临床医学工程
臨床醫學工程
림상의학공정
CLINICAL MEDICAL ENGINEERING
2014年
8期
945-947
,共3页
伍锐%牛道立%杨波%许文伟%杨满珊
伍銳%牛道立%楊波%許文偉%楊滿珊
오예%우도립%양파%허문위%양만산
摆位验证系统%放射治疗%摆位误差%小金粒
襬位驗證繫統%放射治療%襬位誤差%小金粒
파위험증계통%방사치료%파위오차%소금립
System for positioning verification%Radiation therapy%Positioning error%Small gold particle
目的:开发一套摆位验证系统,以减少胸部肿瘤放射治疗病人的摆位误差,提高放疗精确度。方法在放射治疗摆位时将三个小金粒放置在病人骨性结构的表皮上,其位置呈三角形分布,此外,小金粒之间距离尽可能小,在Matlab2010软件平台上自行开发一套摆位验证系统,采用图像配准的方式识别病人体表上预先放置的三个小金粒的位置,并计算出每个小金粒的二维坐标值(X,Y),以此作为量化放疗摆位误差的依据,指导技术1进行精确摆位校准。在本研究中,选取一例病人,对其8次放疗摆位时,校准前和校准后的小金粒坐标位置误差值进行比较分析。结果经过摆位验证系统的检验和校准后,金粒1在X轴方向的摆位误差dX1减少了4.5~7.3mm,在Y轴上的摆位误差dY1的位置误差减少5.6~8.1mm;金粒2的dX2位置误差减少5.6~7.8mm,dY2位置误差减少5.7~7.8mm;金粒3的dX3位置误差减少5.3~8.4mm,dY3位置误差减少6.0~7.0mm。结论通过使用自行开发的摆位验证系统,可使放疗摆位精度得到较大提高。但本方法的不足之处在于其目前还无法对因病人体型变化所造成的误差进行定量分析。
目的:開髮一套襬位驗證繫統,以減少胸部腫瘤放射治療病人的襬位誤差,提高放療精確度。方法在放射治療襬位時將三箇小金粒放置在病人骨性結構的錶皮上,其位置呈三角形分佈,此外,小金粒之間距離儘可能小,在Matlab2010軟件平檯上自行開髮一套襬位驗證繫統,採用圖像配準的方式識彆病人體錶上預先放置的三箇小金粒的位置,併計算齣每箇小金粒的二維坐標值(X,Y),以此作為量化放療襬位誤差的依據,指導技術1進行精確襬位校準。在本研究中,選取一例病人,對其8次放療襬位時,校準前和校準後的小金粒坐標位置誤差值進行比較分析。結果經過襬位驗證繫統的檢驗和校準後,金粒1在X軸方嚮的襬位誤差dX1減少瞭4.5~7.3mm,在Y軸上的襬位誤差dY1的位置誤差減少5.6~8.1mm;金粒2的dX2位置誤差減少5.6~7.8mm,dY2位置誤差減少5.7~7.8mm;金粒3的dX3位置誤差減少5.3~8.4mm,dY3位置誤差減少6.0~7.0mm。結論通過使用自行開髮的襬位驗證繫統,可使放療襬位精度得到較大提高。但本方法的不足之處在于其目前還無法對因病人體型變化所造成的誤差進行定量分析。
목적:개발일투파위험증계통,이감소흉부종류방사치료병인적파위오차,제고방료정학도。방법재방사치료파위시장삼개소금립방치재병인골성결구적표피상,기위치정삼각형분포,차외,소금립지간거리진가능소,재Matlab2010연건평태상자행개발일투파위험증계통,채용도상배준적방식식별병인체표상예선방치적삼개소금립적위치,병계산출매개소금립적이유좌표치(X,Y),이차작위양화방료파위오차적의거,지도기술1진행정학파위교준。재본연구중,선취일례병인,대기8차방료파위시,교준전화교준후적소금립좌표위치오차치진행비교분석。결과경과파위험증계통적검험화교준후,금립1재X축방향적파위오차dX1감소료4.5~7.3mm,재Y축상적파위오차dY1적위치오차감소5.6~8.1mm;금립2적dX2위치오차감소5.6~7.8mm,dY2위치오차감소5.7~7.8mm;금립3적dX3위치오차감소5.3~8.4mm,dY3위치오차감소6.0~7.0mm。결론통과사용자행개발적파위험증계통,가사방료파위정도득도교대제고。단본방법적불족지처재우기목전환무법대인병인체형변화소조성적오차진행정량분석。
Objective To develop a set of position verification system, in order to reduce the positioning error of radiation therapy for the breast tumor patients and improve the precision of the radiation treatment. Methods When we do the radiation therapy position, three small gold particles should be put on the skin of patients' bony structure, and the location distribution of the three gold particles should be triangle, moreover, the distance between the gold particles should be short as possible. On the platform of Matlab 2010 software, we developed a set of system for position verification, the system adopted the method of image registration to distinguish the position of small goal particles on the patient's body surface, then calculated the 2 dimension coordinate value (X, Y) of the small gold particle, which could be used to quantize the displacement of radiation therapy position, in order to guide the therapist to verify the positioning error. In this paper, we selected one patient for 8 times of radiotherapy position, and the location error results of each time of the gold particles before position verification were compared with the ones after verification. Results After test and verification through the system, the position error on X axis-dX1 of the first gold particle tended to be reduced by 4.5~7.3 mm, the one on Y axis-dY1 tended to be reduced by 5.6~8.1 mm;the dX2 of the second gold particle reduced by 5.6~7.8 mm and the dY2 reduced by 5.7~7.8 mm;the dX3 of the third gold particle reduced by 5.3~8.4 mm and the dY3 reduced by 6.0~7.0 mm. Conclusions Through the system of position verification developed by ourselves, we can improve the precise of the radiation therapy position. But the defect of this method performs that we can not solve the problem that to do the quantitative analysis for the error which results from the patient body changes.
