1 / 17

Authors: Jurgen Fripp, Stuart Crozier, Simon K Warfield, S´ebastien Ourselin

Automatic segmentation of the bone and extraction of the bone–cartilage interface from magnetic resonance images of the knee. Authors: Jurgen Fripp, Stuart Crozier, Simon K Warfield, S´ebastien Ourselin Source: PHYSICS IN MEDICINE AND BIOLOGY 52 (2007) 1617–1631 Speaker: Yi-Chun Ke

golda
Download Presentation

Authors: Jurgen Fripp, Stuart Crozier, Simon K Warfield, S´ebastien Ourselin

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Automatic segmentation of the bone and extraction of the bone–cartilage interface from magnetic resonance images of the knee Authors:Jurgen Fripp, Stuart Crozier, Simon K Warfield, S´ebastien Ourselin Source:PHYSICS IN MEDICINE AND BIOLOGY 52 (2007) 1617–1631 Speaker:Yi-Chun Ke Adviser:Bo-Chi Lai Ku-Yaw Chang

  2. Outline • Introduction • Method • Results • Conclusion

  3. femur patella Introduction muscle tissue • Osteoarthritis(OA) • Characterized • changes in the structure • degeneration of the cartilage tissue • Magnetic Resonance Imaging(MRI ) • non-invasively adipose tissue tibia

  4. Method • point distribution model (PDM) • 3D-statistical shape models (3D-SSM) • 3D-active shape model(3D-ASM) • Dice similarity coefficient(DSC)

  5. Method • point distribution model (PDM) • 3D-statistical shape models (3D-SSM) • 3D-active shape model(3D-ASM) • Dice similarity coefficient(DSC)

  6. Method • point distribution model (PDM) • Landmarking and obtaining correspondence • Representthe shape of the bones

  7. Method • point distribution model (PDM) • 3D-statistical shape models (3D-SSM) • 3D-active shape model(3D-ASM) • Dice similarity coefficient(DSC)

  8. Method • 3D-statistical shape models (3D-SSM) • estimate the pose and shape • individual SSM of each of the bones (patella, tibia and femur) • combined knee SSM Affine

  9. Method • point distribution model (PDM) • 3D-statistical shape models (3D-SSM) • 3D-active shape model(3D-ASM) • Dice similarity coefficient(DSC)

  10. Method • 3D-active shape model(3D-ASM) • two components • SSM • matching criteria (often an appearance model) • two steps • Deformation • Shape restriction

  11. Method • shape constraints obtained from the small database are overly restrictive • Disabling shape constraints • Replacing • BCI > 95% relax 3D ASM

  12. Method • point distribution model (PDM) • 3D-statistical shape models (3D-SSM) • 3D-active shape model(3D-ASM) • Dice similarity coefficient(DSC)

  13. Method • Dice similarity coefficient(DSC) • sensitivity = TP/(TP + FN) • specificity = TN/(TN + FP) • Dice similarity coefficient = 2TP/(2TP + FP + FN) Tn Tp Fp Fn 實驗結果 標準答案

  14. Results

  15. Results

  16. Conclusion • automatically segment the bones andaccurately extract the BCI • each segmentation taking approximately 20 min • DSC of 0.96,0.96 and 0.89 (femur, tibia and patella) • only 3.60% failing • approach for automatic use in subsequentcartilage segmentation and quantitative analysis

  17. 參考文獻 • 吳政容,張顧耀,私立大葉大學資訊工程學系,以輻射轉換為基礎之膝關節軟骨分割,2009 • 陳彥菁,黃聖方,私立慈濟大學醫徐資訊研究所,應用類神經網路在三維乳房超音波影像腫瘤之切割,2008 • Jurgen Fripp, Stuart Crozier, Simon K Warfield, S´ebastien Ourselin, PHYSICS IN MEDICINE AND BIOLOGY,52,2007,1617–1631 • MRI原理 • http://www.cbshow.org.tw/internet/activity/mri/ • http://www2.cmu.edu.tw/~anatomy/ctanatomy/MRI/index.html • 膝蓋軟骨軟化症(髕骨軟骨軟化症) • http://www.mobile01.com/topicdetail.php?f=311&t=468552 • Shape Model Formulation • http://www2.imm.dtu.dk/%7Eaam/main/node12.html

More Related