Imaging with curved compression elements

What is claimed is: 1. A breast compression paddle for use in an imaging system, the breast compression paddle comprising: a curved bottom compression wall configured to contact a patient's breast; a curved front wall configured to contact a patient's chest wall; a curved right wall; a curved left wall; and a top wall spaced apart and opposing the curved bottom compression wall, wherein the curved right wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, the curved left wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, the curved right wall and the curved left wall are semicylindrical in shape and have equal radii, and the curved front wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, the curved front wall is partially semicylindrical in shape and has the same radius as the curved right and left walls, and the curved front wall is connected to both the curved right wall and the curved left wall, and wherein all transitions between the curved bottom compression wall, the curved front wall, the curved right wall, the curved left wall, and the top wall do not form any sharp edges and the curved bottom compression wall, the curved front wall, the curved right wall, the curved left wall, and the top wall define a hollow interior cavity within the breast compression paddle. 2. The breast compression paddle of claim 1 , wherein the top wall is substantially planar. 3. The breast compression paddle of claim 1 , wherein the curved bottom compression wall has a shape of an arc with an exterior compression surface being concave in shape, the arc having an apex that is disposed along a centerline axis of the curved front wall such that the shape of the arc is constant along the centerline axis. 4. The breast compression paddle of claim 1 , wherein the curved front wall also includes two half-hemispheres with the partial semicylindrical shape disposed between, one of the two half-hemispheres connected to the curved left wall and another of the two half-hemispheres connected to the curved right wall. 5. The breast compression paddle of claim 1 , further comprising a bracket disposed opposite of the curved front wall, the bracket configured to removably couple to the imaging system. 6. The breast compression paddle of claim 5 , wherein the bracket includes a fluid port, the hollow interior cavity of the breast compression paddle configured to receive a fluid. 7. The breast compression paddle of claim 1 , further comprising a flexible material spanning from the curved right wall to the curved left wall across a concave portion of the curved bottom compression wall. 8. The breast compression paddle of claim 7 , wherein the flexible material is a shrink-wrap material. 9. A system for imaging a breast of a patient, the system comprising: an x-ray imaging source; an x-ray imaging receptor; and a compression paddle disposed between the x-ray imaging source and the x-ray imaging receptor, the compression paddle comprising: a curved bottom compression wall configured to contact the breast; a curved front wall configured to contact a chest wall of the patient; a curved right wall; a curved left wall; and a top wall spaced apart and opposing the curved bottom compression wall, wherein the curved right wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, the curved left wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, the curved right wall and the curved left wall are semicylindrical in shape and have equal radii, and the curved front wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, the curved front wall is partially semicylindrical in shape and has the same radius as the curved right and left walls, and the curved front wall is connected to both the curved right wall and the curved left wall, and wherein all transitions between the curved bottom compression wall, the curved front wall, the curved right wall, the curved left wall, and the top wall are smooth and the curved bottom compression wall, the curved front wall, the curved right wall, the curved left wall, and the top wall define a hollow interior cavity within the compression paddle. 10. The system of claim 9 , wherein the top wall is substantially planar. 11. The system of claim 9 , wherein the x-ray imaging source is configured to move along an imaging arc having a center point, when an arc shape of the curved bottom compression wall has a center point at the same location as the center point of the imaging arc. 12. The system of claim 9 , wherein the curved front wall also includes two half-hemispheres with the partial semicylindrical shape disposed between, one of the two half-hemispheres connected to the curved left wall and another of the two half-hemispheres connected to the curved right wall. 13. The system of claim 9 , further comprising a bracket disposed opposite of the curved front wall, the bracket configured to removably couple to the system. 14. The system of claim 13 , wherein the bracket includes a fluid port, the hollow interior cavity of the compression paddle configured to receive a fluid. 15. The system of claim 9 , wherein the system is configured to acquire one or more x-ray images and correct the one or more x-ray images via a correction map based on the breast compression paddle. 16. The system of claim 9 , further comprising a flexible material spanning from the curved right wall to the curved left wall across a concave portion of the curved bottom compression wall. 17. A breast compression paddle for use in an imaging system, the breast compression paddle comprising: a curved bottom compression wall configured to contact a patient's breast; a curved front wall configured to contact a patient's chest wall; a curved right wall; a curved left wall; a top wall spaced apart and opposing the curved bottom compression wall, wherein the curved right wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, the curved left wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, and the curved front wall is connected to both the curved bottom compression wall and the top wall and curved in a convex shape therebetween, and the curved front wall is connected to both the curved right wall and the curved left wall, and wherein all transitions between the curved bottom compression wall, the curved front wall, the curved right wall, the curved left wall, and the top wall do not form any sharp edges and the curved bottom compression wall, the curved front wall, the curved right wall, the curved left wall, and the top wall define a hollow interior cavity within the breast compression paddle; and a bracket disposed opposite of the curved front wall, the bracket configured to removably couple to the imaging system, wherein the bracket includes a fluid port and the hollow interior cavity of the breast compression paddle is configured to receive a fluid. 18. The breast compression paddle of claim 17 , further comprising a flexible material spanning from the curved right wall to the curved left wall across a concave portion of the curved bottom compression wall.