JP2008136586A - Electric load adjustment method of phantom for mri and phantom device for mri - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To evaluate the performance of a coil for MRI by receiving MR signals and to easily adjust the size of the electric load of a phantom for MRI in the view from the coil for MRI. <P>SOLUTION: Load liquid (31a) is supplied from a bag (31b) containing the load liquid (31a) to the conduit (21) of the phantom (1) for MRI. By this invention, since the phantom (1) for MRI containing an MR signal generation material is used, it is possible to evaluate the performance of the coil for MRI by receiving the MR signals. By adjusting the amount of the load liquid (31a) to be filled in the conduit (21), it is possible to easily adjust the size of the electric load of the phantom (1) for MRI in the view from the coil for MRI. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method for adjusting an electrical load of an MRI (Magnetic Resonance Imaging) phantom and an MRI phantom device. More specifically, the present invention can evaluate the performance of an MRI coil by receiving an MR signal and use it for MRI. The present invention relates to an MRI phantom electrical load adjustment method and an MRI phantom device capable of easily adjusting the magnitude of the electrical load of an MRI phantom as viewed from a coil.

2. Description of the Related Art Conventionally, an MRI phantom having a liquid reservoir space for retaining an MR signal generating material liquid and a flow path for allowing the MR signal generating material liquid to flow through the liquid reservoir space is known (see, for example, Patent Document 1). .
On the other hand, an MRI phantom that is an electrical load when viewed from the MRI coil is known (see, for example, Patent Document 2).
JP 2006-102019 A JP-A-6-59007

In the performance evaluation of an MRI coil (for example, a surface coil) using an MRI phantom, it is necessary that the size of the electrical load of the MRI phantom viewed from the MRI coil corresponds to the human body.
However, the size of the electrical load corresponding to the human body differs depending on the type of MRI coil. For this reason, there is a problem in that an MRI phantom having an electrical load equivalent to a human body must be prepared for each type of MRI coil.
In the MRI phantom described in Patent Document 1, it was possible to easily replace the MR signal generating material liquid with a different concentration, but only the magnitude of the electrical load as viewed from the MRI coil was adjusted. I can't do it.
In addition, the MRI phantom described in Patent Document 2 only serves as an electrical load for the MRI coil and does not include MR signal generating material. Therefore, the performance evaluation of the MRI coil by receiving MR signals is performed. I can't do it.
Accordingly, an object of the present invention is to perform performance evaluation of an MRI coil by receiving an MR signal, and to easily adjust the size of the electrical load of the MRI phantom viewed from the MRI coil. An object of the present invention is to provide an MRI phantom electrical load adjustment method and an MRI phantom device that can be used.

In a first aspect, the present invention provides an MRI phantom including an MR signal generating material with a conduit, does not generate an MR signal as compared with the MR signal generating material, and electrically loads the MRI coil. An electric load of the MRI phantom as seen from the MRI coil by filling a load liquid containing the load material into the pipe line and changing at least one of the amount and type of the load liquid filling the pipe line The method of adjusting the electrical load of the phantom for MRI is characterized by adjusting the size of the phantom.
In the MRI phantom electrical load adjustment method according to the first aspect, since the MRI phantom containing the MR signal generating material is used, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom viewed from the MRI coil can be easily adjusted by changing at least one of the amount and type of the load liquid filled in the pipe line provided in the MRI phantom. I can do it.

In a second aspect, the present invention provides a large number of insertion holes in an MRI phantom including an MR signal generating material, and does not generate an MR signal compared to the MR signal generating material and is electrically connected to the MRI coil. An electric load of the MRI phantom viewed from the MRI coil by inserting a load rod containing a load material to be loaded into the insertion hole and changing at least one of the number, type and location of the load rod to be inserted The method of adjusting the electrical load of the phantom for MRI is characterized by adjusting the size of the phantom.
In the MRI phantom electrical load adjustment method according to the second aspect, since the MRI phantom containing the MR signal generating material is used, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom as seen from the MRI coil can be simplified by changing at least one of the number, type and location of the load rods inserted into the numerous insertion holes provided in the MRI phantom. Can be adjusted.

