RU2659425C1 - Method of manufacturing the anatomical models for the hollow and tubular organs - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: present invention relates to the field of medicine, in particular to anatomy, and can be used for the manufacture of anatomical models of hollow and tubular organs, which are further used in the educational process as visual aids. Method of manufacturing the anatomical models of hollow and tubular organs is performed on the basis of corrosion technology, which includes a dense and uniform filling of the hollow and tubular structures of the anatomical complex with silicone sealant, application of the ligature, avoiding leakage of silicone sealant, fixation of the anatomical complex in the solution of the chromium mixture and subsequent washing under tap water until the hydrolyzed tissues are completely removed. "Herment" is used as a silicone sealant. Fixation of the polymer is carried out in a solution consisting of sulfuric acid – 63.4 %, distilled water – 34.5 %, potassium dichromate (K₂Cr₂O₇) – 2.1 %.

EFFECT: proposed method provides the possibility of using both native and fixed anatomical material in formalin or other fixing fluids, reduction of production time of impression of the internal structure of the organ cavities, decrease of the viscosity of the solution introduced, simplicity of the tinting of the impression for differentiation of the hollow structures.

1 cl, 3 dwg

Description

The present invention relates to medicine, in particular to anatomy, and can be used for the manufacture of imitations of anatomical preparations of hollow and tubular organs, which are further used in the educational process as visual aids.

Currently known methods of manufacturing anatomical preparations of hollow and tubular organs.

A known method of manufacturing a corrosion anatomical preparations, which consists in the fact that the mass of the following composition (wt.%) Is injected into the vascular bed of a fresh organ by injection with a syringe and cannula:

silicone sealant SX 101 - 33,

epoxy resin - 33,

protacryl - 33,

universal color scheme - the rest,

in this case, the injection of mass is carried out until resistance to further injection is felt, after which the organ is left to solidify the mass for 24 hours, then it is placed for 5 days in a 10-fold volume of concentrated hydrochloric acid, after dissolution of the tissues, the resulting impression is washed in water and dried (RF patent No. 2370032, IPC A01N 1/00, publ. 20.10.2009, BI No. 29).

The method allows to obtain accurate casts of the vascular bed with high mechanical strength.

There is a method of obtaining anatomical preparations of hollow and tubular structures, which consists in the fact that hollow and tubular organs are poured with a cold hardening mass consisting of a silicone component, diethyl, carbon dioxide and dye, the drug is placed in a thermostat for 24 hours at a temperature of + 40 ... + 50 C, moistened for 24 hours at a temperature of + 25 ... + 35 C, then placed in a solution of hydrochloric acid for 24-48 hours, after which it is washed, bleached and dried (RF Patent No. 2320168, IPC A01N 1/00, publ. 27.03 .2008, BI No. 9).

The method allows to obtain dummies that have high elasticity, chemical and thermal resistance.

However, this method requires the use of chemicals that are not available at the bases of the departments of normal anatomy of universities of the Russian Federation. Lead carbonate basic has the first hazard class. The maximum allowable concentration of this substance in the air of the working environment is 0.01 mg / m ³ . Primary carbon dioxide can cause chronic and acute poisoning, which can cause damage to the systems and organs necessary for life. This substance has a strong negative effect on the blood, nervous system and blood vessels. In addition, the method dictates special requirements for its implementation. Thus, there is a need to use a special room that meets all the rules for working with chemicals, personnel who are additionally trained to work with them and have the appropriate approvals, consumables and personal protective equipment, which increases the cost of the production manual.

The closest to the proposed method for the combination of essential features and the achieved technical effect and which is selected as a prototype is a known method for the manufacture of imitations of anatomical preparations of hollow and tubular organs made on the basis of corrosion technique, which includes a dense and uniform filling of hollow and tubular structures of the anatomical complex with silicone sealant, application of a ligature preventing leakage of silicone sealant, fixation of silicone sealant in solution acid and subsequent washing under running tap water until the hydrolyzed tissues are completely removed (RF Patent No. 2404581, IPC A01N 1/00, publ. 11/27/10 No. 33)

The known method is carried out on the basis of corrosion technology, by densely and uniformly filling the polymer with hollow and tubular anatomical structures, using silicone sealants as filler, for example, Silicon acetat 101e, then applying ligatures to prevent silicone from leaking, after which the preparation can withstand in a 50-90% sulfuric acid solution for 2 to 3 days, thoroughly washed under running tap water until the hydrolyzed tissues are completely removed.

According to the authors of the known method, the silicone sealant used has good permeability, allows its introduction in the manufacture of imitation vessels of small diameter, gives the imitation strength and elasticity.

