中华眼外伤职业眼病杂志
中華眼外傷職業眼病雜誌
중화안외상직업안병잡지
CHINESE JOURNAL OF OCULAR TRAUMA AND OCCUPATIONAL EYE DISEASE
2015年
2期
102-106
,共5页
张鹤%陈明%李鹤明%王梦%柴广睿%刘璐
張鶴%陳明%李鶴明%王夢%柴廣睿%劉璐
장학%진명%리학명%왕몽%시엄예%류로
眶骨折%眼眶模型%3 D打印机
眶骨摺%眼眶模型%3 D打印機
광골절%안광모형%3 D타인궤
Fracture,orbital%Model,orbit%Printer,3D
目的 探索根据骨折患者的C T数据应用3 D打印机制作个体化眼眶模型的方法.方法 将患者眼眶CT的医学数字成像和通信格式(digital imaging and communications in medicine,DICOM)影像数据通过交互式医学图像控制系统(materialise's interactive medical image control system, mimics)软件三维重建,生成3D模型文件格式(STL)文件,通过开源三维打印程序(Replicator G)软件将STL文件转化成X3g文件,最后X3g文件通过3 D打印机(Maker Bot Replicator 2)等比例打印出三维立体眼眶模型.结果 根据每个眼眶骨折患者的CT影像DICOM数据成功打印出个体化等比例眼眶骨折的三维实体模型.结论 基于mimics软件、Replicator G软件及3 D打印机制作的等比例眼眶实体三维模型,使临床医生能够更加充分地了解骨折的形态、面积及其与周围骨骼的三维结构关系.
目的 探索根據骨摺患者的C T數據應用3 D打印機製作箇體化眼眶模型的方法.方法 將患者眼眶CT的醫學數字成像和通信格式(digital imaging and communications in medicine,DICOM)影像數據通過交互式醫學圖像控製繫統(materialise's interactive medical image control system, mimics)軟件三維重建,生成3D模型文件格式(STL)文件,通過開源三維打印程序(Replicator G)軟件將STL文件轉化成X3g文件,最後X3g文件通過3 D打印機(Maker Bot Replicator 2)等比例打印齣三維立體眼眶模型.結果 根據每箇眼眶骨摺患者的CT影像DICOM數據成功打印齣箇體化等比例眼眶骨摺的三維實體模型.結論 基于mimics軟件、Replicator G軟件及3 D打印機製作的等比例眼眶實體三維模型,使臨床醫生能夠更加充分地瞭解骨摺的形態、麵積及其與週圍骨骼的三維結構關繫.
목적 탐색근거골절환자적C T수거응용3 D타인궤제작개체화안광모형적방법.방법 장환자안광CT적의학수자성상화통신격식(digital imaging and communications in medicine,DICOM)영상수거통과교호식의학도상공제계통(materialise's interactive medical image control system, mimics)연건삼유중건,생성3D모형문건격식(STL)문건,통과개원삼유타인정서(Replicator G)연건장STL문건전화성X3g문건,최후X3g문건통과3 D타인궤(Maker Bot Replicator 2)등비례타인출삼유입체안광모형.결과 근거매개안광골절환자적CT영상DICOM수거성공타인출개체화등비례안광골절적삼유실체모형.결론 기우mimics연건、Replicator G연건급3 D타인궤제작적등비례안광실체삼유모형,사림상의생능구경가충분지료해골절적형태、면적급기여주위골격적삼유결구관계.
Objective To investigate the application of 3D printer in making individual orbital model.Methods The digital imaging and communications in medicine (DICOM) CT image data of the patient' s eyes was reconstruted by using materialise' s interactive medical image control system (mimics) software to generate stereo lithography (STL) files,then STL files was turned into X3g files by ReplicatorG software,and finally three-dimensional orbital model was printed out proportionally by using 3D printers (Maker Bot Replicator 2).Results According to DICOM CT image data of each patient' s orbital fractures,a three-dimensional solid model of individualized proportional orbital fracture was successfully printed.Conclusion Based on mimics software and ReplicatorG software,three-dimensional proportional model of orbital entities could be made by 3D printers.It can enable clinicians to more fully understand on the morphology of fracture,the fracture area and the three-dimensional structure between the fracture and surrounding bone.