Correction of probe pressure artifacts in freehand 3D ultrasound

We present an algorithm which combines non-rigid image-based registration and conventional position sensing to correct probe-pressure-induced registration errors in freehand three-dimensional (3D) ultrasound volumes. The local accuracy of image-based registration enables the accurate freehand acquisition of high resolution (>15 MHz) 3D ultrasound data, opening the way for 3D musculoskeletal examinations. External position sensor readings guarantee the large-scale positional accuracy of the data. Pressure correction is shown to dramatically increase the perceived quality of extended-field-of-view data sets and reslices through volumetric data sets, while quantitative comparisons of multiple in vivo volumes demonstrate the superior precision of the corrected data.

[1]  Robert Rohling,et al.  A comparison of freehand three-dimensional ultrasound reconstruction techniques , 1999, Medical Image Anal..

[2]  Peter F. M. Nacken Chamfer metrics, the medial axis and mathematical morphology , 2004, Journal of Mathematical Imaging and Vision.

[3]  Jae Hyun Kim,et al.  US extended-field-of-view imaging technology. , 1997, Radiology.

[4]  K J Parker,et al.  Multilevel and motion model-based ultrasonic speckle tracking algorithms. , 1998, Ultrasound in medicine & biology.

[5]  B. Friemel,et al.  Experimental velocity profiles and volumetric flow via two-dimensional speckle tracking. , 1995, Ultrasound in medicine & biology.

[6]  Andrew H. Gee,et al.  Stradx: real-time acquisition and visualisation of freehand 3D ultrasound , 1998 .

[7]  Andrew H. Gee,et al.  Stradx: real-time acquisition and visualization of freehand three-dimensional ultrasound , 1999, Medical Image Anal..

[8]  Pai-Chi Li,et al.  On velocity estimation using speckle decorrelation [blood] , 2001 .

[9]  P. Carson,et al.  Automated three-dimensional US frame positioning computed from elevational speckle decorrelation. , 1998, Radiology.

[10]  R W Prager,et al.  Rapid calibration for 3-D freehand ultrasound. , 1998, Ultrasound in medicine & biology.

[11]  Andrew H. Gee,et al.  Correction of Probe Pressure Artifacts in Freehand 3D Ultrasound , 2001, MICCAI.

[12]  B. Fornage,et al.  US with extended field of view: phantom-tested accuracy of distance measurements. , 2000, Radiology.

[13]  J Meunier Tissue motion assessment from 3D echographic speckle tracking. , 1998, Physics in medicine and biology.

[14]  A. Fenster,et al.  Optimum scan spacing for three-dimensional ultrasound by speckle statistics. , 2000, Ultrasound in medicine & biology.

[15]  J F Krücker,et al.  3D spatial compounding of ultrasound images using image-based nonrigid registration. , 2000, Ultrasound in medicine & biology.

[16]  Max A. Viergever,et al.  A survey of medical image registration , 1998, Medical Image Anal..