Shear wave amplitude reconstruction for tissue elasticity monitoring and display

What is claimed is: 1. An ultrasound imaging system for shear wave imaging comprising: an ultrasound transducer configured to acquire echoes responsive to ultrasound pulses transmitted toward a target tissue; a beamformer configured to: transmit, from the ultrasound transducer, tracking pulses in response to a push pulse, wherein the push pulse generates a shear wave in the target tissue and the tracking pulses are spatially planned to intersect the shear wave at one or more locales; and receive, from the ultrasound transducer, echo signals where the tracking pulses intersected the shear wave; and a processor in communication with the beamformer and configured to: store tracking echo data generated from the received echo signals; in response to the tracking echo data, determine a displacement amplitude of the shear wave propagating through the target tissue, wherein the determined displacement amplitude is determined at two or more laterally-spaced points within the target tissue; and based on the determined displacement amplitude, generate a qualitative tissue elasticity map of the target tissue by comparing the determined displacement amplitude to a reference displacement amplitude, wherein the reference displacement amplitude is determined at two or more laterally-spaced points within a reference tissue or is determined numerically from a simulated model, and wherein the processor is further configured to: determine a displacement amplitude decorrelation value by comparing the determined displacement amplitude at consecutive pairs of the laterally-spaced points within the target tissue; determine a reference displacement amplitude decorrelation value by comparing the determined displacement amplitude at consecutive pairs of the laterally-spaced points within the reference tissue; compare the displacement amplitude decorrelation value to the reference displacement amplitude decorrelation value; and based on the decorrelation value comparison, generate the qualitative tissue elasticity map. 2. The ultrasound imaging system of claim 1 , wherein the reference tissue comprises a phantom model of the target tissue. 3. The ultrasound imaging system of claim 1 , wherein the reference tissue comprises a patient sample of a tissue type corresponding to the target tissue and lacking a region of increased stiffness. 4. The ultrasound imaging system of claim 1 , wherein the ultrasound transducer is coupled to an ablation device, the ablation device configured to ablate a region of increased stiffness or a larger region comprising the region of increased stiffness. 5. The ultrasound imaging system of claim 4 , wherein the ultrasound transducer, beamformer and processor are configured to operate concurrently with the ablation device. 6. The ultrasound imaging system of claim 1 , further comprising a user interface configured to display the qualitative tissue elasticity map. 7. The ultrasound imaging system of claim 1 , wherein the reference displacement amplitude is derived from a reference map. 8. The ultrasound imaging system of claim 7 , further comprising a memory configured to store a plurality of reference maps. 9. The ultrasound imaging system of claim 1 , wherein the target tissue comprises a region of increased stiffness comprised of a thermal lesion. 10. The ultrasound imaging system of claim 1 , wherein comparing the determined displacement amplitude to the reference displacement amplitude includes detecting an attenuation variation based on a peak-to-peak difference between the determined displacement amplitude and the reference displacement amplitude. 11. A method of shear wave imaging, the method comprising: acquiring ultrasound echoes responsive to ultrasound pulses transmitted toward a target tissue; transmitting a push pulse into the target tissue to generate a shear wave in the target tissue; transmitting tracking pulses spatially planned to intersect the shear wave at one or more locales; receiving echo signals where the tracking pulses intersected the shear wave; storing tracking echo data generated from the received echo signals; determining a displacement amplitude of the shear wave propagating through the target tissue based on the tracking echo data, wherein the determined displacement amplitude is determined at two or more laterally-spaced points within the target tissue; and generating a qualitative tissue elasticity map of the target tissue based on the determined displacement amplitude, wherein generating the qualitative tissue elasticity map of the target tissue based on the determined displacement amplitude comprises comparing the determined displacement amplitude to a reference displacement amplitude, wherein the reference displacement amplitude is determined at two or more laterally-spaced points within a reference tissue or is determined numerically from a simulated model, and wherein generating the qualitative tissue elasticity map further comprises: determining a displacement amplitude decorrelation value by comparing the determined displacement amplitude at consecutive pairs of the laterally-spaced points within the target tissue; determining a reference displacement amplitude decorrelation value by comparing the determined displacement amplitude at consecutive pairs of the laterally-spaced points within the reference tissue; comparing the displacement amplitude decorrelation value to the reference displacement amplitude decorrelation value; and based on the comparison, generating the qualitative tissue elasticity map. 12. The method of claim 11 , further comprising displaying the qualitative tissue elasticity map on a user interface. 13. The method of claim 11 , wherein the reference displacement amplitude is derived from a reference map. 14. The method of claim 11 , wherein the target tissue comprises a region of increased stiffness comprised of a thermal lesion. 15. A non-transitory computer-readable medium comprising executable instructions, which when executed cause a processor of an ultrasound imaging system to: acquire ultrasound echoes responsive to ultrasound pulses transmitted toward a target tissue; transmit a push pulse into the target tissue to generate a shear wave in the target tissue; transmit tracking pulses spatially planned to intersect the shear wave at one or more locales; receive echo signals where the tracking pulses intersected the shear wave; store tracking echo data generated from the received echo signals; determine a displacement amplitude of the shear wave propagating through the target tissue based on the tracking echo data, wherein the determined displacement amplitude is determined at two or more laterally-spaced points within the target tissue; and generate a qualitative tissue elasticity map of the target tissue based on the determined displacement amplitude, wherein generating the qualitative tissue elasticity map of the target tissue based on the determined displacement amplitude comprises comparing the determined displacement amplitude to a reference displacement amplitude, wherein the reference displacement amplitude is determined at two or more laterally-spaced points within a reference tissue or is determined numerically from a simulated model, and wherein generating the qualitative tissue elasticity map further comprises: determining a displacement amplitude decorrelation value by comparing the determined displacement amplitude at consecutive pairs of the laterally-spaced points within the target tissue; determining a reference displacement amplitude decorrelation value by comparing the determined displac