매중단골절적굉골표본구성일정정도적측방이위화성각이위후,장표본연횡축다각도선전병분별행전후(정위)、좌우(측위)방향X선박섭,연후이용CT진행정개표본적용적소묘,병장용적소묘수거진행다유평면중건(MPR)급표면차개현시(SSD).대X선도상적이위정도급교정수거、MPR급SSD후적이위정도、표본실제이위정도분별진행비교분석.결과 경X선도상구득적교정수거、MPR급SSD후소득적수거여표본실제설치이위방향、정도오차교소,위치차이<1.5 mm,각도차이<1.5°.결론 상규X선섭영현시적골절이위적영상표현경좌표도측량교정,방법진실가고,가이현저제고X선진단골절이위정도적준학성.
Objective To explore the image correction of fracture displacement by conventional X-ray photography(orthotropic and lateral) and test by computed tomgraphy( CT ). Methods The correction method of fracture displacement was designed according to geometry principles of X-ray photography. Selected one m idhumeral fracture specimen which designed with lateral shift and angular displacement,and scanned from anteroposterior and lateral position respectively, and also volume scanned using CT, the data obtained from volume scan were processed using multiplanar reconstruction (MPR) and shaded surface display (SSD). The displacement data relied on X-ray image, CT with MPR and SSD processing, actual design of specimens were compared respectively. Result The direction and degree of displacement among correction data of X-ray images and the data from MPR and SSD, actual design of specimen were little difference, location difference<1.5 mm, degree difference< 1.5°. Conclusion It is really reliable for fracture displacement by conventional X-ray photography with coordinate correction, and it is helpful to obviously improve the diagnostic accuracy of the degree of fracture displacement.
