RU2795363C1 - Method for preparing anatomical preparations of upper and lower limbs ischemic as a result of thrombogenic complications - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to morphology, pathological anatomy, museum technology, and can be used for preparing teaching materials in the departments of topographic and pathological anatomy. A method for preparing anatomical preparations of the upper and lower extremities ischemic as a result of thrombogenic complications includes washing the amputated upper and lower extremities in a 0.9 vol.% sodium chloride solution and freezing in a refrigeration unit at a temperature of -15ºС for 24 hours of non-fixed preparations, according to the invention the frozen limb is placed on the working surface of the JET band saw machine model JWBS-10S, after which the limb is fixed with a parallel stop on the machine table and cuts are made in the axial projection with a 5 cm step with a circular saw, and then the cuts are fixed in 10 vol.% formalin solution.

EFFECT: invention provides the development of an amputee preparation method for reliable visualization of the topography of superficial and deep vessels affected by thrombosis on each limb, as well as areas of muscle tissue.

1 cl, 14 dwg

Description

The invention relates to medicine, namely to morphology, pathological anatomy, topographic anatomy, museum technology.

Usage: in the field of medicine, in particular normal anatomy, pathological anatomy, museum technology.

Vascular diseases are widespread, and their timely diagnosis and treatment contribute to an increase in the duration and quality of life. Diseases of the arteries of the lower extremities is a group of nosologies accompanied by a gradual blockage of the arteries of the vessels and causing the syndrome of ischemia of the lower extremities. Thrombogenic disorders are the leading link in the development of this pathology.

In turn, these disorders are manifested by diseases such as deep vein thrombosis and extensive pulmonary thromboembolism. Regarding the mechanisms of the appearance of thrombotic masses, it is worth considering such conditions as near-death DIC, activation of the complement system, viral dissemination with the involvement of the endothelium in the infectious process, as well as activation of coagulation pathways caused by hypoxemia. This requires specialists to have accurate knowledge of the topographic and anatomical characteristics of organs and systems that are targets for this virus. Anatomical knowledge is also necessary for the development of fundamental medicine and clinical medical specialties.

Modern high-tech methods at the disposal of clinicians, diagnosticians and specialists in the field of fundamental research are still inferior in clarity and ability to visualize classical morphological methods, which in turn creates a need for the use of high-quality pathoanatomical preparations to assess certain pathological processes, as well as to create visual aids and atlases, which is especially important when studying relatively new, previously poorly studied pathologies.

Angiography is a modern instrumental method for visualizing thrombotic vascular occlusion. The disadvantages of this method include insufficient visualization of the topographic characteristics of the complex of anatomical structures of the limb and the impossibility of assessing the degree of its ischemia.

In pathomorphology, to assess the massiveness and topology of thrombosis and embolism, when studying the surgical material, the method of macroscopic examination and cutting of the preparation of non-traumatic amputation and exarticulation at the level of the lower leg (layered preparation) is used.

According to this method, the amputee is dissected, isolated and perpendicular serial incisions are made in the femoral, popliteal, anterior and posterior tibial arteries and corresponding veins. Macroscopic parameters are assessed to assess the degree of narrowing of the artery, the degree of obliteration, the presence of blood clots. The scheme of this method is shown in Fig. 11-14.

The disadvantages of this method is that such a layered preparation violates the topographic and anatomical location of the vessels relative to the soft tissue and bone structures, and also significantly distorts the original appearance of the amputee.

A known method for the manufacture of lamellar pathological preparations according to Talalaev: a thin plate is cut from a fresh, non-fixed organ, which is fixed and processed according to the Kaisering method. Namely: after fixation, the plate is wrung out and carried through 96 ° alcohols. Next, it is poured into acetic agar and the preparation is placed between two glasses.

The disadvantage of this method is that alcohol significantly dehydrates tissues, thereby distorting their normal size and topographic relationships. Along with this, this method does not require further microscopic examination.

The Brunetti method is known, which is intended for the manufacture of demonstration preparations. It consists in the fact that the vessels of an organ or a whole corpse are first washed with water and then with alcohol. To remove fat, sulfurous ether is passed through the vessels. Further, the entire vascular system of the organ is filled with tannin, which acts as a tannin. After that, dry heated air is passed through the vascular system of the organ, due to which the organ is dried from the inside. As a result, preparations are exhibited without jars, in a semi-dry state, and have a three-dimensional shape, and also retain elasticity and mobility.

