EA013844B1 - Early diagnostic method of an organism endogenous metabolic intoxication - Google Patents

Abstract

The invention relates to medicine, in particular, to diagnosis, and can be used for early detection of an organism endogenous metabolic intoxication. Method of an organism endogenous metabolic intoxication is carried out based on determining sodium ion concentration in urine and, in case, if absolute sodium ion concentration exceeds 100.0 mmol/l, the organism endogenous metabolic intoxication is diagnosed.

Description

The invention relates to medicine, namely to diagnosis, and can also be used in the diagnosis of endogenous metabolic intoxication of the body (hereinafter - EMR) in the early preclinical stages.

A known method for the diagnosis of EMR according to an increase in creatinine and urea in blood serum [V. Menshikova. (ed). Laboratory research methods in the clinic. M .: Medicine, 1987, p. 368]. The method is carried out by measuring the levels of end products of metabolism - creatinine and urea, in the patient's blood serum.

The disadvantages of this method are the invasive method; contact with the patient’s blood; late diagnosis of EMR.

A known method for the diagnosis of electromagnetic radiation by determining in blood plasma biochemical parameters: protein, cholesterol, glucose, bilirubin [Titsa N.U. Clinical evaluation of laboratory tests. M .: Med., 1986; Chirkin A.A. Diagnostic laboratory diagnostics. Minsk: Belarus, 1993; Medvedeva I.V., Dorodneva E.F., Pugacheva T.A. et al. Analysis of the plasma lipid spectrum and the main parameters of the erythrocyte cell membranes in patients with metabolic syndrome and coronary heart disease. //Wedge. honey., 2002.V.80. No. 5, p. 27-30; Petrosyan E.A., Nedelko N.A., Kade A.Kh., Petrosyan N.A., Gorbov L.V. The diagnostic value of assessing the permeability of erythrocyte membranes as a criterion of intoxication syndrome. // Clinical laboratory diagnostics, No. 8, 2001, p. 5-9].

The disadvantages of the known methods are: insensitivity, that is, indicators of organic substances in the plasma, as well as the permeability of the erythrocyte membranes increase even in the presence of clinical manifestations ("late" diagnosis).

A known method for the diagnosis of EMR by the level of measurement of medium molecular peptides (hereinafter referred to as SMP) [Malakhova M.Ya. Method for recording endogenous intoxication: A manual for doctors. - SPb., 1995; Karyakina E.V., Belova S.V. Medium-weight molecules as an integral indicator of metabolic disorders (literature review). //Wedge. the lab. Diagn., No. 3, 2004, p. 3-8].

The disadvantages of this method are: invasive method; contact with the patient’s blood; the need for a special biochemical laboratory, the presence of a trained specialist; a complex diagnostic method, since it requires measurement in 6 nanoscale spectra.

There are also known methods for the diagnosis of EMR by determining the blood parameters of lipid peroxidation products, B proteins, changes in the permeability of erythrocyte membranes (Goncharenko MS // Lab. Case. No. 1. - 1985. - S.60-61; Kolmakova E.V. // Lab. Case. No. 7. - 1988).

The disadvantages of the known methods are: invasive method; contact with the patient’s blood; generalization of indicators; relativity of results; the complexity of the work; the need for a special laboratory and trained personnel.

There is also known a method for the diagnosis of EMR due to the possibility of identifying the oxidized products of tryptophan - tryptamine, O-aminophenol, indole and scatol in biological media [Gorokhova V.G., Kuznetsova E.E., Gorokhov A.G., Runovich A.A. A method for determining the oxidative metabolites of tryptophan in endogenous intoxication. - Patent VI RF 2249219 (13) C2, application No. 2003107548/15 of 03.19.2003 601Ν 33/68, 30/90].

The disadvantages of this method include the invasive method, contact with the patient’s blood, the duration of the analysis and the need to use special equipment (plates for thin-layer chromatography, a set of reagents for elution and manifestations, sprayer).

There are also known methods for diagnosing EMR by determining immunological parameters [yapehau S.A., Tgauega R., Nip! §., Aa1roy M. 1tipo1odu. Tne 1tepee 8u81et ίη NeaAy apy Rscheake. Νο \ ν Wagk; Biop, 1997; Mkrtumyan A.M., Zabelina V.D., Zemskov V.M. and others. Metabolic syndrome and the state of secondary immunodeficiency. // Probl. endocrinol. 2000; 4: 10-14].

The disadvantages of the known methods are: invasive method; contact with the patient’s blood; narrow specificity; showing secondary response; the need to have a special laboratory with specific reagents and specially trained personnel. The synthesis of specific cells and substances takes a certain time after contact with the antigen.

