UA19971U - Method of three-dimensional graphical presentation of a nonmetallic object by magnetic resonance tomography - Google Patents

Abstract

The proposed method of three-dimensional graphical presentation of a nonmetallic object by magnetic resonance tomography consists in exposing the object to the action of reference substance containing resonant nuclei and producing the three-dimensional graphical presentation of the object by signals that are generated by the said nuclei. As the reference substance, hydrogen-containing substance is used.

Description

Description of the invention

The useful model refers to the field of research of various properties of materials using 2 magnetic resonance imaging (MRI) by three-dimensional visualization of the surface structure (both external and internal) of various non-metallic objects and products, including household products, objects of art, archaeological and paleontological materials, as well as a useful model can be used for non-destructive testing and volumetric modeling of various products.

Visualization of the external surface structure of many objects usually does not present problems - it is enough to take the required number of photos of the object from different angles. To visualize the structure of the inner surface by optical methods, there is not always an insurmountable problem of placing the emitter and receiver capable of recording the signal reflected from the inner surface. In some cases, the structure of this surface can be determined by measuring the degree of absorption of X-rays by the object at different angles of the object.

If the material that makes up the object under study contains hydrogen, and therefore protons that have a magnetic moment, then nuclear magnetic resonance (NMR) methods can be used to study it, where the resonant interaction of atomic nuclei that have a magnetic moment is registered , placed in a permanent magnetic field, with a radio frequency (RF) field. With the help of non-homogeneous magnetic fields, it is possible to set the spatial encoding of resonance frequencies of the NMR and to obtain a three-dimensional (30) image of the object using magnetic resonance imaging methods. This non-invasive, safe and highly informative method is successfully used in medicine and biology for anatomical and functional studies, see Anisimov N.V., Pirogov Yu.A., Gubsky

L.V., Gladun V.V. Contrast control and information technologies in magnetic resonance imaging /

Under the editorship Pirogov Yu.A. - Moscow: Faculty of Physics of Moscow State University named after M.V. Lomonosova, 2005.

The closest technical solution, adopted by us as a prototype, is the method of three-dimensional visualization of non-metallic objects by the MRI method, used in lung research, see M.5.AIIregi, 0.0.Sa(ev,

V. Ogiepouz, UM. Narreg, V. Zaat, S. 5. Zrhipdeg g, AM/ivipia "Vioiodisa! tadpeiis gevopapse itadipu ivipd

Iazeg-royagigei 129Khe Maishge 370:199-201 (1994)), or identical modern reviews: (pEr/Ammly.ttitss.yrepp.edy/gezeagsp/pureg. pit), the same, materials in Russian - (pKr:// os.|ipgogilLibgaguriiv.yit|, according to which a 3O-image is constructed using a substance in contact with the object under study, containing resonating magnetic nuclei, on which the surface of the object under investigation is visualized by recording signals from these nuclei by the MRI method, at the same time, a strongly polarized inert gas (helium or xenon, previously prepared in a special way) is used as the mentioned substance, which is injected in a low (safe for the patient) concentration.

Modern MRIs are mainly focused on recording signals from protons. But there are objects for which, in their (He) initial state, ZO-reconstruction using proton MRI is impossible due to the absence of hydrogen in their chemical structure. These are various objects and products made of glass and ceramics, bone and stone. Of great interest is the three-dimensional visualization of the internal structure of these objects, especially for objects of art, archaeological and paleontological materials.

The useful model is based on the task of improving the method of three-dimensional imaging of non-metallic objects by the MRI method, in which the technological possibilities of the method are expanded by providing the possibility of three-dimensional visualization of non-metallic objects in the absence of hydrogen in their chemical structure, and also in the event that the NMR signal from the protons present in the object under study is too small 1" due to their low content or the object under study has a solid structure, for which registration of the NMR signal, including the proton one, is difficult due to the too fast attenuation of this signal due to very short nuclear magnetic relaxation time, while it is possible to obtain high-quality three-dimensional images reflecting the structure of both the external and internal surfaces of the product.