In a third aspect, the present invention provides an MRI phantom including an MR signal generating material with a load material that does not generate an MR signal and is an electrical load for the MRI coil as compared with the MR signal generating material. An MRI characterized by fitting an included load ring and adjusting the magnitude of the electrical load of the MRI phantom viewed from the MRI coil by changing at least one of the number, type and location of the load rings to be fitted. A method for adjusting the electrical load of a phantom is provided.
Since the MRI phantom electrical load adjustment method according to the third aspect uses the MRI phantom including the MR signal generating material, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom viewed from the MRI coil can be easily adjusted by changing at least one of the number, type, and location of the load ring fitted to the MRI phantom.

In a fourth aspect, the present invention relates to an MRI phantom including an MR signal generating material, wherein a load material that does not generate an MR signal and serves as an electrical load for the MRI coil as compared with the MR signal generating material. The load pad included is affixed, and the size of the electrical load of the MRI phantom viewed from the MRI coil is adjusted by changing at least one of the number, type and location of the affixed load pads. An electric load adjustment method for an MRI phantom is provided.
In the MRI phantom electrical load adjustment method according to the fourth aspect, since the MRI phantom including the MR signal generating material is used, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom viewed from the MRI coil can be easily adjusted by changing at least one of the number, type and location of the load pads to be attached to the MRI phantom.

In a fifth aspect, the present invention relates to an MRI phantom including an MR signal generating material and having a conduit, and an MR signal generating material that does not generate an MR signal compared to the MR signal generating material and is electrically loaded to the MRI coil. A load liquid filling means capable of changing the amount and type of the load liquid filling the pipe line with the load liquid containing the load material. An MRI phantom device is provided.
Since the MRI phantom device according to the fifth aspect uses the MRI phantom including the MR signal generating material, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom viewed from the MRI coil can be easily adjusted by changing at least one of the amount and type of the load liquid filled in the pipe line provided in the MRI phantom. I can do it.

In a sixth aspect, the present invention relates to an MRI phantom including an MR signal generating material and having a large number of insertion holes, and does not generate an MR signal as compared with the MR signal generating material and is electrically connected to the MRI coil. An MRI phantom device is provided that includes a load rod that includes a load material to be a general load and can be inserted into the insertion hole.
Since the MRI phantom device according to the sixth aspect uses the MRI phantom including the MR signal generating material, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom as seen from the MRI coil can be simplified by changing at least one of the number, type and location of the load rods inserted into the numerous insertion holes provided in the MRI phantom. Can be adjusted.

In a seventh aspect, the present invention provides an MRI phantom including an MR signal generating material, and a load material that does not generate an MR signal and is an electrical load for the MRI coil as compared with the MR signal generating material. And an MRI phantom device characterized by comprising a load ring that can be fitted to the MRI phantom.
Since the MRI phantom device according to the seventh aspect uses the MRI phantom including the MR signal generating material, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom viewed from the MRI coil can be easily adjusted by changing at least one of the number, type, and location of the load ring fitted to the MRI phantom.

In an eighth aspect, the present invention provides an MRI phantom including an MR signal generating material, and a load material that does not generate an MR signal and is an electrical load for the MRI coil as compared with the MR signal generating material. And a load pad that can be attached to the MRI phantom.
In the MRI phantom device according to the eighth aspect, since the MRI phantom including the MR signal generating material is used, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. The size of the electrical load of the MRI phantom viewed from the MRI coil can be easily adjusted by changing at least one of the number and type of load pads to be attached to the MRI phantom.

