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3D ultrasound measurement of large organ volume

2001; Elsevier BV; Volume: 5; Issue: 1 Linguagem: Inglês

10.1016/s1361-8415(00)00034-7

1361-8431

Graham M. Treece, Richard W. Prager, Andrew H. Gee, L Berman,

Surgical Simulation and Training

Freehand 3D ultrasound is particularly appropriate for the measurement of organ volumes. For small organs, which can be fully examined with a single sweep of the ultrasound probe, the results are known to be much more accurate than those using conventional 2D ultrasound. However, large or complex shaped organs are difficult to quantify in this manner because multiple sweeps are required to cover the entire organ. Typically, there are significant registration errors between the various sweeps, which generate artifacts in an interpolated voxel array, making segmentation of the organ very difficult. This paper describes how sequential freehand 3D ultrasound, which does not employ an interpolated voxel array, can be used to measure the volume of large organs. Partial organ cross-sections can be segmented in the original B-scans, and then combined, without the need for image-based registration, to give the organ volume. The inherent accuracy (not including position sensor and segmentation errors) is demonstrated in simulation to be within ±2%. The in vivo precision of the complete system is demonstrated (by repeated observations of a human liver) to be ±5%.