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16 16 Reconstruction of Blood Vessel Trees from Visible Human Data Zhenrong Qian and Linda Shapiro Computer Science & Engineering Department University of Washington

17 17 Introduction Goal –to reconstruct the blood vessels of the lungs from Visible Human Data Computer vision –semi-automation –low-level image processing –model construction

18 18 Visible Human Data: Slice through the Lung

19 19 Problems Encountered Data source –black spots that are not blood vessels –variations of lighting Characteristics of blood vessels –similar color surrounds –lack of knowledge –close location –shape variety –continuous change not expected –dense data

20 20 Finding the contours of a vessel being tracked (1) Previous contourCurrent slice EM SegmentationFalse color for the segmentation

21 21 Finding the contours of a vessel being tracked (2) The results after selecting regions of similar color to the tracked region Segmentation resultSelected regions

22 22 Finding the contours of a vessel being tracked (3) The results after selecting the region that overlaps most with the previous contour Region that overlaps most Selected regions

23 23 Find the contours of a vessel being tracked (4) The results after morphology to close holes and remove noise Selected region After noise removal

24 24 Find the contours of a vessel being tracked (5) The contour is determined through a fast- marching level-set approach Previous contourCurrent contour

25 25 How branching is handled One contour divides into two Two contours merge into one

26 26 The use of resampling when the axis is not vertical Track the axis through the center points of found contours Fit a spline curve Resample the data perpendicular to the spline curve Use the resampled contours for model creation

27 27 Center points of found contours Detect the axis Spline-fitted axis

28 28 Resample the data perpendicular to the spline curve

29 29 Overall Procedure for finding Vessel Trees The user selects a starting point The program automatically tracks the selected vessel and any branches it finds The program creates a generalized cylinder representation of the vessel tree The user may select more starting points

30 30 Some Initial Results Artery tree from single seedVein tree from single seed

31 31 Typical Cross Section

32 32 Results : blood vessels in right lung from previous section

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