UA113103C2 - METHOD OF INDIRECT ASSESSMENT OF PATHOLOGICAL CONCENTRATION OF TOXIC METALS AND METALOIDS IN THE TISSUES OF THE HEART AND BACKGROUND VESSELS IN CHILDREN - Google Patents

Abstract

The invention relates to a method for indirect assessment of pathological concentrations of toxic metals and metalloids in the tissues of the heart and trunk vessels in children, and determine the presence and concentration of these toxic substances in the hair and urine, and the pathological concentration of barium (more than 2.1 mg / dm), aluminum ( more than 23 mg / dm), lithium (more than 0.04 mg / dm), nickel (more than 0.55 mg / dm), strontium (more than 0.9 mg / dm), arsenic (more than 0.3 mg / dm) dm), titanium (more than 1.2 mg / dm) in hair and pathological concentration of lithium (more than 0.01 mg / ml), nickel (more than 1.8 mg / ml) and tit well (1.6 mg / ml) in the urine indicates that tissues cardiovascular system, the amount of toxic metals and metalloid is higher than permissible.

Description

The invention belongs to the field of medicine, in particular, pediatrics, children's cardiology and toxicology and can be used to assess the presence and concentration of toxic metals and metalloids in the tissues of the heart and main vessels in children.

The relevance of malformations of the cardiovascular system is due to the significant prevalence.

At the same time, the last decades are characterized by a constant increase in the frequency of heart defects and an increase in the number of complex combined options (1, 2). The presence of a congenital heart defect can not only cause the death of a fetus, a newborn, a patient of any age, early disability of children, but also a factor in reducing the quality of life of all family members. Treatment and surgical correction of the defect requires long-term and expensive medical care, which is financed not only by the family, but also by the state.

Currently, cardiovascular malformations are defined as a multifactorial disease |Z, 4, 5). Along with the existing theories of genetic disorders, infectious causes, maternal diseases and other factors affecting the appearance of congenital anomalies, according to the experimental data of a number of authors (TNakig 9U.5., 2010; Zativ! S., 2008; J. Matthew-

Ellenhorn, 2003; S. V. Zalavinoi, 2009; V.P. Kosareva, 2004; Naumova L.I., 2001; Derevoedova

A.A., 2001; N. A. Aghajanyan, 2001; Soueyeg V.A., 1995; Opaegmosa E., 1977) toxic substances, including barium, lead, arsenic, mercury, titanium, strontium, cadmium, nickel, lithium, etc., are able to penetrate through the placental barrier and have a teratogenic effect on the fetus, disrupting cardiogenesis by slowing down the rate of differentiation of cardiomyocytes, changes in myofibrillogenesis, etc.

The presence of chemical elements in the human body is assessed by determining their concentrations in various biosubstrates - blood, hair, nails, saliva, urine, breast milk, dental dentine, etc. (b, 7, 8).

So, for example, in patent 2082975 VO "Method of assessing the level of metal ions in the heart and vascular wall of rats" a high correlation between the levels of sodium, potassium, calcium, and magnesium ions in the heart tissue and in the blood plasma of rats was found. However, this work was performed on experimental animals and includes determination of the content of only 4 chemical elements that are considered vitally necessary (essential). It has also been proven that the analysis of the content of chemical elements in the blood serum reflects the short-term biochemical state present at the time of the analysis I8) and does not always reliably reflect the presence of toxic metals in the body.

According to the data of 0. V. Skalny |Z), a more reliable reflection of the content of chemical metals is the study of their concentration in hard tissues of the body - hair, nails and bones.

This demonstrates a long-term biochemical state, reflecting the presence of chemical elements during recent months. At the same time, the most readily available biological material is hair, its collection is simple, painless and, what is especially important in pediatric practice, non-invasive. The material can be stored for a long time and be suitable for mass screening examinations |10, 111.

S. SipaaskKeg yei ai!. (12| conducted a comparative analysis of the concentration of mercury and lead in the mother's blood and hair, placenta, umbilical cord blood, meconium, breast milk of 53 "mother-child" pairs and proved the existence of a correlation between the level of these toxic substances in the tissues of the mother and child. According to the opinion according to the authors, this is due to the ability of the above-mentioned metals to penetrate the placental barrier. This method is informative for assessing the fetal-maternal ratio of the content of chemical elements and can be useful in explaining perinatal pathology.

