Patent Number: 054328349
Section: claims

1. A whole body x-ray bone densitometry system comprising: a table extending parallel to a Y-axis of an XYZ coordinate system for supporting a patient at a patient position;  an x-ray source for emitting a narrow angle fan beam of x-rays to irradiate at any one time a scan line which is transverse to the Y-axis and is substantially shorter than the width of a body cross-section of a typical adult patient occupying the patient position;  an x-ray detector aligned with said source along a source-detector axis which is transverse to the Y-axis, for receiving x-rays from the source within the angle of said fan beam after passage thereof through the patient position, said detector comprising a number of detecting elements arranged along a direction transverse to the Y-axis and to the source-detector axis;  a source-detector support on which the source and detector are mounted at opposite sides of the patient position; and  a scanning mechanism moving at least one of the patient table and the source-detector support relative to the other to scan the patient position with said narrow angle fan beam in successive scans parallel to the Y-axis in which the source-detector axis is at different angles relative to the patient position as between different ones of said successive scans but in each of said successive scans an origin of the fan beam in the source is at the same vertical distance from the patient table.  X.sub.1 and X.sub.2 are the positions of an origin of the fan shaped beam along the X-axis before and after the table motion,  Z.sub.1 and Z.sub.2 are the positions of the origin along the Z-axis before and after the table motion, .theta. is the negative of the angle through which the source-detector axis pivots between the at least two successive scans, .phi. is the angle that the origin makes with the rotation axis at the end of the rotating motion of the source-detector support, and R is the distance between the origin and the rotation axis.  a table for supporting a patient at a patient position, said table having a length and a left side and a right side which are spaced from each other in a direction transverse to the length of the table, said table being selectively movable at least left-right and up-down;  an x-ray source for emitting a fan beam of x-rays;  an x-ray detector receiving x-rays from the source within an angle subtended by said fan beam after passage thereof through the patient position, said detector comprising a number of detecting elements aligned with respective angular positions in the fan beam and arranged along a direction transverse to the length of said table;  a source-detector support supporting the source and detector at opposite sides of the patient position; and  a scanning mechanism selectively moving the source-detector support along the length of the table and selectively rotating the source-detector support around the table and selectively moving the table both left-right and up-down to scan the patient position with said fan beam in successive scans along the length of the table in which the source-detector support is at different angles relative to the table as between different ones of said successive scans but the up-down distance between an origin of the fan beam in the source and the table is the same for each of said successive scans.  placing a patient on a table;  irradiating the patient with a fan beam of x-rays subtending an angle that includes substantially less than the body width of the patient;  receiving x-rays from the source within the angle subtended by the fan beam after passage thereof through the patient at a number of radiation detecting positions aligned with angular positions within said angle;  scanning the fan beam and the detector along the length of the patient in successive scans and selectively moving at least one of the table and the fan beam along each of two orthogonal axis transverse to the length of the patient between said successive scans to scan the patient from different angles while maintaining a selected vertical distance between an origin of the fan beam and the table.  supporting a patient with the length thereof being along the Y-axis of an X,Y,Z orthogonal set of axes;  emitting a fan beam of x-rays from an origin to irradiate at any one time less than the entire width of the patient;  receiving x-rays from the source within an angle subtended by the fan beam after passage thereof through the patient at a number of individual detecting positions arranged along a plane normal to the Y-axis;  moving the fan beam and the detector concomitantly to scan the patient in successive scans which are along the Y-axis but in which the fan beam is at different angles to the patient, rotating the fan beam about a rotation axis parallel to the Y-axis between said successive scans, and moving the table along the X-axis and the Z-axis to maintain a selected vertical distance between the origin and the table to obtain detector outputs for an anterior-posterior view of the entire width of the patient while maintaining the patient's position relative to the table.  supporting a patient on a table at a patient position, with the length of the patient being parallel to the Y-axis of an orthogonal X, Y, Z coordinate system and with the width of the patient being parallel to the X-axis;  emitting a fan beam of x-rays from an origin in a source at one side of the patient position to irradiate at any one time a scan line which is perpendicular to the Y-axis and has a length at the patient position which is less than the width of a body cross-section of a typical adult patient who is at the patient position;  receiving x-rays from the source, within the angle of said fan beam, after passage of the x-rays through the patient position, at an x-ray detector which comprises a number of x-ray detecting elements which are arranged in at least one row transverse to the Y-axis and are at an opposite side of the patient position from the source;  supporting the source and detector on a source-detector support for movement as a unit relative to the patient position; and  moving at least one of the patient table and the source-detector support relative to the other parallel to the Y-axis to scan the patient position with said fan beam in successive scans, said fan beam being at an angle relative to the patient position during at least one of said scans which is different than the angle during at least another one of said scans; and  wherein the vertical distance between the origin of the fan beam and the patient table is the same as between said successive scans. 