Patent Number: 
Section: claims

1. A system for imaging a patient's breast with x-rays comprising:a frame supporting an x-ray source, said source selectively emitting a collimated x-ray beam, and said frame being mounted for selectively rotating the beam between vertical and non-vertical directions;an enclosure supported by the frame and spaced from the x-ray source along a length of the frame, said enclosure having an upper surface to which said collimated beam is directed;a compression paddle supported by said frame and movable along the length of the frame to compress a patient's breast toward the upper surface of the enclosure;a flat panel digital image receptor mounted under said upper surface of the enclosure, said image receptor receiving said collimated x-ray beam and having a proximal edge spaced from said frame;an anti-scatter grid having a first position in which the grid is supported in said enclosure and conforms to a plane that is between said upper surface of the enclosure and a plane of the image receptor;said anti-scatter grid, when in said first position, being in the path of the collimated x-ray beam received by the image receptor;said anti-scatter grid being mounted for selective withdrawal form said first position to thereby be out of the path of the collimated x-ray beam received by the image receptor; anda control selectively placing said system in a first breast x-ray imaging mode in which the anti-scatter grid is in said first position or a second breast x-ray imaging mode in which said anti-scatter grid is withdrawn from said first imaging position and is out of the path of the collimated x-ray beam received by the image receptor. 2. A system as in claim 1 including a breast tray spaced from the upper surface of the enclosure in a direction toward the x-ray source, and wherein said second imaging mode is a magnification mode in which the patient's breast is compressed between the compression paddle and the breast tray. 3. A system as in claim 1 in which the grid is mounted for movement in a direction transverse to the proximal edge of the image receptor when moving to the first position and when being withdrawn from the first position. 4. A system as in claim 1 in which the grid is mounted for motion away from the proximal edge of the image receptor and toward the frame when being withdrawn from the first position. 5. A system as in claim 1 including a motor coupled with the grid for selectively moving the grid into the first position and withdrawing the grid from the first position. 6. A system as in claim 5 in which at least a portion of the grid remains in the enclosure when the grid is withdrawn from the first position. 7. A system as in claim 1 in which the compression paddle is mounted for movement along a direction generally parallel to the proximal edge of said image receptor in addition to the motion of the grid along the length of the frame. 8. A system as in claim 7 in which the compression paddle has a breast-engaging area that is substantially smaller than an imaging area of said image receptor. 9. A system as in claim 7 in which the compression paddle is mounted for movement to positions that are offset relative to the image receptor in a direction generally parallel to the proximal edge of the image receptor. 10. A system as in claim 1 in which said control includes an auto-exposure control responsive to information regarding at least a location of the compression paddle in a direction of said proximal edge to control the collimated x-ray beam according to said information. 11. A system as in claim 10 including an automatic exposure control sensor responsive to x-rays from said source illuminating the receptor to provide said information. 12. A system as in claim 11 in which said automatic exposure control sensor comprises at least a portion of said image receptor. 13. A system as in claim 11 in which said automatic exposure control sensor is in addition to said receptor. 14. A system as in claim 1 in which said control includes an auto-collimation control responsive at least to a location of said paddle in a direction of said proximal edge to control collimation of said x-ray beam. 15. A system as in claim 1 in which said control includes an auto-grid control selectively withdrawing the anti-scatter grid from said first position in response to a control signal indicative of a change in the imaging mode of said system. 16. A system as in claim 15 in which said control signal is generated in response to an action of a user of the system. 17. A system as in claim 15 in which said control signal is generated automatically in response to at least one sensor mounted in said system and responsive to operation of system components. 18. A method of imaging a patient's breast with x-rays comprising:providing a flat panel digital x-ray image receptor having a proximal edge, and an x ray source selectively emitting a collimated x-ray beam received by the image receptor, said x-ray source and image receptor being supported for rotation moving said collimated beam between vertical and non-vertical orientations;positioning a patient's breast between the x-ray source and the image receptor, for imaging with said collimated x-ray beam;compressing the breast toward the image receptor with a compression paddle;imaging the breast with the collimated x-ray beam emitted from the x-ray source and received by the image receptor while the breast is compressed with said paddle; andproviding a control unit selectively causing imaging of the compressed patient's breast in a first mode in which an anti-scatter grid is in a first position in which the grid is in the path of the collimated x-ray beam received by the image receptor or in a second mode in which the anti-scatter grid is out of the path of the collimated x-ray beam received by the image receptor. 19. A method as in claim 18 including supplying a control signal to the control unit thereby causing the control unit to automatically move the grid into the first position or withdraw the grid from the first position, said control signal being generated by sensors responsive to operation of system components used in imaging the patient's breast. 20. A method as in claim 18 including selectively moving the compression paddle to an offset position relative to the image receptor in a direction generally parallel to said proximal edge before compressing the patient's breast. 21. A method as in claim 20 in which the step of moving the compression paddle to an offset position comprises a sliding motion of the paddle in the direction generally parallel to the proximal edge of the image receptor. 22. A system for imaging a patient's breast with a collimated beam of x-rays impinging on image receptor after passing through the patient's breast, comprising:an anti-scatter grid having a first position in which the grid is supported by the system to conform to a plane that is between the patient's breast and the image receptor;said anti-scatter grid, when in said first position, being in the path of the collimated x-ray beam received by the image receptor;said anti-scatter grid being mounted for selective withdrawal from said first position to thereby be out of the path of the collimated x-ray beam received by the image receptor; anda control selectively placing said system in a first breast x-ray imaging mode in which the anti-scatter grid is in said first position or a second breast x-ray imaging mode in which said anti-scatter grid is withdrawn from said first imaging position and is out of the path of the collimated x-ray beam received by the image receptor. 23. A system as in claim 22 in which the grid remains supported in the system after having been withdrawn from the first position. 24. A method of imaging a patient's breast with an imaging system using a collimated beams of x-rays impinging on an image receptor after passing through the patient's breast, comprising:controlling the system to selectively operate in a first breast imaging mode or in a second breast imaging mode;automatically responding to operation of the system in the first breast imaging to command supporting an anti-scatter grid within the system in a first position in which the grid is between the patient's breast and the image receptor;wherein when in said first position the anti-scatter grid is in the path of the collimated x-ray beam received by the image receptor; andautomatically responding to operation of the system in the second breast imaging mode to command withdrawing of the anti-scatter grid from the path of the collimated x-ray beam received by the image receptor. 25. A method as in claim 24 including supporting the anti-scatter grid within the system after the grid has been withdrawn from the first position.