Considering the above, it is of scientific interest to determine the relationship between the content of toxic metals in hair and tissues of the heart and main vessels. The closest in terms of technical essence is "Method of determining the macro- and microelement balance in the body" pat. 2129426 YOU. The method is carried out as follows. In hair and nails, the content of macro- and microelements Сy, Ре, Мо, Мы, Р, 2п, Са, Со, Мо, Рб, Р, Са, 56, Сg and their correlations when changing with respect to the norm, the content of macro - and microelements, violations of correlations that reflect the ion balance in the body, reveal a correlation with various diseases. Thus, when diagnosing diseases of the thyroid gland, there is a change relative to the norm in the content of C, E, Ma, Mp, P, 2p, Ca, Co, Mo, and their correlations. At the same time, with hypofunction of the thyroid gland, significant differences (Р «0.05) were found in the content of Ca,

Ma and Ee compared to the norm, a decrease in the amount of Ca and simultaneous correlations, the appearance of a positive correlation between My and Re (1/-0.69), an increase in the content of P, and the appearance of a negative correlation with Co (1- 0.76), a decrease in the content of Mo, Mn, Mo. In hypofunction of the thyroid gland, the presence of a high negative correlation coefficient (1-0.90) between 2p and Ee, an increase in the content of Mo, P and Mo was found. With a normal functional state of the thyroid gland, the presence of a negative correlation between Ca and P (1-0.64) and a positive correlation between 7p (I-0.79) and a positive correlation between MP and bi (1-0.76 ), Ma (1-0.67) and negative with P (1-0.66). In connective tissue diseases of an autoimmune nature, a decrease in copper, zinc, calcium, and selenium is observed. With urolithiasis - a significant increase in cobalt, magnesium and phosphorus.

In sympathoadrenal crises, combined with the neutroendocrine-metabolic form of hypothalamic syndrome, there is a significant increase in potassium, magnesium, and a decrease in manganese. In allergic dermatoses combined with malabsorption syndrome, a sharp decrease in zinc, a significant increase in lead and polymineral deficiencies were found. In osteoporosis of various etiologies, a significant increase in strontium and a decrease in magnesium, calcium, manganese, zinc and copper were found. In diseases of the cardiovascular system, a significant decrease in potassium, magnesium, chromium and copper was found. In bronchial asthma, a significant decrease in zinc, copper and magnesium was found. A decrease in chromium, potassium, manganese, and zinc was found when the carbon metabolism was disturbed.

This method is highly informative and allows you to predict the development of various pathologies based on the content of chemical elements in hair and nails. However, it indirectly reflects the balance of substances in the tissues, organs and systems of the human body and does not allow assessing their concentration.

The basis of the proposed method of assessing the pathological concentration of toxic metals and metalloids in the tissues of the heart and main vessels in children is the task of determining their presence and concentration both directly in the tissues of the cardiovascular system and in other biosubstrates of the body with further correlation analysis, which will provide the opportunity, 3 largest among the existing methods with accuracy, to invent an accessible, most informative and least invasive biosubstrate.

The task of determining the method of pathological concentration of toxic metals and metalloids in the tissues of the heart and main vessels in children, according to the invention, was carried out by determining the presence and concentration of toxic metals and metalloids in the tissues of the cardiovascular system and other biosubstrates of the body (hair, kidney, skeletal muscle etc.) followed by correlation analysis, and: pathological concentration of barium (more than 2.1 mg/dm), aluminum (more than 23 mg/dm), lithium (more than 0.04 mg/dm), nickel (more than 0, 55 mg/dm), strontium (more than 0.9 mg/dm), arsenic (more than 0.3 mg/dm), titanium (more than 1.2 mg/dm) in the hair indicates that in the tissues of the cardiovascular system the content of these toxic metals and metalloids is higher than permissible; pathological concentration of lithium (more than 0.01 mg/ml), nickel (more than 1.8 mg/ml), and titanium

Zo (more than 1.6 mg/ml) in urine indicates that the content of these toxic metals and metalloids in the tissues of the cardiovascular system is higher than permissible.

The cause-and-effect relationship of the stated marker indicators with the positive result achieved is as follows: toxic substances enter the body of the fetus through the placental barrier and the child from the environment (tap water, dusty air, food products, automobile emissions, household chemistry, etc.) and accumulate in various organs and systems, which primarily depends on the route of entry (inhalation, oral, surface, etc.) and the tropism of chemical elements to certain tissues. Thus, lithium, nickel and titanium are mainly accumulated in the kidneys and absorbed through the urinary system, which determines the obtained direct strong correlation between the content of these metals in the kidney and tissues of the cardiovascular system. The proven ability of hair to accumulate and remove toxic substances explains the strong correlation between the content of barium, aluminum, lithium, nickel, strontium, arsenic and titanium in the tissues of the heart and main vessels and the indicated biosubstrate.