To solve this problem, in the method of three-dimensional visualization of non-metallic objects by the method (Ce) of magnetic resonance imaging (MRI), according to which the construction of a 3-dimensional image of the object under study is carried out using a substance in contact with the object under study, which contains resonating magnetic nuclei, and the surface of the object under study is visualized by registering signals from these nuclei by the MRI method, according to - I 50 of the useful model as a substance containing resonating magnetic nuclei, a substance containing hydrogen is used, and at the same time a substance containing hydrogen is used in liquid form, and as a substance containing hydrogen, according to the first version of the method, an oily liquid or an oily emulsion is used, while it is applied in a uniformly thin layer on the surface of the object under study, according to the second version, as a substance containing hydrogen , use water or alcohol or liquid oil, and the object under study is immersed in this substance. c The cause-and-effect relationship between the features of the proposed set and the technical results achieved from its use is as follows.

Due to the fact that as a substance containing resonating magnetic nuclei, a substance containing hydrogen is used, which is in contact with the object under study, the 3D image of this substance will be, as it were, a cast of the object under study. As a result, not only objects containing water or hydrogen, which means protons, but also objects that do not contain protons - glass, ceramics, stones, bones or, due to the solid-state structure of the object being studied, which have too short a proton relaxation time - polymers, plastics.

The essence of the invention boils down to the fact that instead of registering the MRI signal from the object under study, which is inaccessible for direct registration by the MRI method due to the absence of hydrogen, the MRI signal from the contrast material in contact with this object is recorded. Due to the uniform distribution on the surface of the object of a contrast agent with a higher content of hydrogen (protons) and which has a liquid structure, and therefore gives a powerful MRI signal, it is possible to obtain high-quality three-dimensional MR T-images that reflect the structure of both the external and internal surfaces of the object under study, the structure of which can be very diverse.

The good adaptation of MRI for ZO-imaging is a consequence of the fact that magnetic and RF fields freely penetrate the structure of the studied object, if it is not metallic. The method is a supplement to the beam research methods, based on the reflection of the probing beam (optical and microwave lasers), as well as on the weakening of the penetrating beam (X-ray method). 70 The presented graphic materials show the images obtained as a result of homographic studies using known and proposed methods of three-dimensional visualization of non-metallic objects by the MRI method.

In Fig.1. examples of volume visualization in known diagnostic MRI studies of objects containing hydrogen are shown: A - cerebral vessels, B - structures of the inner ear, C - neuroma of the spinal canal, p - external anatomical structures of the head.

Fig. 2 shows examples of three-dimensional visualization - ZUO-reconstructions obtained from objects made of materials that do not contain hydrogen (these are ordinary household items: glassware and a ceramic kettle). This figure shows the original MRI images (top row) and ZO reconstructions (bottom row).

Figure 3 shows three-dimensional images of objects (on the left - a glass bottle, on the right - a ceramic teapot) with cut-off parts, which allows you to visualize the inner surface of the object.

Figure 4 shows a 3D visualization of the statuette.

To obtain the original MRI images, scanning with digital resolution Ichihimm was used, the scanning time was no more than 20 minutes. Small artifacts near the area of the drawing on the teapot are associated with the presence of metal components in the paint, which cause distortion of the RF field. Image quality - signal-to-noise ratio, spatial resolution - can be increased by increasing the signal accumulation time. If this time has to be limited for living objects, then for inanimate objects, the duration of the study can be set as arbitrarily long. but

The method of three-dimensional visualization of non-metallic objects by the MRI method was carried out on a Totikop 550 tomograph (Vhykeg). ZO processing was carried out with the help of Raga Mivioptm m.1.0 (IKIH 5.3) and Itadeu 1.345 (M5