The disadvantages of this method in the case of observation of thrombotic occlusion of vessels is the impossibility of preserving thrombotic masses in the vessels, as well as the loss of the initial consistency of the drug and the loss of color, along with this, the method is difficult to perform and does not allow microscopic examination.

According to the method of Yu.M. Malofeev and co-authors, a fragment containing a complex of organs is excised from the third cervical vertebra to the tenth thoracic vertebra. The organocomplex is placed in a fixing liquid at a temperature of 20-37°C for 1-7 days, followed by soaking the fixed object from one to five hours in running water. Then the material is cut into separate fragments 0.2-0.3 cm thick, marked and further fixed. A 10 vol% aqueous solution of formalin is used as a fixing liquid.

The disadvantages of this method is the loss of the original color of the drug, consistency and size. Also, this method does not provide for the possibility of visualizing an accurate skeletotopy, which in turn does not provide an accurate topography of various pathologies, including vascular thrombosis.

The closest analogue, taken by us as a prototype, is the method of “ice anatomy” by N.I. Pirogov, based on freezing individual fragments of the body and sawing them in three projections using a mechanical saw. "Shevchenko Yu. L., Kitaev V. M. "Ice Anatomy" N.I. Pirogov - the prototype of modern ray images. Surgery. Journalism. N.I. Pirogov. 2010;(9):4-8."

It was proposed to perform cuts in the classical way: they performed fixation, preparation of the back surface of the neck with isolation and marking of the spinous processes of the cervical vertebrae. Then the fragment was frozen in a freezer, and then a standard cut was made.

The disadvantages of the prototype are the loss of the original topography of the neck as a result of preliminary preparation, as well as the loss of the true size, color and consistency of the study area. Method N.I. Pirogov consists in freezing individual fragments of the body and sawing them in three projections using a mechanical saw. An obvious advantage is the good visualization of the topography of organs, the accuracy and visibility of all cut structures. However, in the modern world, it is possible to replace a mechanical saw with more modern analogues to improve the accuracy and evenness of the cut.

We propose a method for sawing limbs in axial projection on a band saw machine with preliminary freezing in a freezer and subsequent fixation of the preparation in formalin.

The objective of the invention is to develop a method for preparing anatomical preparations of the upper and lower extremities ischemic as a result of thrombogenic complications.

The technical result consists in the development of a method for the preparation of an amputee using the elements of "Ice Anatomy" according to N.I. Pirogov for reliable visualization of the topography of superficial and deep vessels affected by thrombosis in each limb, as well as areas of muscle tissue at various stages of damage caused by critical ischemia, with the maximum possible preservation of the topographic and anatomical characteristics of the amputee during the manufacture of cuts.

The technical result is achieved by washing the amputated upper and lower extremities in a 0.9% vol. sodium chloride solution. The unfixed material is then frozen in a refrigeration unit at -15°C for 24 hours. The frozen limb is placed on the working surface of the JET band saw machine model JWBS-10S, after which the limb is fixed with a parallel stop on the machine table and cuts are made in the axial projection with a 5 cm step with a circular saw, and then the cuts are fixed in 10 vol.% formalin solution.

This method allows to make cuts of native preparations of a given thickness for visualization of the neurovascular bundles, muscle, bone and connective tissue components (including the arterial sheath) while maintaining the natural color of the tissues, their normal elasticity and the original appearance of the vascular bed throughout the study limbs.

THE INVENTION IS EXPLAINED WITH THE FIGURES (Fig.1-14)

In Fig.1 The preparation cut the upper limb at the level of the lower third of the forearm with vessels obturating thrombosis areas of muscle tissue at varying degrees of damage caused by ischemia.

In Fig.2 The preparation cut the upper limb at the level of the middle third of the forearm with vessels obturating thrombosis areas of muscle tissue at varying degrees of damage caused by ischemia.

Figure 3-4 Preparation of the upper limb at the level of the upper third of the shoulder with vessels obturating blood clots and areas of muscle tissue at varying degrees of damage caused by ischemia.

