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Intra- and inter-observer reproducibility of volume measurement of knee cartilage segmented from the OAI MR image set using a novel semi-automated segmentation.

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Presentation on theme: "Intra- and inter-observer reproducibility of volume measurement of knee cartilage segmented from the OAI MR image set using a novel semi-automated segmentation."— Presentation transcript:

1 Intra- and inter-observer reproducibility of volume measurement of knee cartilage segmented from the OAI MR image set using a novel semi-automated segmentation method  K.T. Bae, H. Shim, C. Tao, S. Chang, J.H. Wang, R. Boudreau, C.K. Kwoh  Osteoarthritis and Cartilage  Volume 17, Issue 12, Pages (December 2009) DOI: /j.joca Copyright © 2009 Osteoarthritis Research Society International Terms and Conditions

2 Fig. 1 Overview of the semi-automated graph-cuts segmentation method. An observer interactively places two different types of seeds (one type over the cartilage region and the other over the non-cartilage tissues) on every 5–10 slices. The seeds are automatically propagated to the neighboring slides by the computer program, and the cartilage region is segmented automatically based on the graph-cuts algorithm. While the placement of seeds relies on the expert's perception and knowledge of knee anatomy, the second and third steps take advantage of the reliability of the computer. If the observer is not satisfied with the initial segmentation boundary result, the boundary can be revised by repeated placement of new seeds and re-execution of the automated segmentation until the results are satisfactory. Osteoarthritis and Cartilage  , DOI: ( /j.joca ) Copyright © 2009 Osteoarthritis Research Society International Terms and Conditions

3 Fig. 2 Sagittal MR images of the knee showing the processing steps of the semi-automated segmentation: (a) original image at slice #47, (b) initial seeding at slice #47, (c) graph-cuts segmentation at slice #53, (d) revised seeding at slice #53, and (e) final segmented cartilage at slice #53. An observer placed seeds over the cartilage regions (red lines) and background regions (e.g., bone, synovium, joint fluid, menisci: blue lines) of the mid-slice at slice #47 (b). Then, the seeds were copied and propagated automatically by the program backward and forward to neighboring slices (images not shown). The cartilage regions were automatically segmented by the computer based on the graph-cuts algorithm (c). Some areas that were incompletely or erroneously segmented after the first seeding and computation of segmentation were detected at slice #53 and subsequently revised (red for cartilage and blue for synovium) (d). After reseeding and re-computation, the segmentation was revised and deemed appropriate (e). Note that, although only one 2-D image slice is shown for illustration, the image processing was carried out 3-D over a volumetric MR image set. The images are from a subject with KL-grade 2. Osteoarthritis and Cartilage  , DOI: ( /j.joca ) Copyright © 2009 Osteoarthritis Research Society International Terms and Conditions

4 Fig. 3 Sagittal MR images of the knee: (a) original image, (b) segmented cartilage boundary, (c) cartilage compartmentalized into femur (yellow), tibia (cyan), and patella (pink), and (d) 3-D representation of the segmented cartilage. The images are from a subject with KL grade 4. The femoral cartilage shows increased thinning and focal defects, compared to that in Fig. 2 from a subject with KL grade 2. Osteoarthritis and Cartilage  , DOI: ( /j.joca ) Copyright © 2009 Osteoarthritis Research Society International Terms and Conditions

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