Medical image processing apparatus and medical image processing method

What is claimed is: 1. A medical image processing apparatus, comprising: processing circuitry configured to acquire a geometry of a coronary artery depicted in data of images relating to a heart, calculate a fractional flow reserve (FFR) value of the acquired coronary artery, based on the acquired geometry of the coronary artery, and specify a target blood vessel from the coronary artery from which the FFR value was calculated; and a display to display (1) the FFR value on a 2D image that depicts the target blood vessel, wherein a first axis of the 2D image represents a long axis of the specified target blood vessel and a second axis of the 2D image represents a short axis of the specified target blood vessel, (2) a first graph having a third axis representing FFR values of the specified target blood vessel and a fourth axis representing spatial locations for the FFR values, wherein the first and fourth axes are aligned to a scale of the 2D image, and (3) a second graph having a fifth axis representing index values that represent characteristics of a plaque and/or a calcification located in the target vessel, the index values being displayed at spatial locations corresponding to locations of the plaque and/or the calcification. 2. The medical image processing apparatus of claim 1 , wherein the display further displays a lipid amount of the specified target blood vessel. 3. The medical image processing apparatus of claim 1 , wherein the display further displays a serum cholesterol concentration of the specified target blood vessel. 4. The medical image processing apparatus of claim 1 , wherein the display further displays hardness of the specified target blood vessel. 5. The medical image processing apparatus of claim 1 , wherein the display further displays a degree of calcification of the specified target blood vessel. 6. The medical image processing apparatus of claim 1 , wherein the display further displays a thickness of a fibrous capsule of the specified target blood vessel. 7. The medical image processing apparatus of claim 1 , wherein the display further displays the second graph as a bar graph indicating an analysis result of the characteristics of the plaque. 8. The medical image processing apparatus of claim 1 , wherein the processing circuitry is further configured to: specify a responsible blood vessel of an ischemic region or a myocardial infraction region, and display the 2D image relating to the specified responsible blood vessel. 9. The medical image processing apparatus of claim 1 , wherein the display further displays properties of a blood as markers. 10. The medical image processing apparatus of claim 1 , wherein the display further displays, as markers, degrees of priority of treatment of stenosed parts, the degrees of the priority of the treatment of the stenosed parts being ranked based on the FFR values, the markers being superimposed on the target blood vessel. 11. The medical image processing apparatus of claim 10 , wherein a size of a marker, of the markers, is proportional to a degree of the priority of the treatment. 12. A medical image processing system comprising: a medical image diagnosis apparatus; and a medical image processing apparatus, the medical image diagnosis apparatus including circuitry configured to acquire data of images relating to a heart, wherein the medical image processing apparatus comprises: processing circuitry configured to acquire a geometry of a coronary artery depicted in the data of images, calculate a fractional flow reserve (FFR) value of the acquired coronary artery, based on the acquired geometry of the coronary artery, and specify a target blood vessel from the coronary artery from which the FFR value was calculated; and a display to display (1) the FFR value on a 2D image that depicts the target blood vessel, wherein a first axis of the 2D image represents a long axis of the specified target blood vessel and a second axis of the 2D image represents a short axis of the specified target blood vessel, (2) a first graph having a third axis representing FFR values of the specified target blood vessel and a fourth axis representing spatial locations for the FFR values, wherein the first and fourth axes are aligned to a scale of the 2D image, and (3) a second graph having a fifth axis representing index values that represent characteristics of a plaque and/or a calcification located in the target vessel, the index values being displayed at spatial locations corresponding to locations of the pique and/or the calcification. 13. A medical image processing method, comprising: acquiring a geometry of a coronary artery depicted in data of images relating to a heart; calculating a fractional flow reserve (FFR) value of the acquired coronary artery, based on the acquired geometry of the coronary artery; specifying a target blood vessel from the coronary artery from which the FFR value was calculated; and displaying (1) the FFR value on a 2D image that depicts the target blood vessel wherein a first axis of the 2D image represents a long axis of the specified target blood vessel and a second axis of the 2D image represents a short axis of the specified target blood vessel, (2) a first graph having a third axis representing FFR values of the specified target blood vessel and a fourth axis representing spatial locations for the FFR values, wherein the first and fourth axes are aligned to a scale of the 2D image, and (3) a second graph having a fifth axis representing index values that represent characteristics of a plaque and/or a calcification located in the target vessel, the index values being displayed at spatial locations corresponding to locations of the plaque and/or the calcification.