Figure 5-6 Preparation of the upper limb at the level of the middle third of the shoulder with vessels obturating thrombosis areas of muscle tissue at varying degrees of damage caused by ischemia.

On Fig.7-8Preparation of the upper limb at the level of the lower third of the shoulder with vessels obturating thrombosis and areas of muscle tissue at varying degrees of damage caused by ischemia.

On Fig.9 Macrophotography of the preparation of the lower limb with vessels with obturating blood clots and areas of muscle tissue at varying degrees of damage caused by ischemia.

Figure 10 Microscopic picture of a mixed thrombus from areas of thrombotic occlusion of the vessels of the lower limb.

On Fig.11-12 Scheme of the skin incision for layer-by-layer preparation of muscles and blood vessels on the anterior and posterior surfaces of the lower extremities.

On Fig.13Scheme of the skin incision for layer-by-layer preparation of muscles and blood vessels on the anterior surface of the upper limbs.

In FIG. 14 Scheme of a skin incision for layer-by-layer preparation of muscles and blood vessels on the posterior surface of the upper limbs.

The method is carried out as follows: the amputated limb is washed in a 0.9% NaCl solution in a container of the appropriate volume. Further, the unfixed material is placed in a plastic container and frozen in a refrigeration unit at a temperature of -15ºС for 24 hours, which ensures adequate compaction and preservation of the topographic-anatomical relationships of various structures of the material under study. After the specified time, the amputee is removed from the refrigeration unit.

The next step is preparation. To do this, the frozen limb is placed on the working surface of the JET band saw machine model JWBS-10S. After that, the limb is fixed with the help of a parallel stop on the machine table and cuts are made in the axial projection with a 5 cm step with a circular saw (Fig. 1-9).

We believe that a step of 5 cm is the most optimal for visualizing the topography of the limb, since with such a step there is no possibility of damage during transportation, fixation and exposure of especially vulnerable structures: vessels, arterial sheaths and neurovascular bundles, anatomical and topographic features which are more vulnerable to thinner cuts. At the same time, a cut with a step of 5 cm is quite informative for the correct interpretation of the state of a certain topographical area of the limb, in contrast to a thicker cut.

The final step is to fix the cuts in a container in a 10 vol% formalin solution for subsequent storage and exhibiting in a museum, while maintaining the possibility of histological verification of the state of muscles, soft tissues, and the vascular bed (Fig. 10).

APPLICATION EXAMPLE

The authors tested the proposed preparation method on 4 upper and 6 lower amputated limbs obtained after surgical operations. Pre-washed in 0.9 vol.% NaCl solution and frozen in a refrigerator at -15°C for 24 hours, the limbs were alternately sawn in axial projection at the levels of the topographic areas specified by the preparation goal, using a JET band saw machine model JWBS-10S with a step , equal to 5 cm. A total of twenty-eight cuts were obtained, on which vessels with obturating thrombi and areas of muscle tissue with varying degrees of damage caused by ischemia were clearly visualized (Fig. 1-9). The resulting cuts were a material suitable for further microscopic preparation in order to histologically verify the pathological process (Fig. 10). The cuts themselves were further preserved in a 10% formalin solution.

Thus, the use of a proven method allows you to save the exact topographic and anatomical ratio of all structures of the prepared material. The use of a native drug allows you to preserve the natural color, normal elasticity of its structures, as well as the original appearance of the vascular bed throughout the limb, without squeezing blood clots. Pre-freezing prevents possible displacement of individual limb structures during sawing on a band saw. Also, the accuracy and aiming of cuts, in contrast to the classical method of layer-by-layer separation of limb structures, makes it possible to obtain cuts with a predetermined step at the required level of the limb under study, including for subsequent histological verification.

Claims (1)

A method for preparing anatomical preparations of the upper and lower extremities ischemic as a result of thrombogenic complications, including washing the amputated upper and lower extremities in a 0.9 vol.% sodium chloride solution and freezing in a refrigeration unit at a temperature of -15ºС for 24 hours of non-fixed preparations, characterized in that that the frozen limb is placed on the working surface of the JET band saw machine model JWBS-10S, after which the limb is fixed with a parallel stop on the machine table and cuts are made in the axial projection with a circular saw in 5 cm increments, and then the cuts are fixed in a 10 vol.% solution formalin.

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