RU208239U1 - A phantom device for setting up the protocols of magnetic resonance imaging of the prostate gland in patients with metal structures of the hip joint - Google Patents

Abstract

This utility model relates to the field of medical technology, namely to the means of quality control of images obtained during magnetic resonance imaging with metal structures in the area of interest. An analogue of the claimed utility model is known from the prior art, which is a phantom for controlling the parameters of diffusion-weighted images of magnetic resonance imaging (utility model RU 187202 U1), the disadvantages of which in terms of visualization of the prostate gland in patients with metal structures include the impossibility of placing an implant in the housing phantom and the lack of modeling of the geometric characteristics of the prostate. The technical problem solved by the claimed utility model is to provide the possibility of modeling the measured diffusion coefficient and the geometric characteristics of the prostate gland with the placement of an implant in the phantom body, which will allow you to customize the protocols of magnetic resonance imaging of the prostate gland in patients with metal structures of the hip joint. The technical result consists in creating a device for assessing the quality of visualization of the prostate gland in patients with metal structures of the hip joint during magnetic resonance imaging, namely: the accuracy of the assessment of the measured diffusion coefficient, the geometric dimensions of the prostate gland, including the central and peripheral zones, as well as the tumor, heterogeneity image brightness, image non-linearity, signal-to-noise ratio.

Description

This useful model relates to the field of medical technology, namely to the means of quality control of images obtained during magnetic resonance imaging with metal structures in the area of interest.

The following analogs of the proposed technical solution are known from the prior art. ASTM F2119 Standard Test Method for Evaluation of MR Image Artifacts from Passive Implants assumes the use of a _{container filled with CuSO 4} solution with an implant placed in it to assess the effect of the latter on image quality. The disadvantage of this approach is the use of only one characteristic of the image quality - the area of the artifact from the implant.

Another analogue is a phantom for evaluating the parameters of magnetic resonance images when testing MRI according to the accreditation program of the American Society of Radiology (ACR) (Kaljuste D., Nigul M. Evaluation of the ACR MRI phantom for quality assurance tests of 1.5 T MRI scanners in Estonian hospitals // Proceedings of the Estonian Academy of Sciences. - 2014. - No63 (3). - P. 328-334). The phantom is equipped with inserts for evaluating the parameters of the image quality, however, it does not imply the placement of the implant in the body and does not allow assessing the accuracy of determining the measured diffusion coefficient, which is an important criterion for assessing the state of the prostate gland.

The closest analogue is a phantom for monitoring the parameters of diffusion-weighted images of magnetic resonance imaging (useful model RU 187202 U1), the disadvantages of which in terms of visualization of the prostate gland in patients with metal structures include the impossibility of placing the implant in the phantom body and the lack of modeling the geometric characteristics of the prostate glands.

The indicated disadvantages of analogs are overcome in the claimed utility model. Namely: the technical problem being solved is to provide the possibility of modeling the measured diffusion coefficient and geometric characteristics of the prostate gland with placement in the phantom body of the implant, which will make it possible to customize the protocols of magnetic resonance imaging of the prostate gland in patients with metal structures of the hip.

The technical result consists in creating a device for assessing the quality of visualization of the prostate gland in patients with metal structures of the hip joint during magnetic resonance imaging, namely: the accuracy of assessing the measured diffusion coefficient, the geometric dimensions of the prostate gland (including the central and peripheral zones, as well as the tumor) , non-uniformity of image brightness, non-linearity of the image, signal-to-noise ratio.

The inventive phantom device consists of a cylindrical body having a cover for installing a hip joint implant.

Inside the case are located:

- an insert simulating the prostate gland, which has three sections (to simulate the central and peripheral zones of the prostate gland, as well as the tumor), filled with solutions of polyvinylpyrrolidone providing the corresponding value of the measured diffusion coefficient;

- a bracket for fixing the implant in a position corresponding to that of the patient, relative to the insert simulating the prostate gland.

The phantom volume can be filled with water or an MP contrast liquid (for example, an aqueous solution of CuSO ₄ ).

Thus, the claimed device differs from analogues in the following design features:

- the presence of an insert for simulating the prostate gland with given geometric characteristics, and consisting of three sections (to simulate the central and peripheral zones, as well as a tumor), and these sections are filled with solutions of polyvinylpyrrolidone in concentrations that provide the value of the measured diffusion coefficient corresponding to that in the tissues patient;

- the presence of a bracket for placing the implant in the phantom body in a position corresponding to that of the patient, relative to the insert simulating the prostate gland.

FIG. 1 shows the appearance of a phantom. The phantom consists of a cylindrical body (1) with a cover (2), which allows the installation of a hip joint implant. Inside the phantom there is an insert for simulating the prostate gland (3) and a bracket for fixing the implant (4).

FIG. 2 shows the design of an insert for simulating a prostate gland, which includes three sections: a central zone (5), a peripheral zone (6), a tumor (7). The design of the insert makes it possible to fill its sections with solutions of polyvinylpyrrolidone in concentrations that ensure the value of the measured diffusion coefficient, which is adequate to that in the corresponding human tissues.

FIG. 3 shows an example of an MP image of a phantom with a hip joint implant installed in it.

Setting up the protocols of magnetic resonance imaging of the prostate gland in patients with metal structures of the hip joint can be done as follows:

1. A hip joint implant is installed inside the phantom with the help of a bracket;

2. MP-scanning of the phantom is performed;

3. In the software for viewing DICOM files or at the workstation included in the MRI kit, the image quality is assessed (determination of the measured diffusion coefficient in the central and peripheral zones of the insert, as well as, in the tumor, determination of the geometric dimensions of the insert, calculation of the signal ratio -noise, calculation of the value of the inhomogeneity of the brightness of the image and the nonlinearity of the image);

4. The parameters of the protocol are corrected and their influence on the parameters of the image quality listed in clause 3 is evaluated;

The process is repeated iteratively until the MP-scanning protocol is obtained, which ensures the minimum deviation of the phantom parameters measured from the MR images from the actual ones.

Claims (1)

A phantom device for adjusting the protocols of magnetic resonance imaging of the prostate gland in patients with metal structures of the hip joint, containing a cylindrical body with a lid filled with MP-contrast liquid - an aqueous solution of CuSO ₄ , an insert for simulating the prostate gland and a bracket for fastening metal structures, characterized in that the insert for simulating the prostate gland includes three sections simulating the central zone of the prostate gland, the peripheral zone of the prostate gland and the tumor, and these sections are filled with solutions of polyvinylpyrrolidone in concentrations that provide the value of the measured diffusion coefficient corresponding to that in the tissues of the patient.

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