In a ninth aspect, the present invention relates to an MRI coil that faces an MRI phantom containing an MR signal generating material, and does not generate an MR signal as compared with the MR signal generating material. The size of the electrical load of the MRI phantom as seen from the MRI coil by changing the number, type and location of the load pads to be pasted by attaching a load pad containing a load material to be an electrical load. An electric load adjustment method for an MRI phantom characterized by adjusting the thickness is provided.
In the MRI phantom electrical load adjustment method according to the ninth aspect, since the MRI phantom containing the MR signal generating material is used, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. Then, by changing at least one of the number, type and location of the load pads to be attached to the surface of the MRI coil facing the MRI phantom, the size of the electrical load of the MRI phantom as seen from the MRI coil can be changed. It can be adjusted easily.

  According to the MRI phantom electrical load adjustment method and the MRI phantom apparatus of the present invention, it is possible to evaluate the performance of the MRI coil by receiving MR signals. The magnitude of the electrical load of the MRI phantom viewed from the MRI coil can be easily adjusted.

  Hereinafter, the present invention will be described in more detail with reference to embodiments shown in the drawings. Note that the present invention is not limited thereby.

FIG. 1 is a schematic diagram illustrating a configuration of an MRI phantom apparatus 101 according to the first embodiment.
The MRI phantom device 101 includes an MR signal generating material and an MRI phantom 1 having a pipe line 21. The MRI phantom device 101 does not generate an MR signal compared to the MR signal generating material and is electrically loaded to the MRI coil. And a bag 31b for filling the pipeline 21 with the load liquid 31a containing the load material.

The MR signal generating material is obtained by adding an electrolyte such as sodium chloride to a nickel chloride aqueous solution or a copper sulfate aqueous solution, for example.
The load liquid 31a is, for example, salt water.

  As shown in FIG. 1, the bag 31b is hung at a position higher than the MRI phantom 1, the first cock 31c is closed, the second cock 31d is opened, and the third cock 31e is opened. The load liquid 31a can be supplied to 21 by gravity. When the supply amount is appropriate, the first cock 31c is closed, the second cock 31d is closed, and the third cock 31e is closed.

  As shown in FIG. 2, the bag 31b is placed at a position lower than the MRI phantom 1, the first cock 31c is opened, the second cock 31d is closed, and the third cock 31e is opened. The load liquid 31a can be returned by gravity.

  According to the MRI phantom device 101 of the first embodiment, since the MRI phantom 1 including the MR signal generating material is used, the performance evaluation of the MRI coil can be performed by receiving the MR signal. Further, by adjusting the amount of the load liquid 31a filled in the conduit 21, the size of the electrical load of the MRI phantom 1 viewed from the MRI coil can be easily adjusted.

  In addition, you may deform | transform so that supply / discharge of the load liquid 31a with respect to the pipe line 21 may be performed using an electric pump. Moreover, you may deform | transform so that supply / discharge of the load liquid 31a with respect to the pipe line 21 may be performed by selecting one of a plurality of bags 31b containing salt water having different concentrations with the flow path switching valve.

FIG. 3 is a perspective view illustrating the configuration of the MRI phantom device 102 according to the second embodiment.
The MRI phantom device 102 includes an MRI phantom 1 containing an MR signal generating material, a jacket 22b having a large number of insertion holes 22a and integrally mounted on the outer periphery of the MRI phantom 1, and an MR signal generating material. Compared to the above, there is provided a load rod 32 that does not generate MR signals and contains a load material that is an electrical load for the MRI coil and can be inserted into the insertion hole 22a.

The MR signal generating material is obtained by adding an electrolyte such as sodium chloride to a nickel chloride aqueous solution or a copper sulfate aqueous solution, for example.
The load rod 32 is, for example, a tube containing salt water.

  According to the MRI phantom device 102 of the second embodiment, since the MRI phantom 1 including the MR signal generating material is used, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. Further, by adjusting the number and location of the load rods 32 to be inserted into the insertion holes 22a (in FIG. 3, six load rods 32 are inserted into the single insertion hole 22a), the MRI coil The magnitude of the electrical load of the seen MRI phantom 1 can be easily adjusted.

  For example, if a plurality of types of load rods 32 containing different concentrations of salt water are prepared, the MRI phantom 1 viewed from the MRI coil can be changed by changing the type of the load rod 32 inserted into the insertion hole 22a. The size of the electric load can be easily adjusted.

