UA150494U - Method for taking an autopsy material of the cardiovascular system during autopsy of a person that died from a quarantine infection - Google Patents

Abstract

The method for taking an autopsy material of the cardiovascular system during autopsy of a person that died from a quarantine infection includes taking samples of the heart muscle. During the autopsy, separate sterile sets of instruments are taken for cutting and sampling each tissue sample, which are used to additionally cut out the heart muscle with endocardium, heart muscle with the epicardium, pericardium, aortic orifice intima, and pulmonary intima in four samples of the tissue. Then, a separate sterile set of liquid contents of the pericardium is taken in two samples. In the following, all seized samples are sorted for subsequent stages of virological, bacteriological, histological and electron microscopic studies.

Description

The useful model belongs to medicine, in particular to pathological anatomy and laboratory diagnostics and can be used in a clinic with a patho-anatomical department, equipped with pathohistological, microbiological and virological laboratories to obtain an accurate final result of the study with an optimal collection of autopsy biological material.

Lethal complications of the cardiovascular system due to coronavirus damage are among the most frequent after acute respiratory distress syndrome, shock and multiple organ failure (Roiege M, Maiegiapi E, Sapaeyogo M, Tapa, Roitesa E, Abbaye A, broiu 5, Nshiez AM5 apa bi Mio M (2020). Asshe sotryisayop5 apa topaiyu ip pozriiaiigei rayepibv m/yp sogopamigib disease 2019: a zuzietaiiys hemiezh apitheia-apaiuziv. Stii Sage, 24: 389 - Mode of access to the resource: pere: /дой.огд/10.1186/513054- 020-03022-1), the pathogenesis of fatal damage to the cardiovascular system in the case of coronavirus disease, especially in its accompanying diseases, is still incompletely understood and requires large-scale laboratory studies, taking into account the phenotypic clinical manifestations and frequent mutation of the virus (Gore5-Raspeso M, 5iima RI, St

ER, Waiadiipi OO, Korra S, Reiosi R, Mogaieze MM, Sagizo Memez S apa Cosso REM (2021).

Raiiodepeziz oi Miyirie Ogdap Ipishtu ip SOMIO-19 apa Roiepiia! Tnegareshis Zigaiediev. Egopi

Rpuzioi 12: 593223. - Mode of access to the resource: пЕрв:,7дой.от/ 5 0.3389Лрпуз.2021.5932231.

It is known that the BAN5-SoMu-2 virus uses the enzyme receptor to penetrate inside

ACE2, which is expressed both in the lungs and in the heart and vascular endothelial cells. But it is not known to what extent BAK5Z-CoMm-2 infects the heart or other parts of the cardiovascular system after entering the bloodstream and potentially contributes to the myocarditis associated with SOMI-19, so the effect of ZAN5-CoU-2 on the cardiovascular system has not been established. as opposed to the effects on the lungs

Iyiboshiy A.M., 0i7, B.I, SNarre! M.S. (2020). SOMIO-19, ACE2, apa She sagaiomazsshiag sopzediepsev. At. RNpuzio! Neap Sigs RNuvzio!. 318: 5: H1084-NI1090. - Mode of access to the resource: pere: //дой.ого/10.1152/а)рпеаг.00217.2020Ї1. Therefore, the imperative challenge of postmortem diagnosis of particularly dangerous infections is to establish all links of the pathogenesis of cardiovascular system damage, which ultimately led to a fatal outcome, with a possible retrospective assessment of the decisive influencing factors and finding ways to level or reduce them.

The autopsy of the body of a person who died from particularly dangerous infectious and parasitic diseases (coronavirus disease is included in this list by the Order of the Ministry of Health of Ukraine dated February 25, 2020, Me521) belongs to the M category of complexity and is mandatory. Thus, the maximum epidemic control of the causes of death in cases of undetermined clinical diagnoses is ensured. Pathomorphological results are scientifically valuable in differential diagnosis for epidemiology in terms of the possibility of establishing the most direct infectious damage to various organs and tissues of the body and determining the probable ways of spreading the causative agent of the disease. Sending tissue samples for virological, bacteriological, histological, electron-microscopic (if necessary, immunohistochemical and molecular-biological) research makes it possible to establish the features of pathogenesis and the depth of cellular damage caused by an infectious agent.

The procedure for taking autopsy material for laboratory examination of sectional material in case of coronavirus disease, which belongs to quarantine infections, is known, namely: 3-4 samples of lung, trachea, segmental bronchi with signs of pathomorphological changes in a volume of 1 cm3 are selected for research; the selection of a material sample is carried out from the area of the lung, where the signs of pneumonia were determined radiologically; for control, 1 biopsy is taken from the unaffected area. At least 4 samples are taken from the deep layer of tissues with signs of pneumonia, in the presence of liquid nitrogen - 5 samples. Samples of materials are placed in disposable sterile polypropylene cryovials with screw caps that close tightly, then packed in a three-layer system that corresponds to Pb5O for infectious substances OM 3373 category B (cryovessel, liquid-tight container, cooler bag) and in a refrigerated ( 4 "C) or in frozen form (in a thermal container) is urgently sent to the laboratory. Appendix C "Selection, storage and transportation of samples of materials for testing for ZAK5-SoM-2" to the Order "On Amendments to the Standards of Medical Care "Coronavirus Disease ( SOMIO-19)". Redaction of the Order of the Ministry of Health of Ukraine