The method is implemented by conducting a study of the presence and concentration of 22 toxic substances (aluminum, cadmium, lead, barium, thallium, mercury, bismuth, beryllium, arsenic, nickel, antimony, tin, strontium, titanium, tungsten, zirconium, boron, silver, cobalt, lithium, silicon, vanadium) by the methods of atomic emission spectrometry in inductively coupled plasma and atomic absorption spectrometry with electrothermal atomization on mass spectrometry "ISRE-9000

Riazta Ayutis Etivviop 5resigoteigu" ("Zpitad2y", Japan). The materials of the study were 107 biopsies of tissues of the heart and main vessels (23 from the aorta, 20 from the coarctation of the aorta, 13 from the atrial wall, 19 from the myocardium, 9 from the interatrial membrane, b from interventricular membrane, 7 from the pericardium, C from the pulmonary artery valve, 2 from the wall of the pulmonary artery, 1 from the ductus arteriosus, 1 from the mitral valve, 1 from the pulmonary artery valve, 1 from the tricuspid valve), obtained from 44 patients with congenital heart defects and main vessels intraoperatively during surgical correction of the defect; in 9 patients who died before or after surgery, and 2 fetuses after termination of pregnancy at 21 weeks of gestation during pathological examination. Along with the above, the presence and concentration of toxic metals were determined in the hair of 23 children, in 31 biopsies from skeletal muscle, 9 - from kidneys, 5 - from thymus, 6 - from skin, 7 - from subcutaneous adipose tissue, 4 - from brain.

Statistical processing of the obtained data was carried out using the Meavtai program using the correlation method with the Spearman test.

The method of diagnosis is demonstrated by the following examples: Example 1. Patient M, 2 months old, was admitted to the clinic for surgical correction of a congenital heart defect - coarctation of the aorta with hypoplasia of the aortic arch, bicuspid aortic valve, open ductus arteriosus, restrictive perimembranous defect of the interventricular membrane. During the operation, the girl had a biopsy taken from the coarctation of the aorta, and after the operation - hair. In these biosubstrates, the presence and concentration of 22 metals and metalloids were investigated by the methods of atomic emission spectrometry in inductively coupled plasma and atomic absorption spectrometry with electrothermal atomization. In both studied biosubstrates of the examined child, the presence of toxic metals strontium and aluminum was established with the following concentrations, in the wall of the aorta (0.205 mg/kg and 4.07 mg/kg, respectively), in the hair (5.05 mg/dm and 14.0 mg /dm respectively). When conducting a correlation analysis, a direct strong relationship (g - 0.76) was documented between the content of strontium and aluminum in the tissue of the main vessel and hair.

Example 2. In fetus K, 21 weeks of gestation with a defect of the interventricular membrane and an abnormality of brain development, who died as a result of termination of pregnancy, the following biopsies were taken during the pathological examination: from the myocardium of the left ventricle, from the interventricular membrane, from the wall of the aorta, from the kidney . In these biosubstrates, the presence and concentration of 22 metals and metalloids were investigated by the methods of atomic emission spectrometry in inductively coupled plasma and atomic absorption spectrometry with electrothermal atomization. In the tested biosubstrates of the subject, the presence of toxic metals lithium and nickel was established with the following concentrations: in the myocardium of the left ventricle (0.043 mg/kg and 0.8 mg/kg, respectively), in the interventricular membrane (0.037 mg/kg and 1.29 mg/kg respectively), in the wall of the aorta (0.061 mg/kg and 1.02 mg/kg, respectively), in the kidney (0.017 mg/kg and 0.492, respectively). The results of the correlation analysis revealed a direct strong relationship (r- 0.82) between the content of lithium and nickel in the tissues of the cardiovascular system and the kidney.

As can be seen from the examples given, the method of assessing the pathological concentration of toxic metals and metalloids in the tissues of the heart and main vessels of children based on comparative

From the proposed correlation analysis with other biosubstrates of the body, hair and urine can be used as biological material that reflect the presence of a pathological concentration of toxic substances in the tissues of the cardiovascular system. This method is non-invasive, available in practical medicine, which makes it possible to recommend it for the examination of children with heart defects and other diseases of the cardiovascular system and, based on the research of Kuga | (13), who proved that the level of macro- and microelements in the mother's hair can be a sign of dyselementosis of the fetus, and S. Sipaaskkeg and I., who established the existence of a correlation between the level of toxic substances in the tissues of the mother (placenta, hair) and the child (umbilical cord blood, meconium), to assess the fetal-maternal ratio of the content of chemical elements, which can be useful in the prevention of cardiogenesis disorders.