However, the disadvantages of this method include the following:

- the limited availability of Silicon acetat 101e in modern conditions in the Russian Federation (price);

- the manufacture of a 50-90% solution of sulfuric acid requires great care (because chemically pure acid is supplied to departments during planned purchases) and its dilution requires chemical knowledge;

- mandatory availability of protective equipment and special chemical equipment (fume hood);

- The use of native anatomical material, which is often difficult. Currently, Federal Law No. 323-ФЗ "On the Basics of Protecting the Health of Citizens in the Russian Federation" (Actual version of Law 323-ФЗ dated 07/03/2016 as amended on 01/01/2017) has come into force, which regulates medical measures taken in connection with the death of a person and the use of the body, organs and tissues of a deceased person.

So, in chapter 8 it is stated:

"one. The body, organs and tissues of a deceased person may be used for medical (with the exception of use for the purposes provided for in Article 47 of this Federal Law), scientific and educational purposes in the following cases:

1) if there is a written expression of will of a person made by him during his life and notarized in the prescribed manner, about the possibility of such use;

2) if the body is not claimed after the death of a person due to the absence of his spouse, close relatives (children, parents, adopted children, adoptive parents, siblings, grandchildren, grandfathers, grandmothers), other relatives, legal representatives or other persons who took the obligation to carry out the burial, in the manner and within the time periods established by the legislation of the Russian Federation on burial and funeral affairs.

2. The procedure and conditions for the transfer of the unclaimed body, organs and tissues of a deceased person for use in medical, scientific and educational purposes, the procedure for using the unclaimed body, organs and tissues of a deceased person for these purposes, including the maximum period of their use, are established by the Government of the Russian Federation . After the expiration of the maximum period, the unclaimed body, organs and tissues of the deceased person are subject to burial in accordance with the legislation of the Russian Federation on burial and burial.

The aforementioned Law sharply reduced the possibility of making models that were made at the departments of anatomy of medical universities for their use in the educational process as visual aids. The Law does not provide for legally valid mechanisms for the will of a person made by him during his life and notarized in the prescribed manner about the possibility of such use. Situations arise when relatives recall the deceased after several years and the question arises of identifying the corpse of the deceased, which becomes impossible when using the corpse of the deceased for educational and scientific purposes. Often there are situations when these terms are expired and then there is a legitimate need for the burial of the remains.

Therefore, the departments remained the only way to create visual aids for the course of anatomy is the use of biological material fixed in formalin (located in the department, having fulfilled the sanitary term of operation).

The objective of the invention is to provide a method for the manufacture of imitations of anatomical preparations of hollow and tubular organs, which is devoid of the disadvantages of the prototype.

The technical result of the proposed method consists in creating the possibility of using both anatomical material native and fixed in formalin or other fixing liquids, reducing the time of producing an impression of the internal structure of organ cavities, lowering the viscosity of the injected solution, ease of tinting the impression to differentiate hollow structures.

The technical result is achieved by the fact that in the known method of manufacturing dummies of anatomical preparations of hollow and tubular organs, made on the basis of a corrosion technique, which includes tight and uniform filling of hollow and tubular structures of the anatomical complex with silicone sealant, applying ligatures, avoiding leakage of silicone sealant, fixing the anatomical complex in a solution of the chromium mixture and subsequent washing under running tap water until the hydrolyzed tissues are completely removed, in honors silicone sealant used "Germent" fixing polymer is carried out in a solution consisting of sulfuric acid - 63.4%, distilled water - 34.5% potassium dichromate (K ₂ Cr ₂ O ₇₎ - 2.1%.

The present invention meets the criteria of the invention of "novelty", because conducted patent research did not reveal sources of information, including patent documentation, which would discredit the novelty of the method.

Known silicone sealant universal premium "Germent": white, transparent; base - silicone; the system is acetate; smell - not strong, acetic acid; begins to harden at 15 minutes (instructions for use).

Known substance is potassium dichromate (K ₂ Cr ₂ O ₇ ), which is a non-tracking crystals of orange-red color. Non-volatile, soluble in water. Potassium dichromate is a strong oxidizing agent. It is used for organic synthesis, production of matches, inorganic pigments, dry batteries and other purposes, in the preparation of skins.

Information on the use of potassium dichromate in the fixing mixture when creating dummies of anatomical preparations was not found in the known literature, which allows us to conclude that the proposed invention meets the criterion of "inventive step".

The use of premium “Germent” universal silicone sealant and fixation of the anatomical complex with a solution consisting of sulfuric acid - 63.4%, distilled water - 34.5%, potassium dichromate (K ₂ Cr ₂ O ₇ ) - 2.1%) provides the possibility of making dummies, both native and sample, fixed with a standard aqueous solution containing up to 50% formalin or other fixing liquids of anatomical material. Reduces dummy production time to 12-36 hours (depending on organ size). The method allows to increase the wear resistance of the dummy, i.e. extend its life and reduce production costs. For the production of visual anatomical aids, special rooms are not required, with the exception of those used in the departments of normal anatomy and the departments of general chemistry at universities of the Russian Federation. When instructed (no more than 1 academic hour) under the guidance of a teacher, it is possible for students studying in theoretical departments to participate in the manufacturing process (general chemistry, normal anatomy).

