RU2601377C1 - Method of making anatomic preparation of hollow organ - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to pathologic anatomy. For production of an anatomic preparation a hollow organ or its fragment is separated from an disemboweled complex of organs, the cavity is washed with running water, dissected, after that its cavity is filled with a universal waterproof glue based on acrylic aqueous dispersion, for example, with glue “Moment montage”, until the external profile of the hollow organ, its texture and degree of filling are similar to the live characteristics. Holes of the hollow body, through which the cavity was filled, are underrun, ligatured with cotton wool and bound, then the hollow organ is left in a sealed container in vapors of a preserving bactericidal substance, for example, 10 % aqueous solution of formalin, until complete fixation.

EFFECT: method enables making the anatomic preparation of a hollow organ, which by the external relief and consistency resembles the corresponding hollow organ in life, at increase of service life of the produced anatomic preparation and safer process due to rejection of toxic and inflammable solvents.

1 cl, 1 dwg

Description

The invention relates to human anatomy, can be used in pathological anatomy and comparative anatomy of humans and animals.

Methods for the manufacture of anatomical preparations of hollow organs are known from a number of sources, namely: Goncharov N.I. Guidelines for the preparation and manufacture of anatomical preparations / N.I. Goncharov, L.S. Speransky, A.I. Krajushkin, S.V. Dmitrienko. - N. Novgorod: Publishing house of the NGMA, 2002 /; Pikalyuk B.C. Toolkit for the manufacture of anatomical preparations /B.C. Pikalyuk, G.A. Frost, S.A. Kutia. - Simferopol: [Crimean, state. honey. un-t them. S.I. St. George], 2004. - pp. 44-45 /; Zabrodin V.A. The method of reconstruction of the lumen of hollow and tubular anatomical structures / B.A. Zabrodin // Morphology. - 2003. - No. 3 - p. 89-90 /.

C., Canova M., Grandis A. A new method of producing casts for anatomical studies // Anat Sci Int (2014) 89:255-265.As a prototype - the closest analogue - selected one of the methods of manufacturing the drug described in the article: De Sordi N., Bombardi C., Chiocchetti R., Clavenzani P.,

C., Canova M., Grandis A. A new method of producing casts for anatomical studies // Anat Sci Int (2014) 89: 255-265.

In this case, the vessel or hollow organ, for example, the intestine, was washed under running water, dried in air, then polyurethane foam (diphenylmethane-4,4-diisocyanate) dissolved in acetone in the ratio of 4 g of foam per 1 was injected into the vessel or into the organ cavity. ml of acetone.

The disadvantages of the above method are that the method involves filling the cavity of the organ with a solution of polyurethane foam in acetone, which quickly turns into a solid state, after which it loses elasticity and cannot be redistributed in the cavity of the organ. The consistency of such preparations differs from the consistency inherent in the hollow organs of a living person, which does not allow students to obtain objective knowledge about the anatomy of the corresponding hollow organs. Anatomical preparations made by the described method are fragile, which reduces the duration of their operation. In addition, the method involves the use of a solvent of polyurethane foam acetone having toxicity.

The inventive method is aimed at obtaining objective knowledge in the fields of basic science, studying the laws and patterns of the structure of the hollow organs of humans and animals in normal and pathological processes.

The technical result consists in the manufacture of an anatomical preparation of a hollow organ, which in terms of external relief and consistency resembles the corresponding hollow organ as much as possible during life, in increasing the life of the manufactured anatomical preparation, as well as in significantly improving the safety of the process due to the rejection of the use of toxic and flammable solvents, in particular acetone.

The claimed technical result is achieved due to the fact that the hollow organ or its fragment is isolated from the eviscerated complex of organs, the cavity is washed with running water, thereby completely freeing the cavity from the contents, the hollow organ is prepared, after which its cavity is filled with universal waterproof adhesive based on acrylic aqueous dispersion , for example, “Installation moment” glue, until the external relief of the hollow organ, its consistency and degree of filling correspond to the similar lifetime characteristics kam, then the openings of the hollow organ through which the cavity was filled are stitched, tamponated with cotton wool and bandaged, thereby sealing them, after which the hollow organ is left in a sealed container in pairs of a preserving bactericidal substance, for example, a 10% aqueous formalin solution, until it is completely fixed .

The essence of the patented method is that to fill the cavity of a hollow organ instead of polyurethane foam (diphenylmethane-4,4-diisocyanate) dissolved in acetone, use a universal waterproof adhesive based on acrylic aqueous dispersion.

