RU2012112934A - SHAPING AN ULTRASONIC ELASTOGRAPHIC STRETCH IMAGE IMAGE - Google Patents

Abstract

1. An ultrasound diagnostic imaging system for generating strain images, comprising: an ultrasound probe with a matrix transducer configured to receive a plurality of frames of image field image data; a strain evaluation device responsive to image data to generate estimated strain values at a plurality of image field points; strain image processing device responsive to estimated strain values at image field points for a structural image of the deformation of the image field; a mode B processing device responsive to the image data to generate a structural image of mode B that spatially corresponds to the structural image of the strain; a display device connected to the strain image processing device and the mode B processing device to form an overlay of the structural image deformation and structural image of mode B in structural alignment, and user-controlled means control shading to change the relative transparency of the superimposed structural image of the strain and the structural image of mode B.2. The ultrasound diagnostic imaging system according to claim 1, wherein the transparency of the superimposed structural image of the strain varies from completely transparent to completely opaque. The ultrasound diagnostic imaging system of claim 1, wherein the strain image processing device generates image display values

Claims (11)

1. An ultrasonic diagnostic imaging system for imaging strain images, comprising: an ultrasound probe with a matrix transducer configured to receive a plurality of frames of image data of an image field image; a strain estimator responsive to image data for generating estimated strain values at a plurality of points of the image field; a strain image processing device responsive to estimated strain values at image field points to form a structural image of the image field strain; a mode B processing device responsive to image data to generate a structural image of mode B that spatially corresponds to a structural image of the strain; a display device connected to the strain image processing device and the mode B processing device for forming an overlay of the structural image of the strain and the structural image of mode B in structural alignment, and user-controlled shader control to change the relative transparency of the superimposed structural image of the strain and the structural image of mode B. 2. The ultrasound diagnostic imaging system according to claim 1, in which the transparency of the superimposed structural image of the strain varies in the range from fully transparent to completely opaque. 3. The ultrasound diagnostic imaging system according to claim 1, wherein the strain image processing device generates strain image display values with a color code in accordance with the estimated strain values, and in which the display device is further configured to form a color bar of display values of the strain image with a color code. 4. The ultrasound diagnostic imaging system according to claim 1, wherein the strain assessment device is further configured to detect an offset over a plurality of frames of image data by tracking speckles. 5. The ultrasound diagnostic imaging system according to claim 1, further comprising a Doppler processing device responsive to the image data and coupled to the strain assessment device to provide Doppler shift data or tissue Doppler speed data for strain assessment. 6. The ultrasound diagnostic imaging system according to claim 1, further comprising a mode B processing device responsive to the image data and coupled to the strain assessment device to provide image data with detected amplitude to evaluate the strain. 7. The ultrasound diagnostic imaging system according to claim 1, further comprising a user control device configured to designate supporting tissue in the deformation image, in which the strain image processing device is further configured to form a structural strain image in the ratio of the estimated strain values at a point in the image field to the strain amount of the supporting tissue. 8. The ultrasound diagnostic imaging system according to claim 1, wherein the strain assessment device is further configured to generate strain values as local estimates of frame-by-frame image deformation. 9. The ultrasound diagnostic imaging system of claim 8, in which the image deformation is formed by the physiological movement of the imaged object. 10. The ultrasound diagnostic imaging system of claim 8, in which the image deformation is formed by compression of the displayed image by the user. 11. The ultrasound diagnostic imaging system according to claim 1, further comprising a support tissue selection device configured to automatically designate support tissue in the deformation image, wherein the strain image processing device is further configured to form a structural strain image in the ratio of the estimated strain values at a point in the image field to the strain amount of the supporting tissue.