The proposed method is as follows.

The method is performed on the basis of a corrosion technique, which includes preliminary washing of hollow and tubular structures of the anatomical complex. Using a syringe (20 ml), the structures are densely and uniformly filled with Herment silicone sealant (with the preliminary addition of Universal Tinting Paste No. 7 - scarlet for arteries, No. 18 - blue for veins, bronchi, synovial joint cavities), then ligature is applied that does not leak silicone. The polymer is fixed within 24 hours. To remove necrotic tissue within 1-2 days, the anatomical complex (depending on size) is kept in a solution containing 63.4% sulfuric acid, 34.5% distilled water and 2.1% potassium dichromate (K2 Cr2 O7), after wherein the resulting preparation is washed until the hydrolyzed and / or soft tissues are completely removed.

Examples of specific uses of the proposed method

Example 1. The anatomical complex of the lung (photo 1)

Using the hermetic gun included in the kit of the Herment silicone sealant used, the substance was injected at room temperature from 16 ° to 22 ° degrees through the trachea into the airways of the lungs - first into the right lung through the main bronchus, then into the left. The volume of injected substance was controlled by the degree of compaction of the organ and excessive secretion of the substance through a tracheal section. To seal the cannula of the gun and the lumen of the trachea, a medical clamp was used. The flooded organ was left for 48 hours to harden the mass. Then the anatomical complex was placed in a laboratory desiccator, in which a fixation solution containing 63.4% sulfuric acid, 34.5% distilled water, 2.1% potassium dichromate was prepared in advance. After 48 hours, the destroyed soft tissues were washed away from the impression of the tracheobronchial tree under running water.

Example 2 - anatomical complex of the kidney (photo 2).

The anatomical complex of the right kidney, fixed in formalin solution, is used. Before the introduction of the sealant into the lumen of the urinary tract and the arterial bed of the kidney, the organ was washed five times under running water with a 20 ml medical syringe until clear water drained. Using a sealant gun, the Germent silicone sealant was injected at room temperature through the ureter and renal artery. The volume of the injected substance was controlled by the degree of compaction of the organ and excessive secretion of the substance through a section of the ureter and renal artery. With the introduction of the substance, mechanical pressure was applied to the front and back walls of the kidney to improve the penetration of the sealant into the lumen of the hollow formations. To seal the cannula of the pistol and the lumen of the renal artery and ureter, medical clamps of the Mosquito type were used. The flooded organ was left for 24 hours to harden the mass. Then the complex was placed in a laboratory desiccator, in which the mixture was prepared in advance for fixation. The ratio of ingredients was 63.4% sulfuric acid and 34.5% distilled water, 2.1% potassium dichromate). After 8 hours, the destroyed soft tissues were washed away from the casts of the urinary tract and arterial bed under running water.

Example 3 - the anatomical complex of the vessels of the placenta (photo 3).

The anatomical complex of the placenta was not fixed in a standard formalin solution. Before the introduction of the sealant into the vascular bed of the placenta, they were washed under running water. Using a medical syringe with a volume of 20 ml, umbilical arteries and veins were additionally washed separately before the clear water drained. The sealant and “Universal tinting paste No. 7 — scarlet for arteries, No. 18 — blue for veins) were mixed in advance in a Petri dish. Using a 20 ml medical syringe, a mixture of sealant and tinting paste was injected at room temperature through the umbilical arteries and umbilical vein. The volume of the substance administered was controlled by the degree of compaction of the organ and the excessive release of the substance through a section of the umbilical vessels. With the introduction of the substance, mechanical pressure was applied to the child's place of the placenta to improve the penetration of the sealant into the lumen of the hollow formations. To seal the cannula of the syringe and the lumen of the umbilical vessels, medical clamps of the Mosquito type were used. The flooded organ was left for 24 hours to harden the mass. Then the complex was placed in a laboratory desiccator, in which the mixture was prepared in advance for fixation. The ratio of ingredients was 63.4% sulfuric acid and 34.5% distilled water, 2.1% potassium dichromate). After 12 hours, the destroyed soft tissues are washed off from the casts of the vascular bed under running water.

Claims (1)

A method of manufacturing dummies of anatomical preparations of hollow and tubular organs, based on a corrosion technique, which includes tight and uniform filling of hollow and tubular structures of the anatomical complex with silicone sealant, applying ligatures, preventing leakage of silicone sealant, fixing the anatomical complex in a solution of the chromium mixture and subsequent washing under running tap water until the hydrolyzed tissue is completely removed, characterized in that it is used as a silicone sealant they use Herment, the polymer is fixed in a solution consisting of sulfuric acid - 63.4%, distilled water - 34.5%, potassium dichromate (K ₂ Cr ₂ O ₇ ) - 2.1%.

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