M/ipdomv of the Khmer Republic). The construction of the 3O-image of the object under study was carried out using a substance containing "- resonant magnetic nuclei, which were brought into contact with the object under study and on which the surface of the object under study was visualized by recording signals from these nuclei by the MRI method, as a substance , containing resonating magnetic cores, a substance containing hydrogen was used, in the first example - petroleum jelly, which was applied uniformly with a thin layer on the surface of the object under study. On fragments A and B (see Fig. 2), a signal of petroleum jelly smeared on the surface of the object under study is visible. For ZO-reconstruction, MIR-transformation was applied (Makhitit o

Ipiepeyu Rgo|esiop), in which the glass surface is reproduced better than for ZO-rendering. In the second "-- example, the fragments of the SC show the presence of the object under study immersed in water, which is revealed by the loss of the signal on the MRI image. The three-dimensional reconstruction was made by the ZO-rendering method.

On separate sections, the MRI image of the object according to the first example is represented by thin bright lines that reflect the localization of petroleum jelly applied to the surface of the object invisible to NMR - Fig. 2 A, B. "The information obtained is sufficient to carry out segmentation and, in in the final result, volume reconstruction of 723

Gani of the object, after which it can be presented from any viewing angle, with various options for shading the surface, animation effects, etc. )" When implementing the second option (example 2), information about an object invisible to NMR is presented on an MRI image in the form of areas of a low signal (dark areas) against the background of a strong signal of water (light areas) - Fig. 2 C, O0. To carry out ZO-reconstruction according to the standard algorithm, it is only necessary to carry out the inverse - transformation of the brightness scale on the MRI image.

Due to simple manipulations with MRI data, it is possible to construct arbitrary cross-sections of the object being reconstructed, which allows viewing the object as if from the inside and visualizing the internal surface of the object - (Te) Fig.3. In order to obtain volumetric images with internal "cuts" or "cut" at a certain angle, it is necessary to pre-process the original (20) images before running the volumetric reconstruction algorithm, this. obtained from the MRI scan of the object under study. The processing is reduced to the appropriate "trimming" of the original - M images using a regular graphic editor. Described manipulations (graphic processing, etc

ZO-reconstruction) can be implemented not only with the help of software supplied by companies - manufacturers of tomographs, but also with the help of freely available programs - for example, Itade

IEr://her.ipto. foam house

As a result of the use of the proposed method, the objects of ZO-visualization by the method of proton MRI can contain objects that cannot be registered by conventional MRI methods due to the too short relaxation time of protons - for example, polymer and plastic products, as well as those that are not at all have hydrogen It is only necessary that they do not contain metal, because the latter distorts the RF field and, accordingly, precisely because MRI images, do not deteriorate from the application of a hydrogen-containing emulsion on their surface or from immersion in a contrasting hydrogen-containing liquid, and also have acceptable dimensions for a tomograph. It is possible that objects of art, archaeological and paleontological materials, copies of designed products, etc., will be the most popular objects of ZO-visualization. for

Claims (4)

The formula of the invention 1. The method of three-dimensional visualization of non-metallic objects by the method of magnetic resonance imaging (MRI), which consists in obtaining a three-dimensional image of the object under study using a substance containing resonating magnetic nuclei in contact with the object under study , by which the surface of the object under study is visualized by recording signals from these nuclei by the MRI method, which differs in that a substance containing hydrogen is used as a substance containing resonating magnetic nuclei. 2. The method according to claim 1, which differs in that the substance containing hydrogen is used in liquid form. Q. The method according to claim 2, which differs in that an oily liquid or an oily emulsion is used as a hydrogen-containing substance, while it is applied uniformly in a thin layer on the surface of the object being tested. 4. The method according to claim 2, which differs in that as a substance containing hydrogen, water or alcohol or liquid oil is used, while the object under investigation is immersed in it. what with "- у (о) (о) є - and" - se) se) -i - 60 b5