A known method for diagnosing the preclinical form of EMR associated with impaired language sensitivity by comparatively studying the reaction of the tip of the tongue to various taste stimuli in the researcher and his relatives: sour, sweet, bitter, spicy, salty and distilled water [A. Panchenkov. Method for the diagnosis of preclinical forms of carbohydrate metabolism disturbance by language sensitivity. RF application 97113836/14, 11 / 08-97, А61В 10/00].

The disadvantages of this method are the subjectivity of the study; conducting relatively complex procedures and calculations.

Closest to the proposed invention in technical essence is a method for the diagnosis of EMR based on the determination of protein and / or glucose in urine, leukocyturia, erythrocyturia [Vysokogorsky V.E., Mkrtchan O.Z., Antonova E.I. Morphometabolic correlations in the liver with endotoxicosis of various exogenous nature: Abstract. doc. 5th Congress of the International Association of Morphologists, Moscow. // Morphology - 2000 - 117, No. 3.- S. 83-84; Komarov F.I. Internal illnesses. M .: Medicine, 1996, p. 512].

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The disadvantages of this method are: narrowly focused approach (only a certain type of organic substance); insensitivity, that is, indicators in plasma increase already with the manifestation of clinical manifestations.

The task of the invention is the diagnosis of electromagnetic radiation in a non-invasive atraumatic way. At the same time, the diagnosis of EMR should be early (preclinical), short, not requiring training of medical personnel and, most importantly, highly effective. To accomplish this task, a method for diagnosing EMR is used to determine the level of sodiumuria.

Description of the invention with the necessary information confirming the possibility of carrying out the invention

For the diagnosing physician, it is necessary to understand why this is necessary and for what purpose it must be carried out. EMR is a condition that occurs when detoxifying organs (kidneys, liver, lungs) and tissues (skin and mucous membranes) remove excess slag and toxins from the body during metabolic processes. Catabolic processes in the body always occur at a minimally low level as a result of the balance between the formation of toxins (toxins) and their elimination.

EMP is based on the imbalance between the formation of metabolic toxins and their elimination. The fundamental and primary basis of EMR is the increase and excess of organic substances in the endogenous space of the body.

Sodium ions are a universal transmembrane (transporter through tissue barriers) carrier of organic substances [1, 2]. Almost all organic substances in a biological organism are transported in the form of a salt, a component of which under physiological conditions are sodium ions (Να '). If the production of any intermediate or final organic metabolic product increases, then the excretion of Να 'increases accordingly.

With a normal adequate nutritional balance, a pathological increase in the formation of intermediate and final metabolic products in the body does not occur. Therefore, there are no pathological conditions under which it would be necessary to bind them (with Να ') and excrete them through renal glomerular filtration (the actual formation of urine).

It is ironic that for many subcompensated patients who consume sodium chloride in excess (sodium chloride - Ναί, Ί). hyponatremia is characteristic. In stationary patients, the average plasma concentration Να 'is 5 mmol / L lower than in healthy individuals. Mild hyponatremia is observed in a variety of diseases and is a consequence of the "sick cell syndrome" [3]. The concentration of Να 'in the blood plasma is a rigid homeostatic constant (135-152 mmol / l), the slightest change of which leads to a coma. Maintaining the Να 'constant in blood plasma is achieved through reserve regulatory mechanisms, such as, for example, at the stage of elimination from the bloodstream.

For early diagnosis of EMR, a laboratory determination of the amount of Να 'in the urine is proposed.

Specific steps for the diagnosis of EMR by the content of ⁺ α ⁺ in urine

The technical result is achieved by the fact that the measurement of Να 'in the urine is carried out in the morning on an empty stomach. The patient collects a morning dose of urine.

The essence of the method lies in the fact that for the diagnosis of EMR, the principle of measuring the concentration of sodium ions in the urine is used, which binds to the excreted metabolic slags. Metabolic intoxication of the body is determined by an increase in the amount of Να 'in the urine.

A method for diagnosing EMR is as follows.

The required technical result is achieved in that in a healthy person the amount of Να 'in the urine should not exceed 100.0 mmol / L.

Obtained laboratory indicators of the amount of Να 'in the urine should be below the limits of the indicated norm, otherwise they will be regarded as early symptoms of EMR of the body.

When determining Να 'in biological fluids, it is taken into account that the amount of sodium ions physiologically increases in the body after fever, exacerbation of chronic diseases, increased physical exertion, hypothermia and intake of rich fatty foods. Therefore, these conditions are excluded within 24 hours before taking a urine test.

The study of Να 'in the urine is carried out on a Meijuah-Eaku Lü1e P1i§ Ν; · ι / Κ / Ο1 / Οα apaucheg (I8A) automatic analyzer after centrifugation of the urine.