Mo. 2122 dated September 17, 2020. |Electronic resource|I Mode of access to the resource: pyrz//7akop.gada.dom.pa/gada/vpom/y2122282-20Жп199|. There is also a second method of taking tissue samples for coronavirus disease, which provides that the list of postmortem samples should be similar to the approved list of biomaterials during life, namely: samples from the pharynx or nose, lower parts of the respiratory tract are placed in universal biocontainers and 5 ml of blood for serological analysis in a simple test tube (without adding any solutions), with subsequent wrapping of the selected samples with absorbent material and individual packing of each test tube in a plastic bag with a 7ir-iosK string lock, joint subsequent packaging in a second plastic bag and further in a larger biocontainer, where could fit all the packaged samples with sticker-labeling. (| Ribiis Neaip

Epaiapa. SOMIO-19: M/pisp zatriev 5potsii Be iaKep. 2019 Both methods make it possible to take visually changed tissues of the respiratory tract for examination.

But there is no information about taking tissues of the cardiovascular system, since the above-mentioned method does not provide for taking sectional material of the heart and the walls of large vessels in the case of a confirmed or suspected quarantine infection.

The closest in terms of technical essence to the proposed useful model is the method according to which a sample of heart muscle in a volume of 1-2 cm3 is taken from dead people suspected of having a dangerous viral infection that affects the heart, after which the instruments are soaked in alcohol each time and burned over the flame of alcohol. Samples are placed in sterile penicillin vials and in a cooled (its 4 "C) or frozen form (in a thermal container) are urgently sent to the laboratory. infection with quarantine infections, contagious viral hemorrhagic fevers and other dangerous infectious diseases of unclear etiology" (Electronic resource) // Ministry of Health of Ukraine, State Sanitary and Epidemiological Service of Ukraine, Chief State Sanitary Doctor of Ukraine. - 12.05.2003 - Access mode to the resource: porz//2akop.gada.dom.sa/gada/vpom/y0016488-032 Tech.

Compared with the analog that was considered, this method allows you to determine the volume of intake of sectional biological material of the heart muscle. However, the main disadvantages of the specified closest analogue are the selection of heart muscle without taking into account the tissues of the endocardium, epicardium, pericardium, pericardium contents, intima of the mouth of large vessels and the risk of cross-infectious contamination of tissue samples of the cardiovascular system with samples of other tissues during autopsy collection when using one set of tools, provided they are imperfect

From sterilization after each cutting of a piece of organ.

To eliminate this shortcoming, we propose a method of taking autopsy material, which provides for the selection of fragments of different types of tissue: heart muscle with endocardium, heart muscle with epicardium, pericardium, intima of the mouth of the aorta, intima of the mouth of the pulmonary trunk in four copies and collection of liquid component of the pericardium in duplicate and with the obligatory use of separate sterile sets of tools for cutting out each tissue sample with the subsequent sorting of biological samples for bacteriological, virological and morphological research.

The useful model is based on the task of improving the method of taking autopsy material of the vascular system during an autopsy of a person who died from a quarantine infection, by taking additional fragments with the help of separate sterile sets of tools for cutting and taking each tissue of the heart and large vessels: cardiac muscle with endocardium, cardiac muscle with epicardium, pericardium, intima of the mouth of the aorta, intima of the mouth of the pulmonary trunk in four copies, the contents of the pericardium (removal of the liquid component) in two copies, followed by sorting and labeling of biological samples for a four-component analysis, which includes bacteriological, virological, and morphological ( histological and electron microscopic) study. Thus, by applying an extended sampling of various tissues of autopsy material using separate sterile sets of tools for cutting and taking alternately different types of tissues of the heart and large vessels for the purpose of further conducting four research methods, it is ensured that the location of virus replication and concomitant bacterial invasion in various tissues of the heart is established vascular system with simultaneous, parallel morphological studies of structural and ultrastructural changes of biological material and minimizes the possibility of false-positive and false-negative results, and therefore significantly expands the technological capabilities of the method.

The task is solved by the fact that the method of taking autopsy material of the cardiovascular system during an autopsy of a person who died from a quarantine infection, which includes taking heart muscle samples, according to a useful model, during the autopsy, separate sterile sets of tools are taken for cutting and taking each of a tissue sample, with which the heart muscle tissue with the endocardium, the heart muscle with the epicardium, the pericardium, the intima of the aortic mouth, the intima of the pulmonary trunk are additionally excised in four copies, then in two copies 60 samples are taken with a separate sterile set of liquid contents of the pericardium, in the future all the collected samples are sorted for the next stages of virological, bacteriological, histological and electron microscopic studies.

