Methods, systems and computer program products for multi-resolution imaging and analysis

That which is claimed is: 1. A method for determining a mechanical parameter for a sample having a target region, the method comprising: generating a displacement of the sample in the target region; transmitting tracking pulses in the target region from an ultrasound transducer array having a plurality of transducer elements at a corresponding plurality of positions along the ultrasound transducer array; receiving at the plurality of transducer elements of the ultrasound transducer array corresponding echo signals for the tracking pulses in the target region at the plurality of positions or acquisition times corresponding to the plurality of transducer elements; selecting one or more spatially-related multi-resolution pairs of the plurality of positions and acquisition times; analyzing the echo signals at one or more multi-resolution pairs of the positions or acquisition times; wherein the spatially-related pairs of positions or acquisition times comprise a first set of positions of the plurality of positions corresponding to a first set of the plurality of transducer elements having a first resolution therebetween and a second set of positions of the plurality of positions corresponding to a second set of the plurality of transducer elements having a second resolution therebetween that is different from the first resolution, the first and second sets of positions are spatially equivalent such that a sum of distances for the first set of positions of the first set of the plurality of transducer elements interrogates only a same overlapping area of the target region as a sum of distances for the second set of positions of the second set of the plurality of transducer elements; determining at least one mechanical parameter of the target region based on the echo signals at the one or more multi-resolution pairs of positions or acquisition times that are spatially equivalent such that a sum of distances for the first set of positions of the first set of the plurality of transducer elements interrogates only a same overlapping area of the target region as a sum of distances for the second set of positions of the second set of the plurality of transducer elements; and generating an image of the target region based on the at least one mechanical parameter. 2. The method of claim 1 , wherein analyzing echo signals at one or more multi-resolution pairs of positions or acquisition times comprises determining a value from the group consisting of a time-of-flight and velocity of a shear wave. 3. The method of claim 2 , further comprising averaging a value from the group consisting of a time-of-flight difference and a velocity estimate of the shear wave for the first and second sets of spatially equivalent positions. 4. The method of claim 1 , wherein the plurality of positions comprise positions of ultrasound array elements that transmit the tracking pulses and receive the echo signals and positions of ultrasound array elements that transmit an excitation pulse configured to cause the tissue displacement. 5. The method of claim 1 , wherein analyzing echo signals at one or more multi-resolution pairs of the positions or acquisition times comprises combining echo signals at the one or more multi-resolution pairs of positions. 6. The method of claim 1 , wherein the at least one mechanical parameter from the group consisting of shear elasticity modulus, Young's modulus, dynamic shear viscosity, shear wave velocity and mechanical impedance of the target region. 7. The method of claim 1 , wherein the target region comprises an in vivo human tissue sample. 8. The method of claim 1 , wherein the displacement of the sample is detected with an internally inserted ultrasound probe array. 9. The method of claim 1 , wherein the displacement of the sample is detected with an externally applied ultrasound array. 10. The method of claim 1 , wherein the displacement of the sample comprises a shear wave that is generated with an applied shear wave source comprising selected from the group consisting of an ultrasound transducer and a mechanical vibrator. 11. The method of claim 1 , wherein the displacement of the sample comprises an axial displacement of the sample. 12. An ultrasound system for determining a mechanical parameter for a target region, the system comprising: an ultrasound transducer array having a plurality of transducer elements at a corresponding plurality of positions along the ultrasound transducer array; a controller configured to control the ultrasound transducer to generate a tissue displacement in the target region, to transmit tracking pulses in the target region, and to receive corresponding echo signals for the tracking pulses in the target region at the plurality of positions corresponding to the plurality of transducer elements; wherein the controller is further configured to receive signals from the ultrasound array, select one or more spatially-related multi-resolution pairs of positions or acquisition times, and analyze the echo signals at one or more multi-resolution pairs of positions or acquisition times, wherein the spatially-related pairs of positions or acquisition times comprise a first set of positions of the plurality of positions corresponding to a first set of the plurality of transducer elements having a first resolution therebetween and a second set of positions of the plurality of positions corresponding to a second set of the plurality of transducer elements having a second resolution therebetween that is different from the first resolution, the first and second sets of positions are spatially equivalent such that a sum of distances for the first set of positions of the first set of the plurality of transducer elements interrogates only a same overlapping area of the target region as a sum of distances for the second set of positions of the second set of the plurality of transducer elements; wherein the controller is further configured to determine at least one mechanical parameter of the target region based on the echo signals at the one or more multi-resolution pairs of positions or acquisition times that are spatially equivalent such that a sum of distances for the first set of positions of the first set of the plurality of transducer elements interrogates only a same overlapping area of the target region as a sum of distances for the second set of positions of the second set of the plurality of transducer elements, and to generate an image of the target region based on the at least one mechanical parameter. 13. The system of claim 12 , wherein controller is configured to analyze echo signals at one or more multi-resolution pairs of positions by determining a value selected from the group consisting of a time-of-flight and a velocity of a shear wave. 14. The system of claim 12 , wherein the controller is further configured to average a value from the group consisting of a time-of-flight difference and a velocity estimate of the shear wave for the first and second sets of spatially equivalent positions.