2. A system as in claim 1 in which said scanning mechanism comprises a table moving mechanism selectively moving the table parallel to the X-axis between said successive scans. 3. A system as in claim 2 in which said table moving mechanism comprises a mechanism selectively moving the table parallel to the Z-axis between said successive scans. 4. A system as in claim 3 in which said scanning mechanism comprises a rotating mechanism selectively rotating the source-detector support about a rotation axis parallel to the Y-axis between said successive scans. 5. A system as in claim 4 in which said scanning mechanism comprises a mechanism moving the table between at least two of said successive scans through a motion having a component parallel to the X-axis over a distance DX and a component parallel to the Z-axis over a distance DZ, where the distances DX and DZ are according to the expressions: EQU DX=(X.sub.2 -X.sub.1)=R[cos .phi.(cos .theta.-1)+sin .phi. sin .theta.] EQU DZ=(Z.sub.2 -Z.sub.1)=R[sin .phi.(cos .theta.-1)-cos .phi. sin .theta.] 6. A system as in claim 5 in which said angle .theta. is about -21.5 degrees, with the negative angle denoting a clockwise rotation of the support about the rotation axis. 7. A system as in claim 6 in which the angle subsumed by said fan beam is about 22 degrees, and the fan beam positions between two of said successive scans overlap by about 0.5 degrees. 8. A system comprising: 9. A system as in claim 8 in which the scanning mechanism comprises a table moving mechanism which between said successive scans moves the table left-right and up-down and rotates the source detector support about a rotation axis that does not pass through the origin of the fan beam. 10. A system as in claim 9 in which said fan beam at said patient position is narrower than the width of a typical adult patient who is in the supine position on the table. 11. A system as in claim 10 in which said beam irradiates overlapping portions of said patient position in said successive scans. 12. A system as in claim 8 in which said scanning mechanism comprises a mechanism carrying out said successive scans for an anterior-posterior view of the patient position and selectively changing the up-down distance between said origin and the table and scanning the beam relative to the patient position for a lateral view without moving the patient relative to the table. 13. A system as in claim 12 in which said scanning mechanism additionally comprises a mechanism for changing the up-down distance between the origin and the table and scanning the patient with the fan beam for a hip view without moving the patient relative to the table. 14. A system as in claim 8 in which said scanning mechanism comprises a mechanism carrying out said successive scans for an anterior-posterior view and selectively changing the up-down distance between said origin and the table and scanning the beam relative to the patient position for a lateral view and a hip view without moving the patient relative to the table. 15. A method comprising: 16. A method as in claim 15 in which the fan beam in said successive scans irradiates overlapping portions of the patient to generate detector measurements for an anterior-posterior view of the patient, and additionally comprising the step of changing the vertical distance between the origin and the table and scanning the beam relative to the patient to obtain a lateral view without moving the patient relative to the table. 17. A method as in claim 16 further comprising changing the vertical distance between the origin and the table and scanning the beam relative to the patient to obtain a hip view without moving the patient relative to the table. 18. A method as in claim 15 further comprising changing the vertical distance between the origin and the table and scanning the beam relative to the patient to obtain a hip view without moving the patient relative to the table. 19. A method comprising: 20. A method as in claim 19 further comprising selectively changing the vertical distance between the origin and the table and the angle of the beam to the patient and scanning the beam relative to the patient to obtain detector outputs for a lateral view without moving the patient relative to the table. 21. A method as in claim 20 further comprising selectively changing the vertical distance between the origin and the table and the angle of the beam to the patient and scanning the beam relative to the patient to obtain detector outputs for a hip view without moving the patient relative to the table. 22. A method as in claim 19 further comprising selectively changing the vertical distance between the origin and the table and the angle of the beam to the patient and scanning the beam relative to the patient to obtain detector outputs for a lateral view and a hip view without moving the patient relative to the table. 23. A method as in claim 19 further comprising processing detector outputs to form and display x-ray images of the patient. 24. A whole body x-ray bone densitometry method comprising: 25. A method as in claim 24 in which said moving step comprises selectively moving the table parallel to the X-axis between said successive scans. 26. A method as in claim 25 in which said moving step comprises selectively moving the table parallel to the Z-axis between said successive scans. 27. A method as in claim 26 in which said moving step comprises selectively rotating the source-detector support between said successive scans about a rotation axis parallel to the Y-axis. 28. A method as in claim 24 in which said moving step comprises selectively moving the table parallel to each of the X-axis and the Z-axis between said successive scans and selectively rotating the source-detector support between said successive scans about a rotation axis parallel to the Y-axis and preventing movement of the source-detector support parallel to the X-axis. 29. A method as in claim 24 in which said moving step comprises causing the vertical from the origin of the fan beam to intersect the table at the same line parallel to the Y-axis during each of said successive scans. 30. A system as in claim 1 in which said scanning mechanism comprises a mechanism maintaining the vertical from the origin of the fan beam in a YZ plane which intercepts the table at the same place during each of said successive scans. 31. A method as in claim 15 in which said scanning step maintains the vertical from the origin of the fan beam in a YZ plane which intercepts the table at the same place during each of said successive scans. 32. A method as in claim 19 in which said moving step maintains the vertical from the origin of the fan beam in a YZ plane which intercepts the table at the same place during each of said successive scans.