Thus, the above data indicate the possibility of using this method with the greatest objectivity among the existing methods, which can be used for clinical and outpatient examination for the purpose of researching the pathological concentration of barium, aluminum, lithium, nickel, strontium, arsenic, titanium in tissues of the cardiovascular system by determining in the hair and urine of children, future parents when planning a pregnancy.

Sources of information: 1. Oaiiarahze apa She azzeb55tepi oi sotriisayop5 avzzosiaiei m/p She meaitepi oi raiiyepiv oi sopdepia! Sagayas Dizeazev. Sagaioioadu ip Te Moipo. 2008; 18, zirrietepi 2: 3-9. 2. Mpde O0., Kopipd5 BE. oh oh oh Viy rgemaiepse oi sopdepiaI Npeapy adizease mopamide. And zuzietaiyys hemiem apa teia-apaiuvziv. In At Soi! Sagayo! 2011; 58:2241-2247. 3. Bespalova S. D. Analysis of the causes of birth defects in the fetus. Children's diseases of the heart and blood vessels. 2007; 3: 34-37. 4. Hnateyko 0. 3., Lukyanenko N. S. Ecogenetic aspects of human pathology caused by the influence of harmful environmental factors. Child's health. 2007; 6 (9): 82-87. 5. Lukyanova 1S, Sopko Ya.O. Congenital heart defects in the fetus: main aspects of etiology and risk factors. Perinatology and pediatrics. 2004; 2: 47-50. 6. Aghadzhanyan N. A., Skalnyi A. V. Chemical pollution in the environment and the ecological portrait of a person. - M.:, 2001.-83 p. 7. Nagornaya N.V., Dubovaya A.V., Goncharenko I.P., Morozova I.A. The value of spectral 60 analysis of hair in the diagnosis of impaired elemental homeostasis and in the assessment of the effectiveness of preventive and treatment-rehabilitation measures//Actual Problems! transport medicine!.-2010. - Me2(20).-40-46. 8. Skalnyi A. V. Human microzlementosis (diagnosis and treatment): Practical guide for doctors and students of medical universities// - M: 2001.-96 p. 9. Skalny A.V. Chemical waste! in human physiology and ecology. M.: 2004-215 p. 10. Hlushkova E.M., Matviyenko A.G. Determination of some heavy metals in the hair of residents of the Donetsk region by the method of atomic absorption spectrometry. // Collection of scientific articles Vol. XX. All-Ukrainian scientific and practical conference with international participation "Achievements in the field of analytical, forensic medicine, clinical toxicology and narcology" - Zaporiyuk: ZDMU, 2007. - P. 268-271. 11. Skalnyi A.V. Microzlementosis in children: prevalence and ways of correction/ A.V.

Skalnyi, G.V. Yatsk, N.D. Odinaeva. - M: Izd-vo KMK, 2002.-860. 12. SipaasKeg S, 5. Ekopiisn ei aiI. Regipase! Iead apa tegsigu ekhrozyge ip A!iviga // si Toia!

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Claims (1)

FORMULA OF THE INVENTION The method of indirect assessment of the pathological concentration of toxic metals and metalloids in the tissues of the heart and main vessels in children, which includes the study of hair, which differs in that it determines the presence and concentration of the specified toxic substances in hair and urine, and the pathological concentration of barium (more than 2.1 mg /dm), aluminum (more than 23 mg/dm), lithium (more than 0.04 mg/dm), nickel (more than 0.55 mg/dm), strontium (more than 0.9 mg/dm), arsenic (more than 0.3 mg/dm), titanium (more than 1 .2 mg/dm) in hair and pathological concentration of lithium (more than 0.01 mg/ml), nickel (more than 1.8 mg/ml) and titanium (more than 1.6 mg/ml) in urine indicate that in the tissues of the cardiovascular system, the content of these toxic metals and metalloids is higher than permissible. Zo 00 Computer keyboardG. Payalnikovo (00000000 State Intellectual Property Service of Ukraine, st. Urytskogo, 45, m. Kyiv, MSP, 03680, Ukraine SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, m. Kyiv - 42, 01601