Quantitative elastography with tracked 2D ultrasound transducers

What is claimed as the invention is: 1. A method for measuring the mechanical properties in a volume of tissue, the method comprising the steps of: applying an excitation to said volume of tissue with a vibration source; scanning said volume of tissue with a tracked ultrasound transducer; measuring said tracked ultrasound transducer locations relative to a base coordinate system; computing tissue displacements relative to said tracked ultrasound transducer from echo data measured by said tracked ultrasound transducer; converting said tissue displacements from said tracked ultrasound transducer coordinate system to said base coordinate system using said tracked ultrasound transducer locations; and calculating said mechanical properties in said volume of tissue from said tissue displacements in said base coordinate systems; wherein said changing of the coordinate system of said tissue displacements to said base coordinate system comprises a phase compensation for time of flight of ultrasound pulses. 2. A method according to claim 1 , wherein calculating said mechanical properties comprises interpolating said tissue displacements in said base coordinate system onto a uniform grid. 3. A method according to claim 1 , wherein said excitation is steady-state. 4. A method according to claim 1 , wherein said tracked ultrasound transducer locations and orientations are measured by a method selected from the group consisting of (a) electromagnetic sensing, (b) passive or active optical sensing, and (c) robot sensing. 5. A method according to claim 1 , wherein said vibration source is placed on the skin of a patient. 6. A method according to claim 1 , wherein said tracked ultrasound transducer is placed on the skin of a patient. 7. A method according to claim 1 , wherein said tracked ultrasound transducer is placed inside a patient and directly adjacent to an area or organ of interest. 8. A method according to claim 1 , wherein the calculation of said mechanical properties of tissue comprises calculation of coherence between said tissue displacements and a reference displacement to distinguish soft tissue from a fluid. 9. A method according to claim 1 , wherein said tracked ultrasound transducer is moved in a discrete stepwise fashion over said volume of tissue wherein each step comprises holding said tracked ultrasound transducer stationary while measuring said echo data, and then moving said tracked ultrasound transducer to a different location. 10. A method according to claim 1 , wherein said tracked ultrasound transducer is moved in a continuous fashion over said volume of tissue. 11. A method according to claim 1 , wherein said mechanical properties comprise a quantitative measure of the shear modulus of tissue. 12. A method according to claim 1 , wherein said mechanical properties comprise a quantitative measure of the elasticity of the tissue. 13. A method according to claim 1 , wherein mechanical properties comprise a quantitative measure of the shear wave speed of the tissue. 14. A method according to claim 1 , wherein said mechanical properties comprise a quantitative measure of the shear viscosity of the tissue. 15. A method according to claim 1 , wherein said mechanical properties are calculated as a function of frequency. 16. A method according to claim 1 , wherein said tracked ultrasound transducer is a matrix transducer array that is capable of both 2D cross-sectional imaging and 3D volumetric imaging. 17. A method for measuring the mechanical properties in a volume of tissue, the method comprising the steps of: applying an excitation to said volume of tissue with a vibration source; scanning said volume of tissue with a tracked ultrasound transducer; measuring said tracked ultrasound transducer locations relative to a base coordinate system; computing tissue displacements relative to said tracked ultrasound transducer from echo data measured by said tracked ultrasound transducer; converting said tissue displacements from said tracked ultrasound transducer coordinate system to said base coordinate system using said tracked ultrasound transducer locations; and calculating said mechanical properties in said volume of tissue from said tissue displacements in said base coordinate systems; wherein said vibration source is placed internally in a patient on the surface of an organ to be imaged. 18. A method for measuring the mechanical properties in a volume of tissue, the method comprising the steps of: applying an excitation to said volume of tissue with a vibration source; scanning said volume of tissue with a tracked ultrasound transducer; measuring said tracked ultrasound transducer locations relative to a base coordinate system; computing tissue displacements relative to said tracked ultrasound transducer from echo data measured by said tracked ultrasound transducer; converting said tissue displacements from said tracked ultrasound transducer coordinate system to said base coordinate system using said tracked ultrasound transducer locations; and calculating said mechanical properties in said volume of tissue from said tissue displacements in said base coordinate systems; wherein said changing of the coordinate system of said tissue displacements to said base coordinate system comprises a phase compensation for time delays between subsequent ultrasound pulses.