Breast thickness measurement device and breast thickness measurement method

What is claimed is: 1. A breast thickness measuring device comprising: a support table on which a breast of a subject is placed; a compression plate that is displaced toward the support table in order to compress the breast; a first marker provided on the compression plate on a side of a chest wall of the subject; a second marker provided on the support table on the side of the chest wall of the subject; a radiation source that applies radiation from a plurality of different angles to the breast, which has been compressed; a radiation detector configured to generate a plurality of image data based on radiation that has been transmitted through the breast; a reconstruction processor configured to reconstruct the image data in order to generate a plurality of tomographic images; a marker detector configured to detect tomographic images that have captured the first marker and tomographic images that have captured the second marker, from among the tomographic images; a marker selector configured to select a tomographic image that is focused on the first marker from among the tomographic images that have captured the first marker, and selecting a tomographic image that is focused on the second marker from among the tomographic images that have captured the second marker; and a thickness calculator configured to calculate a thickness of the breast, which has been compressed, based on the tomographic image that is focused on the first marker and the tomographic image that is focused on the second marker. 2. The breast thickness measuring device according to claim 1 , wherein the thickness calculator calculates the thickness of the breast based on slice intervals of the tomographic images and the number of tomographic images from the tomographic image that is focused on the first marker to the tomographic image that is focused on the second marker. 3. The breast thickness measuring device according to claim 2 , wherein the reconstruction processor reconstructs the image data in order to generate the tomographic images, such that the tomographic images are images sliced parallel to the support table. 4. The breast thickness measuring device according to claim 1 , wherein the first marker and the second marker are disposed in superposed relation as viewed as a planar view. 5. The breast thickness measuring device according to claim 4 , wherein the radiation source is supported for angular movement about a rotational shaft, and is angularly movable through a predetermined angle about a vertical axis perpendicular to the rotational shaft; the support table, the compression plate, and the radiation detector are disposed on the vertical axis; and the first marker and the second marker are disposed such that the vertical axis extends through the first marker and the second marker. 6. The breast thickness measuring device according to claim 1 , wherein the first marker is disposed at one corner and another corner, along the chest wall, of the compression plate on the side of the chest wall. 7. The breast thickness measuring device according to claim 6 , wherein the first marker is further disposed in a central area of the compression plate on the side of the chest wall. 8. The breast thickness measuring device according to claim 1 , further comprising: a two-dimensional image generator that generates a two-dimensional image of the breast by performing an addition process on the tomographic images; wherein the two-dimensional image generator simply adds tomographic images, which have not captured the first marker or the second marker from among the tomographic images, in order to generate the two-dimensional image. 9. The breast thickness measuring device according to claim 1 , further comprising: a two-dimensional image generator configured to generate a two-dimensional image of the breast by performing an addition process on the tomographic images; wherein the two-dimensional image generator: performs a first addition process for simply adding tomographic images from among the tomographic images for image areas in which the first marker or the second marker does not exist; performs a second addition process for simply adding, from among the tomographic images, tomographic images from which the tomographic images that have captured the first marker or the second marker are excluded, for image areas in which the first marker or the second marker exists; and combines two new images obtained by the first addition process and the second addition process, thereby generating the two-dimensional image. 10. The breast thickness measuring device according to claim 1 , further comprising: a two-dimensional image generator that generates a two-dimensional image of the breast by performing an addition process on the tomographic images; wherein the two-dimensional image generator: performs a correcting process for removing the first marker or the second marker on tomographic images in which the first marker or the second marker has been captured, from among the tomographic images; and simply adds tomographic images that have not captured the first marker or the second marker and the tomographic images on which the correcting process has been performed, thereby generating the two-dimensional image. 11. The breast thickness measuring device according to claim 1 , further comprising: an average glandular dose calculator that calculates an average glandular dose based on the thickness of the breast, which has been calculated by the thickness calculator. 12. A breast thickness measuring method comprising: a first step of displacing a compression plate with a first marker provided thereon on the side of a chest wall of a subject, toward a support table with a second marker provided thereon on the side of the chest wall of the subject, for thereby compressing a breast of the subject that has been placed on the support table; a second step of applying radiation from a radiation source at a plurality of different angles to the breast, which has been compressed, and generating a plurality of image data by a radiation detector based on the radiation that has been transmitted through the breast; a third step of reconstructing the image data in order to generate a plurality of tomographic images by a reconstruction processor; a fourth step of detecting tomographic images that have captured the first marker and tomographic images that have captured the second marker, from among the tomographic images, by a marker detector; a fifth step of selecting a tomographic image that is focused on the first marker from among the tomographic images that have captured the first marker, and selecting a tomographic image that is focused on the second marker from among the tomographic images that have captured the second marker, by a marker selector; and a sixth step of calculating a thickness of the breast, which has been compressed, based on the tomographic image that is focused on the first marker and the tomographic image that is focused on the second marker, by a thickness calculator.