According to paragraph 2 of the formula for the manufacture of an anatomical preparation, a fragment of the hollow organ is used, which simplifies the manufacture of the anatomical preparation, reduces the consumption of glue and allows to increase the number of anatomical preparations suitable for studying the external relief and consistency corresponding to similar lifetime characteristics of the hollow organ without increasing the amount of cadaveric material.

The method is illustrated by a photograph of a finished anatomical preparation of a fragment of a hollow organ, where in FIG. 1 shows a fragment of a small intestine of a person after filling a fragment of the small intestine with glue.

The method is performed in three stages. The first stage (preparatory) consists in preparing the hollow organ for filling with universal waterproof glue. From the evicerized (extracted from the corpse) organ complex by mechanical means, using sectional instruments, a hollow organ is isolated, which is supposed to be used for the manufacture of an anatomical preparation. The hollow organ is washed under running water until its cavity is completely free of contents. If necessary, the hollow organ is prepared, that is, mechanically, with the help of a scalpel and tweezers, connective tissue formations and adipose tissue are removed and the anatomical structures of interest to the researcher are retained. After the completion of the first (preparatory) stage, they proceed to the second stage, which consists in filling the hollow organ with universal waterproof adhesive and preventing leakage of the universal waterproof adhesive from the organ cavity. The implementation of this stage is determined by the anatomical features of the hollow organ.

To fill hollow organs with a large volume of the cavity, cartridges or tubes are used as containers with universal waterproof glue, and to create pressure when filling, special construction mechanical pistols are used, in which cartridges or tubes are inserted. To fill hollow organs with a small volume of the cavity, tubes with universal waterproof glue are used. To fill hollow organs with rigid walls (for example, the heart), use universal waterproof adhesive of low viscosity.

If a hollow organ has elastic walls and one (inlet) opening (for example, a vermiform appendix), then the implementation of the second stage begins with the hands compressing the organ walls, thereby forcing water and air out of its cavity, after which the container is hermetically connected to a single hole of a hollow organ, after which they stop squeezing the walls of the hollow organ and begin to fill the cavity of the organ with universal waterproof glue, squeezing it out of the container.

If the hollow organ has elastic walls and two openings (for example, the stomach), then first the container with universal waterproof glue is hermetically connected to one hole and half-filled the organ cavity, then the organ walls are squeezed to displace air from the cavity, and then the second container is sealed universal waterproof glue with the second hole of the hollow organ and fill the entire cavity of the organ, forcing out under pressure universal waterproof glue from the tank.

The degree of filling of hollow organs with elastic walls is controlled visually and by palpation; the degree of filling of hollow organs with rigid walls is controlled only visually. For uniform distribution of universal waterproof glue in the cavity, the hollow organ is massaged if necessary in the direction of movement of the glue. Filling is stopped when the external relief of the hollow organ, its consistency and degree of filling are as close as possible to similar intravital characteristics. After completing the filling, a purse string suture is applied around the hole of the hollow organ, after which the container is disconnected from the hole and a cotton swab is inserted into the hole for sealing. Sealing the hole is completed by tying a purse string suture. If a universal waterproof adhesive was introduced through two holes, then one, then the second hole is sealed first, as described above.

The third stage is aimed at preventing biological destruction of the tissues of the hollow organ and at preserving the external relief of the hollow organ, its consistency and the degree of its filling, acquired as a result of filling with universal waterproof glue. This step consists in fixing the hollow organ, for which the latter is left in a sealed container on the surface of a preservation solution, for example, a 10% aqueous formalin solution, until the hollow organ is completely fixed.

Subsequently, the anatomical preparation of the hollow organ is stored in a sealed container in vapors of a preservative, for example, in formalin vapors.

Thus, the application of this method allows the manufacture of an anatomical preparation of a hollow organ, which in terms of external relief and consistency resembles as much as possible the corresponding hollow organ during life. The anatomical preparation is elastic and does not have brittleness, which significantly increases its useful life. In addition, the method does not involve the use of any solvents, including acetone, when implementing it, which leads to a significant increase in the safety of the process.

Claims (2)

1. A method of manufacturing an anatomical preparation of a hollow organ by sequentially eviscing, washing, dissecting the organ, filling the organ cavity with its subsequent fixation in vapors of a preservative substance, characterized in that the organ cavity is filled with a universal waterproof adhesive based on acrylic aqueous dispersion. 2. A method of manufacturing an anatomical preparation according to claim 1, characterized in that a fragment of a hollow organ is used to manufacture the anatomical preparation.

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