Imaging apparatus for diagnosis, information processing apparatus, and control method thereof, program thereof, and computer-readable storage medium thereof

What is claimed is: 1. An imaging apparatus for diagnosis which reconfigures a three-dimensional image of biological tissues in such a way that a probe which has a sheath for accommodating an imaging core emitting a signal toward the biological tissues and detecting a reflected signal thereof and whose distal end has a guidewire lumen for guiding the imaging core to the biological tissues, and a guidewire passing through the inside of the guidewire lumen are used so as to move and rotate the imaging core along the sheath, the imaging apparatus for diagnosis comprising: a processor configured to: generate a cross-sectional image at each axial position of the movement, based on data obtained via the imaging core by a movement and rotation of the imaging core inside the sheath; detect a direction in which the guidewire is present in each of the cross-sectional images; rotate a target cross-sectional image detected in accordance with an angular difference between the direction in which the guidewire is present and a preset direction in the target cross-sectional image, for each of the cross-sectional images; generate the three-dimensional image along the movement direction from each of the cross-sectional images which are previously rotated; and generate a two-dimensional image, which includes a segment representing the guidewire in the three-dimensional image on each of an upper side and a lower side of the two-dimensional image. 2. The imaging apparatus for diagnosis according to claim 1 , wherein the data obtained by the rotation of the imaging core and the direction in which the guidewire is present is based on a value indicating reflected signal intensity. 3. The imaging apparatus for diagnosis according to claim 1 , further comprising: a display apparatus configured to display the two-dimensional image, wherein the guidewire is on the top side and the lower side of the two-dimensional image. 4. The imaging apparatus for diagnosis according to claim 1 , wherein the preset direction is an angle of 90 degrees, and a direction of 0 degrees is equal to 0 o'clock in a timepiece. 5. The imaging apparatus for diagnosis according to claim 1 , wherein the direction of the guidewire is detect in each of the cross-sectional images is a guidewire image having a linear shape, which is parallel to a cylindrical axis. 6. A control method of an imaging apparatus for diagnosis which reconfigures a three-dimensional image of biological tissues in such a way that a probe which has a sheath for accommodating an imaging core emitting a signal toward the biological tissues and detecting a reflected signal thereof and whose distal end has a guidewire lumen for guiding the imaging core to the biological tissues, and a guidewire passing through the inside of the guidewire lumen are used so as to move and rotate the imaging core along the sheath, the control method comprising: generating a cross-sectional image at each axial position of the movement, based on data obtained via the imaging core by a movement and rotation of the imaging core inside the sheath; detecting a direction where the guidewire is present in each of the cross-sectional images; rotating a target cross-sectional image detected in the detection step in accordance with an angular difference between the direction in which the guidewire is present and a preset direction in the target cross-sectional image, for each of the cross-sectional images; generating the three-dimensional image along the movement direction from each of the cross-sectional images which are previously rotated; and generating a two-dimensional image, which includes a segment representing the guidewire in the three-dimensional image on each of an upper side and a lower side of the two-dimensional image. 7. The control method according to claim 6 , comprising: referring to the data obtained by the rotation operation of the imaging core, and detecting the direction in which the guidewire is present, based on a value indicating reflected signal intensity. 8. The control method according to claim 6 , further comprising: displaying the two-dimensional image on a display, wherein the guidewire is on the top side and the lower side of the two-dimensional image. 9. The control method according to claim 6 , wherein the preset direction is an angle of 90 degrees, and a direction of 0 degrees is equal to 0 o'clock in a timepiece. 10. The control method according to claim 6 , comprising: detecting the direction of the guidewire in each of the cross-sectional images as a guidewire image having a linear shape, and wherein the linear shape is parallel to a cylindrical axis. 11. An information processing apparatus that generates a three-dimensional image, based on data from an imaging core, which is obtained by an imaging apparatus for diagnosis that uses a probe which has a sheath for accommodating the imaging core emitting a signal toward the biological tissues and detecting a reflected signal thereof and whose distal end has a guidewire lumen for guiding the imaging core to the biological tissues, and a guidewire passing through the inside of the guidewire lumen so as to move and rotate the imaging core along the sheath, the information processing apparatus comprising: a processor configured to: generate a cross-sectional image at each axial position of a movement, based on the data obtained via the imaging core; detect a direction in which the guidewire is present in each of the cross-sectional images; rotate a target cross-sectional image detected by the detection means in accordance with an angular difference between the direction in which the guidewire is present and a preset direction in the target cross-sectional image, for each of the cross-sectional images; generate the three-dimensional image along the movement direction from each of the cross-sectional images which are previously rotated; and generate a two-dimensional image, which includes a segment representing the guidewire in the three-dimensional image on each of an upper side and a lower side of the two-dimensional image. 12. The imaging apparatus for diagnosis according to claim 11 , wherein the data obtained by rotation of the imaging core and the direction in which the guidewire is present is based on a value indicating reflected signal intensity. 13. The imaging apparatus for diagnosis according to claim 11 , further comprising: a display apparatus configured to display the two-dimensional image, wherein the guidewire is on the top side and the lower side of the two-dimensional image. 14. The imaging apparatus for diagnosis according to claim 11 , wherein the preset direction is an angle of 90 degrees, and a direction of 0 degrees is equal to 0 o'clock in a timepiece. 15. The imaging apparatus for diagnosis according to claim 11 , wherein the direction of the guidewire is detect in each of the cross-sectional images is a guidewire image having a linear shape, which is parallel to a cylindrical axis. 16. A control method of an information processing apparatus that generates a three-dimensional image, based on data from an imaging core, which is obtained by an imaging apparatus for diagnosis that uses a probe which has a sheath for accommodating the imaging core emitting a signal toward the biological tissues and detecting a reflected signal thereof and whose distal end has a guidewire for guiding the imaging core to the biological tissues, so as to move and rotate the imaging core along the sheath, the control method comprising: generating a cross-sectional image at each axial position of a movement, ba