Simulator, injection device or imaging system provided with simulator, and simulation program
Abstract
In order to achieve a prediction approximating an actual change with time of a pixel value in a tissue with higher accuracy, provided is a simulator, which is configured to predict a change with time of a pixel value in a tissue of an object, including: an object information acquisition unit configured to acquire information on the object; a protocol acquisition unit configured to acquire an injection protocol for a contrast medium; a tissue information acquisition unit configured to acquire information on the tissue; and a prediction unit configured to predict, based on the information on the object, the injection protocol, and the information on the tissue, a change with time of a pixel value of each of a plurality of compartments obtained by dividing the tissue along a blood flow direction.
Claims
exact text as granted — not AI-modified1 . A simulator, which is configured to predict a change with time of a pixel value in a tissue of an object, comprising:
an object information acquisition unit configured to acquire information on the object; a protocol acquisition unit configured to acquire an injection protocol for a contrast medium; a tissue information acquisition unit configured to acquire information on the tissue; and a prediction unit configured to predict, based on the information on the object, the injection protocol, and the information on the tissue, a change with time of a pixel value of each of a plurality of compartments of the tissue, wherein, when densities of the contrast medium are different between adjacent compartments of the plurality of compartments, the prediction unit reduces a density in a compartment having a higher density of the contrast medium and increases a density in a compartment having a lower density of the contrast medium to predict the change with time of the pixel value.
2 . A simulator according to claim 1 , wherein the information on the tissue includes a number of compartments in the tissue.
3 . A simulator according to claim 1 , wherein the information on the tissue includes a seep-out rate and a seep-back rate of the contrast medium in the tissue.
4 . A simulator according to claim 1 , further comprising:
a display unit configured to display each of the compartments in a color having a density corresponding to the pixel value; and a display control unit configured to control the display unit, wherein the display control unit is configured to change light and shade of each of the compartments in accordance with the change with time of the pixel value.
5 . A simulator according to claim 4 , further comprising a storage unit configured to store a result of prediction by the prediction unit,
wherein the display control unit is configured to change the light and shade of each of the compartments by reading the pixel value of each of the compartments at a predetermined time from the storage unit.
6 . A simulator according to claim 5 , wherein the display control unit is configured to acquire delay time caused by helical scan, and to read the pixel value at a time obtained by adding the delay time to the predetermined time.
7 . A simulator according to claim 1 ,
wherein the tissue includes a stomach, a spleen, a pancreas, and an intestinal tract, and wherein the prediction unit is configured to predict the change with time of the pixel value while treating the stomach, the spleen, the pancreas, and the intestinal tract as different tissues.
8 . A simulator according to claim 1 ,
wherein the tissue includes a right ventricle, and wherein the prediction unit is configured to predict the change with time of the pixel value of each tissue in order of each of upstream and downstream from the right ventricle in a blood flow direction.
9 . A simulator according to claim 1 , wherein the prediction unit is configured to predict the change with time of the pixel value of each tissue in order of each of upstream and downstream from a tissue on a side of an injection position of the contrast medium in a blood flow direction.
10 . A simulator, which is configured to predict a change with time of a pixel value in a tissue of an object, comprising:
an object information acquisition unit configured to acquire information on the object; a protocol acquisition unit configured to acquire an injection protocol for a contrast medium; a tissue information acquisition unit configured to acquire information on the tissue; and a prediction unit configured to predict, based on the information on the object, the injection protocol, and the information on the tissue, a change with time of a pixel value of each of a plurality of compartments of the tissue, wherein the prediction unit is configured to predict the change with time of the pixel value of each of a plurality of compartments obtained by dividing a first tissue, and to predict the change with time of the pixel value of each of a plurality of compartments obtained by dividing a second tissue, which has a volume larger than that of the first tissue, by a number larger than that of the first tissue.
11 . A simulator, which is configured to predict a change with time of a pixel value in a tissue of an object, comprising:
an object information acquisition unit configured to acquire information on the object; a protocol acquisition unit configured to acquire an injection protocol for a contrast medium; a tissue information acquisition unit configured to acquire information on the tissue; and a prediction unit configured to predict, based on the information on the object, the injection protocol, and the information on the tissue, a change with time of a pixel value of each of a plurality of compartments of the tissue, wherein, when an injection velocity of a chemical liquid is higher than a blood flow velocity, the prediction unit adds a difference, which is obtained by subtracting the blood flow velocity from the injection velocity, to the blood flow velocity to predict the change with time of the pixel value.
12 . A non-transitory computer readable medium storing a simulation program for causing a computer to predict a change with time of a pixel value in a tissue of an object, the simulation program causing the computer to function as:
an object information acquisition unit configured to acquire information on the object; a protocol acquisition unit configured to acquire an injection protocol for a contrast medium; a tissue information acquisition unit configured to acquire information on the tissue; and a prediction unit configured to predict, based on the information on the object, the injection protocol, and the information on the tissue, a change with time of a pixel value of each of a plurality of compartments of the tissue, wherein, when densities of the contrast medium are different between adjacent compartments of the plurality of compartments, the prediction unit reduces a density in a compartment having a higher density of the contrast medium and increases a density in a compartment having a lower density of the contrast medium to predict the change with time of the pixel value.
13 . An injection device, comprising:
an injection head configured to inject a contrast medium in accordance with an injection protocol; and the simulator of claim 1 .
14 . An imaging system, comprising:
a medical imaging apparatus configured to take an image of an object; and the simulator of claim 1 .Cited by (0)
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