X-ray breast tomosynthesis enhancing spatial resolution including in the thickness direction of a flattened breast

The invention claimed is: 1. An x-ray breast imaging system comprising: a breast immobilizer configured to immobilize a patient's breast; an x-ray source and an x-ray imaging receptor configured to image the breast in an enhanced tomosynthesis mode ET in which the receptor obtains respective two-dimensional (2D) projection tomosynthesis x-ray images ETp 1 in the course of a first trajectory of the source around the immobilizer and images ETp 2 in the course of a longer second trajectory of the source around the immobilizer; and a computer-implemented image processor configured to apply tomosynthesis image reconstruction processing to the images ETp 1 and ETp 2 to obtain reconstructed images ETr to which the ETp 1 images contribute more high spatial frequency content than the ETp 2 images and which represent respective breast slices having selected thicknesses and orientations, wherein the tomosynthesis image reconstruction processing comprises applying a filter to at least one of (a) the images ETp 1 and ETp 2 , and (b) images ETr 1 and ETr 2 . 2. The system of claim 1 in which the source and receptor are further configured to alternatively operate in a tomosynthesis mode T in which the source moves only in the first trajectory and only the images Tp 1 are obtained and processed into breast slice images. 3. The system of claim 1 in which the source and receptor are further configured to alternatively operate in a mammography mode M in which the source and receptor remain in fixed positions relative to the breast immobilizer while the receptor generates an x-ray mammogram Mp. 4. The system of claim 1 in which the source and receptor are further configured to rotate around the breast immobilizer while the receptor generates a multiplicity of CT projection images CTp. 5. The system of claim 1 in which both the source and the receptor are configured to move around the breast immobilizer in the course of the receptor obtaining the ETp 2 images, and further including a patient shield configured to enclose the moving source and receptor. 6. The system of claim 1 including a patient shield that surrounds the first and second trajectories and has a central opening in which the breast immobilizer is located, wherein the central opening is sufficiently large for a patient to insert her arm therein such that at least a significant portion of the patient axilla enters an imaging volume when the patient's breast is immobilized in the breast immobilizer. 7. The system of claim 6 in which the breast immobilizer is configured to move radially within the central opening from a central position to a position nearer a circumferential periphery of the central opening and closer to the receptor. 8. The system of claim 1 including a patient shield that surrounds the first and second trajectories of the source and has an opening for a patient's lower body within an arc outside the source trajectories. 9. The system of claim 1 in which the first trajectory is over an arc of 7.5°-50° and the second trajectory is over an arc of 50°-250°. 10. The system of claim 1 in which the image processor is further configured to generate a synthetic mammogram of the breast from projection tomosynthesis images. 11. The system of claim 1 , wherein the tomosynthesis image reconstruction processing comprises: applying the filter to the images ETp 1 and ETp 2 ; and combining the filtered images ETp 1 and ETp 2 to obtain the reconstructed images ETr. 12. The system of claim 1 , wherein the tomosynthesis image reconstruction processing comprises: applying the filter to the images ETp 1 and ETp 2 ; obtaining from the filtered images ETp 1 the slice images ETr 1 ; obtaining from the filtered images ETp 2 the slice images ETr 2 ; and combining the slice images ETr 1 and ETr 2 to obtain the reconstructed images ETr. 13. The system of claim 1 , wherein the tomosynthesis image reconstruction processing comprises: obtaining from the images ETp 1 the slice images ETr 1 ; obtaining from the images ETp 2 the slice images ETr 2 ; applying the filter to the slice images ETr 1 and ETr 2 ; and combining the filtered slice images ETr 1 and ETr 2 to obtain the reconstructed images ETr. 14. The system of claim 1 , wherein the filter comprises a first filter and a second filter. 15. The system of claim 14 , wherein the first filter comprises a high-pass filter applied to at least one of the images ETp 1 and slice images ETr 1 , and wherein the second filter comprises a low-pass filter applied to at least one of the images ETp 2 and slice images ETr 2 . 16. An x-ray breast imaging system having multiple modes of operation comprising: a breast immobilizer configured to immobilize a patient's breast in an imaging volume; an x-ray source and an x-ray imaging receptor configured to selectively operate in the following system modes: (a) a computed tomography mode CT, and (b) an enhanced tomosynthesis mode ET; wherein (a) when in mode CT the system produces two-dimensional (2D) projection images CTp around substantially the entirety of the breast immobilizer, and (b) when operating in mode ET the system produces 2D projection images ETp 1 taken from respective positions of the source in a first source trajectory ET 1 around the breast immobilizer and 2D projection images ETp 2 taken from respective positions of the source in a second source trajectory ET 2 around the immobilizer; and a computer-implemented image processor configured to: (a) respond to mode CT operation to back-projection filter the 2D projection images CTp into slice images CTr, and (b) respond to mode ET operation to filter the images ETp 1 and ETp 2 to produce reconstructed breast slice images ETr. 17. The system of claim 16 including a patient shield surrounding at least the first and second trajectories, which patient shield has a central opening in which the breast immobilizer is located and which is sufficiently large for a patient to insert her arm when her breast is in the breast immobilizer such that at least a portion of a patient's axilla is in the imaging volume. 18. The system of claim 17 in which the breast immobilizer is configured to move between a central position the shield opening for operation in the ET mode. 19. The system of claim 16 including an anti-scatter grid between the immobilizer and the receptor in the ET mode operation. 20. The system of claim 16 , further comprising a display configured to selectively display images derived from at least one of images ETr, and CTr. 21. An x-ray breast tomosynthesis method comprising: obtaining a first plurality of two-dimensional (2D) tomosynthesis projection images ETp 1 by irradiating a patient's breast, from a respective plurality of first x-ray source positions distributed along a first trajectory of the source around the patient's breast; obtaining a second plurality of two-dimensional (2D) tomosynthesis projection images ETp 2 by irradiating the patient's breast from a respective plurality of second x-ray source positions distributed along a second, longer trajectory of the source around the patient's breast; applying a high-pass filter in at least one of a spatial domain and a frequency domain to the images ETp 1 to obtain filtered images ETp 1 ; applying a low-pass filter in at least one of a spatial domain and a frequency domain to the images ETp 2 to obtain filtered images ETp 2 ; combining the filtered images ETp 1 and the filtered images ETp 2 images into