This diagnostic method was carried out in 35 conditionally healthy individuals (control group, n = 35) and in 60 patients (main group, n = 60) with metabolic syndrome (hereinafter - MS) outside the acute stage (in remission), the components of which were arterial hypertension, type 2 diabetes mellitus, individual overweight (Ketle index more than 24 kg / m ² ). In both groups, urine tests for the content of sodium ions were performed. The obtained data of the control group were compared with the indicators of the main group. In the table. 1 these indicators are presented clearly. Quantitative data are presented as M ± t (arithmetic mean 'standard error of the arithmetic mean).

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Table 1. Comparative indicators of sodium ions in urine (mmol / L).

Ur ⁺ level in urine The main group, n = 60 184.2 ± 9.9 * The control group, and = 35 62.6 ± 5.4

* - significant difference from the control group (p <0.001).

According to the table. 1 in the main group, excretion with urine No. 1 'was significantly increased (p <0.001) with a stable level of αα in blood plasma in both comparison groups. It is believed that the excretion of Να 'in the urine directly correlates with urea, creatininuria, oxaluria, uraturia, carbonaturia and phosphaturia [4]. Consequently, the dynamics of crystalluria occurrence begins to be more marked with an increase in sodiumuria, which may directly indicate the presence of renal hyperfunction in them. This may also indicate a strain of detoxification function of the kidneys in patients with MS based on the removal of toxins through glomerular filtration and transferred in bound form with Να 'ions. Therefore, the state of homeostasis in MS is maintained through enhanced kidney function.

In individuals of the main group, a multiple correlation analysis was performed between the content of'α 'in the urine and the level in the blood and urine of such intermediate and final metabolites of metabolism as SMP, ketones, creatinine, urea. The results of this analysis are presented in table. 2.

Table 2. The study of the correlation relationship between content

Να 'in urine and indicators of organic matter (g).

Organic metabolites Urine level General level of SMP + 0.69 ** Creatininuria + 0.73 ** Urea + 0.64 ** Ketonuria + 0.53 ** Ketonemia + 0D9 *

* - correlation relationship with confidence p <0.05. ** - correlation relationship with confidence p <0.01.

As can be seen from the table. 2, there is a statistical correlation between the level of Να 'in the urine and the level of organic substances that induce endogenous metabolic intoxication. A reliable direct correlation relationship between sodiumuria and SMP was revealed (r = '0.69, p <0.01); creatininuria (g = +0.73, p <0.01) and urea (g = +0.64, p <0.01); ketonuria (g = '0.53, p <0.01) and ketonemia (g =' 0.39, p <0.05).

The revealed data on the presence of a relationship between the level of Να 'and the level of catabolic metabolites in biological fluids can directly indicate the important role of Να' in the fight against EMR, which occurs on the basis of increased transport and elimination of organic substances through the blood-perfusion barrier.

Sodium ions play the main transport-detoxification role, however, with its relative deficiency, it is possible that potassium ions can take on this function (compensation). For example, in hypovolemia through activation of the renin-angiotensin system, K 'ions with a deficiency of Να' ions begin to play a role in maintaining the osmotic pressure of the blood [5, 6]. This situation may be one of the possible explanations for the pathogenesis of hypokalemia in the clinic, despite replenishing it from the outside. And in this case, therapeutic measures should be aimed not only at increasing potassium ions from the outside, but at preventing its loss, that is, at reducing excess organic substances (metabolic slags) in the body.

Thus, sodium ions act as a carrier of organic substances in the body. This transport role Να 'increases with EMR, which affects the increase in its excretion in urine. Sodium ions play a transport detoxification role in the body. Hypernatriuria is an early indicative marker of EMR.

The more parameters of endogenous metabolic toxins, the more the body needs sodium intake [7, 8].

Bibliography

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4. Λπ; · ΐ5 R.R., Sagspa S.E., Bowaso S.R., Exibeto V. s1 a11 .: Er14etyu1ofa 4s 1a Ιίιίακίts tshapa en pieChga ip14a4. Euloislup en e1 Petro u GasUgeh rgeFsiuok. // LgsN. ekr. yoke1 - 2000.- 53, No. 4.- C 343-347.

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Claims (1)

CLAIM A method for the early diagnosis of endogenous metabolic intoxication of the body, including a fasting urine test in the morning, characterized in that the concentration of sodium ions in the urine is determined and, if the absolute amount of these ions exceeds 100.0 mmol / l, an endogenous metabolic intoxication of the body is diagnosed. About Eurasian Patent Organization, EAPO Russia, 109012, Moscow, Maly Cherkassky per., 2