Each tissue sample is collected with sterile separate sets of tools for cutting in four copies of the autopsy material of the heart muscle with endocardium, heart muscle with epicardium, pericardium, pericardial contents, intima of the mouth of the aorta and intima of the mouth of the pulmonary trunk, followed by their sorting and labeling in disposable sterile polypropylene cryo-vials with screw caps for further research on the presence of: viral RNA, bacterial growth of seeding material on a nutrient medium, pathomorphological changes in selected biological tissues. According to the proposed useful model, what is new is that they provide extended alternate sampling of tissue section material, which additionally includes tissues of the heart muscle with the endocardium, the heart muscle with the epicardium, the pericardium, the intima of the aortic orifice, the intima of the pulmonary trunk, and the contents of the pericardium (taking liquid component), the use of separate sterile sets of tools for cutting each tissue sample, mandatory collection of these samples in four copies, followed by sorting of the sets.

The proposed method will make it possible to avoid false-negative results during the subsequent polymerase chain reaction to detect viral RNA and during inoculation of material on a nutrient medium to establish secondary bacterial invasion of the virus in each sampled tissue of the heart and blood vessels. Also, further fixation of histological sections of selected tissues in a solution of formaldehyde and glutaraldehyde will make it possible to conduct a routine morphological and electromicroscopic study and, if necessary, an immunohistological study, and the use of separate sterile sets of tools for cutting each tissue sample will avoid false positive results, due to the impossibility of cross-infectious contamination .

The method is performed as follows.

An autopsy of a corpse of a person suspected of having a particularly dangerous viral infection is carried out in compliance with all anti-epidemiological biological safety measures provided for in accordance with

By Resolution Moe44 dated August 4, 2020. of the Chief State Sanitary Doctor of Ukraine "On Amendments to the Temporary Recommendations on the Safe Handling of the Bodies of the Dead from

With suspicion or confirmation of the coronavirus disease (SOMIO-19)" and in a separate, isolated sectional hall with a spare external entrance, equipped with active supply and exhaust ventilation with fine-cleaning filters, a bactericidal ultraviolet emitter in accordance with the Methodological recommendations "Organization of the work of institutions and units of the pathology service of Ukraine", approved by the Ministry of Health of Ukraine, the Ukrainian Center for Scientific Medical Information and Patent and Licensing Work dated April 11, 2017. Autopsy is performed according to Shor's method or Abrikosov's method at the choice of the pathologist. Separate sets of sterile sampling instruments, each including a scalpel, syringe, and forceps, are prepared prior to the autopsy and would be used. In the future, with the first set of tools, samples of heart muscle tissue with an endocardium of 1 cm are cut out. each and 1 sample with a volume of 2 mm3, with the second set of tools, samples of cardiac muscle tissues with an epicardium of 1 cm volume are cut out with the second set of tools, each and 1 sample with a volume of 2 mm, with the third set of tools, samples of pericardial tissues are cut with the third set of tools with the size of 1 cm each and 1 sample with a volume of 2 mm", with the fourth set of tools, samples of the intima tissues of the aortic mouth are cut along C with the size of 1 cm each and 1 sample with a volume of 2 mm3, with the fifth set of tools, samples of the intima tissues of the mouth are cut with the of the pulmonary trunk 1 cm each and 1 sample with a volume of 2 mm3, from the sixth set of instruments, only 2 tissue samples of the pericardial contents are collected with a syringe (a liquid sample is taken only for virological and bacteriological research) of 1 cm3 each, with subsequent sorting of all samples into labeled disposable sterile polypropylene cryovials with tight-fitting screw caps.Then, one sample of each tissue (except pericardial contents) intended for histological examination is immersed in neutral buffered 10 95 formalin for their fixation on the C bottom. Further, samples of each tissue (except pericardial contents) with a volume of 2 mm3 for electron microscopic examination are immersed in a freshly prepared 495 solution of glutaraldehyde. Samples that are sent for virological and bacteriological research in a three-layer packaging system are cooled to 4 "C or frozen to -80 "C and sent to the appropriate laboratories. All instruments used during the autopsy and material collection are thoroughly disinfected with disinfectants.

In the future, the obtained results of virological, bacteriological, histological and electron microscopic analyzes are entered into a table for retrospective data analysis.

Thus, the complex combination of four types of postmortem diagnostics in the most representative areas of the cardiovascular system allows to evaluate viral and secondary bacterial invasion and to compare histological, ultrastructural morphometric changes in selected tissue samples, through a complex combination of laboratory diagnostics and pathomorphology to further determine the type of heart tissue damage and large vessels involved in the pathological process, as a guarantee of a correct postmortem diagnosis.

Claims (1)

USEFUL MODEL FORMULA The method of taking autopsy material of the cardiovascular system during an autopsy of a person who died from a quarantine infection, which includes taking samples of the heart muscle, which is distinguished by the fact that during the autopsy, separate sterile sets of tools are taken for cutting and taking each sample of tissue, which additionally, in four copies of the tissue of the heart muscle with the endocardium, the heart muscle with the epicardium, the pericardium, the intima of the aorta, the intima of the pulmonary trunk, then in two copies the liquid content of the pericardium is collected with a separate sterile set, then all the collected samples are sorted for the next carrying out the stages of virological, bacteriological, histological and electron microscopic research.