FIG. 4 is a perspective view illustrating the configuration of the MRI phantom device 103 according to the third embodiment.
The MRI phantom device 103 includes an MRI phantom 1 including an MR signal generating material, and a load material that does not generate an MR signal and serves as an electrical load for the MRI coil as compared with the MR signal generating material. And a load ring 33 that can be fitted to the outer periphery of the MRI phantom 1 by elastic force.

The MR signal generating material is obtained by adding an electrolyte such as sodium chloride to a nickel chloride aqueous solution or a copper sulfate aqueous solution, for example.
The load ring 33 is, for example, a ring tube containing salt water.

  According to the MRI phantom device 103 of the third embodiment, since the MRI phantom 1 including the MR signal generating material is used, the performance evaluation of the MRI coil by receiving the MR signal can be performed. Further, by adjusting the number and location of the load rings 33 fitted to the MRI phantom 1 (in FIG. 4, three load rings 33 are fitted to the center and both ends of the MRI phantom 1), The magnitude of the electrical load of the seen MRI phantom 1 can be easily adjusted.

  For example, if a plurality of types of load rings 33 containing different concentrations of salt water are prepared, the MRI phantom 1 viewed from the MRI coil can be changed by changing the type of the load ring 33 fitted to the MRI phantom 1. The size of the electric load can be easily adjusted.

FIG. 5 is a perspective view illustrating the configuration of the MRI phantom device 104 according to the fourth embodiment.
The MRI phantom device 104 includes an MRI phantom 1 including an MR signal generating material, and a load material that does not generate an MR signal and is an electrical load for the MRI coil as compared with the MR signal generating material. And a load pad 34 that can be attached to the outer periphery of the MRI phantom 1 with an adhesive tape or the like.

The MR signal generating material is obtained by adding an electrolyte such as sodium chloride to a nickel chloride aqueous solution or a copper sulfate aqueous solution, for example.
The load pad 34 is a flat bag containing salt water, for example.

  According to the MRI phantom device 104 of the fourth embodiment, since the MRI phantom 1 containing the MR signal generating material is used, it is possible to evaluate the performance of the MRI coil by receiving the MR signal. Further, by adjusting the number and location of the load pads 34 to be attached to the MRI phantom 1 (in FIG. 5, six load pads 34 are attached to the center and both ends of the MRI phantom 1), The magnitude of the electrical load of the MRI phantom 1 viewed from the coil can be easily adjusted.

  For example, if a plurality of types of load pads 34 having different concentrations of salt water are prepared, the MRI phantom viewed from the MRI coil can be changed by changing the type of the load pad 34 to be attached to the MRI phantom 1. The size of the electrical load of 1 can be easily adjusted.

FIG. 6 is an explanatory diagram illustrating an electrical load adjustment method for the MRI phantom according to the fifth embodiment.
The MRI coil 4 is cylindrical.
The load pad 35 includes a load material that serves as an electrical load for the MRI coil 4 and can be attached to the inner peripheral surface of the MRI coil 4 with an adhesive tape or the like.

The MR signal generating material is obtained by adding an electrolyte such as sodium chloride to a nickel chloride aqueous solution or a copper sulfate aqueous solution, for example.
The load pad 35 is a flat bag containing salt water, for example.

  If the MRI phantom 1 including the MR signal generating material is installed inside the MRI coil 4, it is possible to evaluate the performance of the MRI coil 4 by receiving the MR signal. Further, by adjusting the number and location of the load pads 35 to be attached to the MRI coil 4 (in FIG. 6, six load pads 35 are attached to the center and both ends of the inner peripheral surface of the MRI coil 4. ), The magnitude of the electrical load of the MRI phantom 1 viewed from the MRI coil 4 can be easily adjusted.

  For example, if a plurality of types of load pads 35 containing different concentrations of salt water are prepared, the type of the load pad 35 to be attached to the MRI coil 4 can be changed to change the MRI for the MRI as viewed from the MRI coil 4. The size of the electrical load of the phantom 1 can be easily adjusted.

