Patent Number: 06021175&
Section: claims

1. An x-ray filter comprising x-ray radiation absorbing material having a first region for absorbing x-ray radiation to decrease exposure of the cervical spine and a second region shaped opening therein which allows higher x-ray transmission therethrough in the upper thoracic spine area of the body of a patient than in the cervical spine area of the body of the patient, the edges of said radiation absorbing material disposed between the faces of the radiation absorbing material and delineating the shaped opening being beveled. 2. The x-ray filter of claim 1 wherein the opening is generally triangular. 3. The x-ray filter of claim 2 wherein the beveled edges are oppositely oriented to define a first inclined surface adjacent the opening and facing forward and a second inclined surface adjacent the opening of facing rearward. 4. The x-ray filter of claim 3 and further comprising a lead tap attached to the first region. 5. The x-ray filter of claim 1 wherein the absorbing material contains aluminum. 6. The x-ray filter of claim 1 wherein the filter has a thickness of at least about 15 to 30 mm. 7. The x-ray filter of claim 1 wherein the shaped opening creates a generally trapezoidal pattern of higher x-ray transmission. 8. An x-ray filter comprising first and second filter blocks of x-ray radiation absorbing material which are positioned adjacent one another to form a first radiation absorbing region and a second region having a shaped opening which allows higher x-ray transmission than the first region, the shaped opening being defined by a first beveled surface of the first filter block and a second beveled surface of the second filter block, the first beveled surface facing toward a front of the x-ray filter and the second beveled surface facing toward a rear of the x-ray filter. 9. The x-ray filter of claim 8 and further comprising third and fourth filter blocks adjacent the first and second filter blocks, the first, second, third and fourth filter blocks together defining the opening in a central portion of the x-ray filter. 10. The x-ray filter of claim 9 wherein the third filter block has a third beveled surface which faces toward the rear of the x-ray filter and the fourth filter block has a fourth beveled surface which faces toward the front of the x-ray filter. 11. The x-ray filter of claim 9 wherein the opening produces a generally octagonal pattern of higher x-ray transmission. 12. The x-ray filter of claim 8 wherein the opening is generally triangular. 13. The x-ray filter of claim 8 wherein the opening produces a generally trapezoidal pattern of higher x-ray transmission. 14. The x-ray filter of claim 8 wherein the first and second filter blocks have a thickness of greater than about 15 mm. 15. An x-ray filter comprising x-ray radiation absorbing material comprising a plurality of x-ray radiation absorbing members having oppositely beveled surfaces which define a triangular shaped opening which allows higher x-ray transmission in a generally trapezoidal shaped exposure pattern. 16. An x-ray filter comprising x-ray radiation absorbing material having a first region for absorbing x-ray radiation to decrease exposure and a second region shaped opening therein which allows higher x-ray transmission therethrough in a hip region of the body of a patient than in areas of the body of the patient adjacent to a head an neck of a femur in the hip region, the edges of said radiation absorbing material disposed between the faces of the radiation absorbing material and delineating the shaped opening being beveled. 17. The x-ray filter of claim 16 wherein the opening is generally diamond-shaped. 18. The x-ray filter of claim 17 wherein the beveled edges are oppositely oriented to define first inclined surfaces adjacent the opening and facing forward and second inclined surfaces adjacent the opening of facing rearward. 19. The x-ray filter of claim 16 wherein the absorbing material contains aluminum. 20. The x-ray filter of claim 16 wherein the shaped opening creates a generally octagonal pattern of higher x-ray transmission.