Magnetic resonance imaging apparatus and method of generating magnetic resonance image
Abstract
An MRI apparatus includes an image processor configured to generate a scout image based on an MR signal that is obtained from an object; a display configured to display slices, which respectively correspond to portions of the object, on the scout image; and an input interface configured to receive a first user input selecting at least one slice among the slices displayed in the scout image. The first user input corresponds to a user command to change a displaying property of the at least one slice to be displayed distinguishably from non-selected slices in the scout image and the display displays the slices on the scout image so that the at least one slice is displayed differently from the non-selected slices.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A magnetic resonance imaging (MRI) apparatus comprising:
an image processor configured to generate a scout image based on an MR signal that is obtained from an object; a display configured to display slices, which respectively correspond to portions of the object, on the scout image; and an input interface configured to receive a first user input selecting at least one slice among the slices displayed in the scout image, the first user input corresponding to a user command to change a displaying property of the at least one slice to be displayed distinguishably from non-selected slices in the scout image, wherein the display is further configured to display the slices on the scout image so that the at least one slice is displayed differently from the non-selected slices.
2 . The MRI apparatus of claim 1 , wherein the first user input is the user command for adjusting at least one among a position, a size, a direction, and a luminosity of the at least one slice in the scout image.
3 . The MRI apparatus of claim 1 , wherein the scout image comprises extraneous images of a coil, a shim volume, and a saturator,
the input interface is further configured to receive a second user input for at least one of the extraneous images, and the display is further configured to perform a display so that the at least one of the extraneous images, which is selected by the second user input, is distinguished from other extraneous images.
4 . The MRI apparatus of claim 1 , wherein the display is further configured to display, on the scout image, a mark corresponding to an artifact.
5 . The MRI apparatus of claim 1 , wherein a value of a specific absorption rate (SAR) or a peripheral nervous stimulus (PNS) is measured, and
in response to the value exceeding a reference value, the display is further configured to display a mark corresponding to exceeding of the reference value, on the scout image.
6 . The MRI apparatus of claim 1 , wherein the input interface is further configured to receive a second user input corresponding to the scout image,
the scout image comprises a sagittal view image, a coronal view image, and an axial view image, and at least one of an arrangement of the sagittal view image, the coronal view image, and the axial view image or a size of at least one among the sagittal view image, the coronal view image, and the axial view image is changed by the second user input.
7 . The MRI apparatus of claim 1 , wherein the display is further configured to display, on the scout image, position information of a table that supports the object in the MRI apparatus.
8 . The MRI apparatus of claim 1 , wherein the image processor is further configured to adjust a brightness of the at least one slice of the scout image, based on the first user input, and
the display is further configured to display the slices on the scout image so that the at least one slice is displayed with the brightness which is different from the brightness of the non-selected slices.
9 . A method of generating a magnetic resonance (MR) image by a magnetic resonance imaging (MRI) apparatus, the method comprising:
generating a scout image based on an MR signal that is obtained from an object; displaying slices, which respectively correspond to portions of the object, on the scout image; receiving a first user input selecting at least one slice among the slices displayed in the scout image, the first user input corresponding to a user command to change a displaying property of the at least one slice to be displayed distinguishably from non-selected slices in the scout image; displaying the slices on the scout image so that the at least one slice is displayed differently from the non-selected slices.
10 . The method of claim 9 , wherein the displaying the slices on the scout image comprises:
displaying lines which separate the slices from one another; and displaying the slices so that at least one of the lines is distinguished from other lines.
11 . The method of claim 10 , wherein at least one among a transparency, a color, and a shape of the at least one of the lines is displayed to be different from that of the other lines.
12 . The method of claim 9 , wherein the first user input is the user command for adjusting at least one among a position, a size, a direction, and a luminosity of the at least one slice on the scout image.
13 . The method of claim 11 , wherein the scout image comprises extraneous images of a coil, a shim volume, and a saturator, and
at least one of the extraneous images is displayed to be distinguished from other extraneous images, in response to receiving a second user input selecting the at least one of the extraneous images.
14 . The method of claim 13 , wherein the second user input is received through a shortcut key that is preset.
15 . The method of claim 9 , further comprising:
receiving a second user input being a selection input of another slice among the slices; and displaying a portion of the scout image corresponding to the another slice to be distinguished from portions of the scout image corresponding to other slices.
16 . The method of claim 9 , wherein the scout image comprises a sagittal view image, a coronal view image, and an axial view image, and
the method further comprises: receiving a second user input, and changing at least one of an arrangement of the sagittal view image, the coronal view image, and the axial view image or a size of at least one among the sagittal view image, the coronal view image, and the axial view image.
17 . The method of claim 9 , further comprising:
displaying, on the scout image, position information of a table that supports the object in the MRI apparatus.Cited by (0)
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