  The method for adjusting the electrical load of the MRI phantom and the MRI phantom device of the present invention can be used to evaluate the performance of the MRI coil.

1 is a schematic diagram illustrating a configuration (at the time of liquid supply) of an MRI phantom device according to Embodiment 1. FIG. 1 is a schematic diagram showing a configuration (at the time of drainage) of an MRI phantom device according to Example 1. FIG. FIG. 6 is a perspective view illustrating a configuration of an MRI phantom device according to a second embodiment. FIG. 6 is a perspective view illustrating a configuration of an MRI phantom device according to a third embodiment. FIG. 10 is a perspective view illustrating a configuration of an MRI phantom device according to a fourth embodiment. FIG. 10 is an explanatory diagram illustrating an electrical load adjustment method for an MRI phantom according to a fifth embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 MRI phantom 4 MRI coil 21 Pipe line 22a Insertion hole 31a Load liquid 32 Load rod 33 Load ring 34, 35 Load pad 101-104 MRI phantom apparatus

Claims (9)

An MRI phantom containing an MR signal generating material is provided with a conduit, and a load liquid containing a load material that does not generate an MR signal and that is an electrical load for the MRI coil as compared with the MR signal generating material. Filling the conduit, and adjusting the magnitude of the electrical load of the MRI phantom as seen from the MRI coil by changing at least one of the amount and type of the load liquid filling the conduit. To adjust the electrical load of the MRI phantom. A load rod including a load material provided with a large number of insertion holes in an MRI phantom including an MR signal generating material and not generating an MR signal as compared with the MR signal generating material and serving as an electrical load for the MRI coil. And the size of the electrical load of the MRI phantom viewed from the MRI coil is adjusted by changing at least one of the number, type, and location of the load rod to be inserted. To adjust the electrical load of the MRI phantom. A load ring that includes a load material that does not generate an MR signal and that serves as an electrical load with respect to the MRI coil is fitted into the MRI phantom that includes the MR signal generation material, and is fitted to the MRI phantom. A method for adjusting the electrical load of the MRI phantom, wherein the magnitude of the electrical load of the MRI phantom viewed from the MRI coil is adjusted by changing at least one of the number, type and location of the MRI. An MRI phantom containing an MR signal generating material is pasted with a load pad containing a load material that does not generate an MR signal and is an electrical load compared to the MR signal generating material. A method of adjusting an electrical load of an MRI phantom, wherein the magnitude of the electrical load of the MRI phantom viewed from the MRI coil is adjusted by changing at least one of the number, type and location of load pads . An MRI phantom containing an MR signal generating material and having a pipe line, and a load liquid containing a load material that does not generate an MR signal and is an electrical load for the MRI coil as compared with the MR signal generating material An MRI phantom apparatus comprising: a load liquid filling means that can fill at least one of the amount and type of the load liquid to be filled into the pipe line and at the same time. An MRI phantom containing an MR signal generating material and having a large number of insertion holes, an MRI phantom that does not generate an MR signal as compared with the MR signal generating material, and an electric load for the MRI coil An MRI phantom device comprising a load rod that can be inserted into an insertion hole. An MRI phantom including an MR signal generating material and a load material that does not generate an MR signal and is an electrical load for the MRI coil as compared with the MR signal generating material and can be fitted to the MRI phantom An MRI phantom device comprising a ring. An MRI phantom including an MR signal generating material and a load material that does not generate an MR signal and is an electrical load for the MRI coil as compared with the MR signal generating material and can be attached to the MRI phantom An MRI phantom device comprising a load pad. The surface of the MRI coil facing the MRI phantom containing the MR signal generating material includes a load material that does not generate an MR signal compared to the MR signal generating material and serves as an electrical load for the MRI coil. An MRI characterized in that a load pad is pasted, and the magnitude of the electrical load of the MRI phantom viewed from the MRI coil is adjusted by changing at least one of the number, type and location of the load pads to be pasted. For adjusting the electrical load of a phantom

Images