Methods and systems for assessing material anisotropy and other characteristics

What is claimed is: 1. A method for assessing a material anisotropy, the method comprising: applying a first force to a material sample and taking a first displacement measurement, the first force having a direction, having a coronal plane normal to the direction of the first force, and having an oval or other profile with long and short axes within the coronal plane, the long axis being oriented in a first direction within the coronal plane; applying a second force to the material sample and taking a second displacement measurement, the second force having a direction, having a coronal plane normal to the direction of the second force, and having an oval or other profile with long and short axes within the coronal plane, the long axis being oriented in a second direction within the coronal plane different from the first direction of the first force; and calculating the material anisotropy based on the first and second displacement measurements, wherein the first force and the second force are applied in any order, wherein the first and second displacement measurements comprise: measurements of displacement; measurements of relaxation time constant for constant stress (Tau); measurements of recovery time; measurements of strain; measurements of elasticity; or measurements of viscosity. 2. The method of claim 1 wherein the material sample comprises a tissue sample. 3. The method of claim 1 wherein calculating the material anisotropy based on the first and second displacement measurements comprises calculating the material anisotropy based on a ratio of the larger of two measurements to the smaller of two measurements. 4. The method of claim 1 wherein calculating the material anisotropy comprises calculating an elasticity anisotropy and/or a viscosity anisotropy. 5. The method of claim 1 wherein the coronal plane is at a focal depth within the material sample. 6. The method of claim 1 wherein a direction of anisotropy of the material sample is known and wherein the first force has an orientation at a known angle relative to the direction of anisotropy of the material. 7. The method of claim 1 wherein a direction of anisotropy of the material sample is unknown and wherein the method further comprises sweeping an angle of orientation of a long axis of force within the coronal plane until two different measurements are taken at a known difference in angle of orientation, and using the two different measurements and known difference in angle of orientation to calculate the material anisotropy. 8. The method of claim 1 wherein a direction of anisotropy of the material sample is unknown and wherein the method further comprises sweeping an angle of orientation of a long axis of force within the coronal plane until maximum and minimum measurements are taken, and using the maximum and minimum measurements to calculate the material anisotropy. 9. The method of claim 1 wherein at least one of the first or second forces is applied using at least one of: a mechanical indenter; a magnetic field; an acoustic radiation force; and an ultrasound transducer. 10. The method of claim 1 wherein the at least one of the first and second forces are applied using an ultrasound transducer. 11. The method of claim 10 wherein the first force is applied at a first focal depth, wherein the second force is applied at a second focal depth, and wherein the first focal depth is the same as the second focal depth or different from the second focal depth. 12. The method of claim 10 wherein a position and an orientation of the ultrasound transducer are the same during application of the first force and the second force. 13. The method of claim 10 wherein the ultrasound transducer comprises a plurality of emitter elements arranged in a one-dimensional or two-dimensional configuration. 14. The method of claim 13 wherein a direction of the long axis of the first force is controlled by rotation of the ultrasound transducer about an axis normal to the coronal plane. 15. The method of claim 13 wherein a direction of the long axis of the first force is controlled without rotation of the ultrasound transducer about an axis normal to the coronal plane. 16. The method of claim 1 wherein at least one of the first or second displacement measurements is taken using at least one of: ultrasound; magnetic resonance imaging (MRI); an optical method; optical coherence tomography (OCT); a mechanical micrometer; and an optical microscope. 17. The method of claim 1 wherein the step of applying the first force and taking the first displacement measurement is performed a plurality of times to produce a plurality of first displacement measurements, wherein the step of applying the second force and taking the second displacement measurement is applied a plurality of times, and wherein a material viscosity anisotropy is calculated based on the plurality of first and second displacement measurements. 18. A system for assessing a material anisotropy, the system being adapted to comprising: one or more processors; and memory storing instructions executable by the one or more processors, whereby the system is operable to: apply a first force to a material sample and take a first displacement measurement, the first force having a direction, having a coronal plane normal to the direction of the first force, and having an oval or other profile with long and short axes within the coronal plane, the long axis being oriented in a first direction within the coronal plane; apply a second force to the material sample and take a second displacement measurement, the second force having a direction, having a coronal plane normal to the direction of the second force, and having an oval or other profile with long and short axes within the coronal plane, the long axis being oriented in a second direction within the coronal plane different from the first direction of the first force; and calculate the material anisotropy based on the first and second displacement measurements, wherein the first force and the second force are applied in any order, wherein the first and second displacement measurements comprise: measurements of displacement; measurements of relaxation time constant for constant stress (Tau); measurements of recovery time; measurements of strain; measurements of elasticity; or measurements of viscosity. 19. A non-transitory computer readable medium storing software instructions that, when executed by one or more processors of a system for assessing material anisotropy, cause the system to: apply a first force to a material sample and take a first displacement measurement, the first force having a direction, having a coronal plane normal to the direction of the first force, and having an oval or other profile with long and short axes within the coronal plane, the long axis being oriented in a first direction within the coronal plane; apply a second force to the material sample and take a second displacement measurement, the second force having a direction, having a coronal plane normal to the direction of the second force, and having an oval or other profile with long and short axes within the coronal plane, the long axis being oriented in a second direction within the coronal plane different from the first direction of the first force; and calculate a material anisotropy based on the first and second displacement measurements, wherein the first force and the second force are applied in any order, wherein the first and second displacement measureme