RU198106U1 - MATRIX BLOCK FOR MANUFACTURE OF TISSUE MICROCHIP - Google Patents

Abstract

It belongs to the field of histological, immunohistochemical, molecular genetic analysis of samples of normal and pathological tissues of humans or animals and is used for the production of tissue microarrays - organized on a single glass slide of histological sections, including tissue samples to be analyzed under the same conditions. Allows you to produce histological sections without significant loss in quality of the elements of the matrix block in the manufacture of histological preparations and to increase the repeatability of the results of analyzes of the obtained histological sections. The block is a parallelepiped made of paraffin with cylindrical recesses filled with equal recesses in diameter with cores of samples of various human or animal tissues. Within one block, samples are presented from a set of tissues of medium histological softness, close to each other in morphological and functional characteristics, in which the content of parenchymal and stromal tissues is comparable: tissues of glands of external and mixed secretion, parenchymal organs, lymphatic tissue and placenta.

Description

It belongs to the field of histological, immunohistochemical, molecular genetic analysis of samples of normal human or animal tissues and is used for the production of tissue microarrays - histological sections organized on a single glass slide, including tissue samples to be analyzed under the same conditions.

Known matrix unit for the production of tissue microchips according to European patent EP1238286 (G01N 1/31, G01N 35/00, prior. 12/13/2000). The block is a parallelepiped made of paraffin with cylindrical recesses filled with equal recesses in diameter by cylinders (biopsy samples, cores) of various human or animal tissues taken from paraffin blocks of the required tissues. The block is intended for the production of histological sections, including samples of all tissues to be analyzed.

To perform the analysis tasks, taking into account the requirements of regulatory organizations, as a rule, a set of at least 37 tissues obtained from 3 different donors is required, and each sample should be presented in duplicate and have a cut diameter of about 2 mm. One matrix block with recesses with a diameter of 2 mm usually includes 60 samples, which makes it possible to place 10 tissues within the same block in the required number of repeats. Thus, to analyze 37 tissues, it is necessary to create not one, but several matrix blocks with a different set of tissues (usually 4 blocks). For a qualitative analysis, it is necessary that in a histological section made of a block by means of a microtomy, there are no defects of tissue samples included in it.

The technical problem is that different tissues differ significantly in their physicochemical properties. Accordingly, with a random set of tissues within a block, problems often arise due to the uneven viscosity and hardness of its constituent tissue components. In the process of manufacturing histological sections and placing them on a glass slide, samples of donor tissues may fall out of the section, deform, crumble, tear, shift in position, overlap one another.

Significantly complicates the process of sample preparation and microtomy, the presence of adipose tissue, the content of which in the sample determines the viscosity of the sample when a microtome knife passes through it. In addition, the samples located downstream of the microtome knife may be damaged due to particles from the harder samples located above or due to blunting of the cutting surface of the blade with upstream tissues. This leads to significant difficulties in subsequent manipulations with histological sections (dewaxing, staining of tissue objects, processing them with numerous reagents) and analysis of stained sections, as well as the need for numerous repetitions.

The task is to create a matrix block, allowing to produce histological sections without loss of quality, and to increase the repeatability of test results.

The problem is solved due to the fact that for the placement within the same matrix block for the manufacture of tissue microchips, which is a rectangular parallelepiped made of paraffin with cylindrical recesses filled with equal recesses in diameter by cylinders of various tissues of a human or animal, samples are taken from organs with an average fat content, in which the content of parenchymal and stromal tissues is comparable, they include the so-called parenchymal organs, glands of external and mixed secretion, lymphatic and embryonic tissues. That is, for combining in one block, tissues should be possibly closer, first of all, by the content of adipose tissue, which determines the viscosity of the sample. In addition, the quality of the histological section is affected by the ratio of the contents in the samples taken for the block of parenchyma and stromal connective tissue, which differ significantly in hardness. Minimal differences in these parameters for samples within the same matrix block contribute to uniform cutting during microtomy. Another option for a set of tissues within one matrix block may be a set that includes samples with a predominance of parenchyma and a high fat content, and, accordingly, the most viscous and soft, the third set may include tissues with an average histological hardness, which contains a slight the amount of fat and the stromal component prevails over the parenchymal, the fourth set includes the hardest connective tissue samples. The content of fat, parenchymal and stromal components in the tissue depends on its morphological and functional characteristics; therefore, tissues having close physicochemical properties determined by their structure and function were selected from the entire set of samples for placement in one block.

The technical result is that the claimed utility model will allow the production of histological preparations without significant loss in quality of the constituent elements in the manufacture of histological sections from the matrix unit and to increase the repeatability of analysis results.

Tissue microchips made from such a block will contain the tissue necessary for subsequent studies in histological and immunohistochemical stains, detection of molecular genetic damage, as well as for analysis and generalizations, condition. The advantage of using such tissue microarrays is that a full variety of morphological studies require fewer histological sections (respectively, the microarrays themselves), while significantly reducing the time to complete the work and significantly saving reagents, consumables, and other resources. This leads to an increase in the quality of research results and their subsequent analysis due to the fact that all tissue samples (biopsy samples) are processed simultaneously in the same way using established (recommended) protocols (concentration of reagents, incubation time, temperature conditions, composition of solutions).

One of the optimal tissue composition options in such a set may be a set of tissues of medium histological softness - liver, kidney, lung, spleen, placenta, pancreas, salivary gland, lymph node, testicle, mammary gland.

In FIG. 1. A photograph of a matrix block composed of tissues of medium histological softness is presented.

The photograph (Fig. 1) shows a matrix block, tissue samples in which have similar physicochemical properties, which is achieved by grouping tissues based on their morphological and functional characteristics, namely by combining within one block samples in which the content of parenchymal and stromal tissues is comparable: liver, kidney, lung, spleen, placenta, pancreas, salivary gland, lymph node, testicle, mammary gland, which, in turn, allows for histological sections using a microtome without loss of quality of the section elements.

This is achieved by fulfilling the conditions declared as features of the utility model: combining within one block samples from a set of tissues close to each other in morphological and functional characteristics that determine their behavior when a microtome knife passes through them, which allows histological sections using a microtome without loss of quality of cut elements.

Claims (1)

The matrix unit for the manufacture of tissue microchips, which is a parallelepiped made of paraffin with cylindrical recesses filled with equal recesses in diameter with cores of samples of various human or animal tissues, characterized in that it includes samples from a set of tissues, which includes tissues of glands of external and mixed secretion , parenchymal organs, lymphatic tissue and placenta.

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