Anterior eye three-dimensional image processing apparatus and method of anterior eye three-dimensional image processing

What is claimed is: 1. An anterior eye three-dimensional (3D) image processing apparatus configured to process an anterior eye 3D image of a subjected eye acquired by using an optical coherence tomographic image capturing apparatus, the anterior eye 3D image processing apparatus comprising: a processor; and a memory storing computer-readable instructions therein, the computer-readable instructions, when executed by the processor, causing the anterior eye 3D image processing apparatus to perform: acquiring a plurality of two-dimensional (2D) tomographic images constituting the anterior eye 3D image; identifying first temporary SS positions in each of at least two representative images selected from the plurality of 2D tomographic images, each of the first temporary SS positions indicating a space coordinate position of a scleral spur of the subjected eye; calculating a reference circle passing through at least three of the first temporary SS positions in the anterior eye 3D image; identifying second temporary SS positions in each of at least one non-representative image by using the calculated reference circle on a presumption that the scleral spur is located on the calculated reference circle, the at least one non-representative image being other than the at least two representative images among the plurality of 2D tomographic images; extracting regions in a predetermined range in each of at least one 2D tomographic image selected from the at least two representative images and the at least one non-representative image, in a case where the at least one 2D tomographic image selected from the at least two representative images, each of the regions being centered at a corresponding one of the identified first temporary SS positions, in a case where the at least one 2D tomographic image selected from the at least one non-representative image, each of the regions being centered at a corresponding one of the identified second temporary SS positions; identifying at least one of edge lines each of which indicating a tissue boundary that exists in each of the extracted regions; and correcting the identified first temporary SS positions or the second temporary SS positions based on the identified at least one of the edge lines. 2. The anterior eye 3D image processing apparatus according to claim 1 , wherein the identified at least one of the edge lines comprise a scleral spur-uvea edge line indicating a boundary between the scleral spur and an uvea, and a corneal rear surface edge line indicating a rear surface of a cornea. 3. The anterior eye 3D image processing apparatus according to claim 1 , wherein when the identified first temporary SS positions or the second temporary SS positions are different from third temporary SS positions which are identified as positions of the scleral spur based on the identified edge lines, the third temporary SS positions are identified as SS positions. 4. The anterior eye 3D image processing apparatus according to claim 3 , wherein each of the third temporary SS positions is a position of an intersection point of the scleral spur-uvea edge line indicating the boundary between the scleral spur and the uvea, and the corneal rear surface edge line indicating the rear surface of the cornea. 5. The anterior eye 3D image processing apparatus according to claim 3 , wherein each of the third temporary SS positions is a position of a curved point of an edge line which is formed by connecting the scleral spur-uvea edge line indicating the boundary between the scleral spur and the uvea and the corneal rear surface edge line indicating the rear surface of the cornea. 6. The anterior eye 3D image processing apparatus according to claim 3 , wherein each of the third temporary SS positions is a position that is identified based on luminance gradient information of the edge line formed by connecting the scleral spur-uvea edge line indicating the boundary between the scleral spur and the uvea and the corneal rear surface edge line indicating the rear surface of the cornea. 7. The anterior eye 3D image processing apparatus according to claim 1 , wherein the predetermined range is a range that extends equal to or less than 350 μm from a center of the range that is the corresponding one of the identified first temporary SS positions or the second temporary SS positions. 8. A method of processing an anterior eye three-dimensional (3D) image of a subjected eye acquired by using an optical coherence tomographic image capturing apparatus, the method comprising: acquiring a plurality of two-dimensional (2D) tomographic images constituting the anterior eye 3D image; identifying first temporary SS positions in each of at least two representative images selected from the plurality of 2D tomographic images, each of the first temporary SS positions indicating a space coordinate position of a scleral spur of the subjected eye; calculating a reference circle passing through at least three of the first temporary SS positions in the anterior eye 3D image; identifying second temporary SS positions in each of at least one non-representative image by using the calculated reference circle on a presumption that the scleral spur is located on the calculated reference circle, the at least one non-representative image being other than the at least two representative images among the plurality of 2D tomographic images; extracting regions in a predetermined range in each of at least one 2D tomographic image selected from the at least two representative images and the at least one non-representative image, in a case where the at least one 2D tomographic image selected from the at least two representative images, each of the regions being centered at a corresponding one of the identified first temporary SS positions, in a case where the at least one 2D tomographic image selected from the at least one non-representative image, each of the regions being centered at a corresponding one of the identified second temporary SS positions; identifying at least one of edge lines each of which indicating a tissue boundary that exists in each of the extracted regions; and correcting the identified first temporary SS positions or the second temporary SS positions based on the identified at least one of the edge lines.