RU2557983C1 - Diagnostic technique for electromagnetic exposure - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: technique involves performing clinical laboratory blood analysis, measuring neutrophil, lymphocyte, thrombocyte and erythrocyte acid phosphatase activity; an integral diagnostic index of lysosomal blood activity is calculated by the presented formula. If the integral diagnostic index of lysosomal blood activity exceeds 26.2 activity units, the electromagnetic body exposure is diagnosed; if the above index is less than 26.2 activity units, the negative body response to the exposure is concluded.

EFFECT: invention enables providing the more reliable diagnosis of the electromagnetic exposure by the integral evaluation of lysosomal activity in all blood cell types that is of high importance for working capacity examination and employment assistance resolution.

3 tbl, 2 ex

Description

The invention relates to medicine, in particular to occupational pathology, and can be used in solving issues of examination of disability and employment in the process of mass medical examinations and professional selection.

A known method for diagnosing the effects of electromagnetic radiation through clinical and laboratory blood tests (VV Sokolov, LA Ivanova, MN Gorizontova, KV Nikonova, MN Sadchikova - “Cytochemical and cytogenetic changes in the blood persons working with sources of microwave energy. ”- J. .. Occupational health and occupational diseases. 1983. S. 5-10).

The disadvantage of this method is the low level of reliability of the diagnosis of exposure to electromagnetic radiation due to the small degree of change in the quantitative composition of blood cells during prolonged (more than three hours during a shift) exposure to electromagnetic radiation, especially low levels in the range of 10-200 μW * h / cm ² .

The objective of the present invention is to increase the reliability of the diagnosis of the results of prolonged exposure (more than three hours during a shift) to a person of electromagnetic radiation of low levels (10-200 μW * h / cm ² ).

The technical result of the invention is the reliable determination of the results of prolonged exposure (more than three hours during a shift) to a person of electromagnetic radiation of low levels (10-200 μW * h / cm ² ) during medical examinations and professional selection.

This task is achieved by the fact that in the known method for diagnosing the effects of electromagnetic radiation, including a clinical laboratory blood test, the activity of acid phosphatase of neutrophils, lymphocytes, platelets and red blood cells is determined, then the integral diagnostic index of blood lysosomal activity is calculated by the formula

where LAC is the integral diagnostic index of lysosomal blood activity (ed.),

n is the number of types of blood cells (units),

CF _neut - activity of acid phosphatase of neutrophils (unit act.),

CF _lymph - activity of acid phosphatase of lymphocytes (ed.),

CF _thrombus - activity of acid platelet phosphatase (unit act.),

CF _er - the activity of acid phosphatase of red blood cells (unit act.),

if the value of the integral diagnostic index of lysosomal blood activity exceeds 26.2 units of act., the effect of electromagnetic radiation on the body is diagnosed; if the specified index is less than 26.2 units act., then conclude that the reaction of the body to radiation is negative.

Studies on patent and scientific and technical information sources have shown that the proposed method is unknown and does not follow explicitly from the studied prior art, i.e. meets the criteria of "novelty" and "inventive step".

The proposed method can be applied in any clinical diagnostic laboratory equipped with standard equipment manufactured by domestic or foreign industry, for example, such as a microscope from Leica (Germany), a water thermostat UTU-2 (Poland), a Ph meter (Portugal), and a balance Pharmaceutical, torsion scales (Russia). Therefore, the claimed method is affordable, and therefore, practically applicable.

The method is as follows.

A patient who is exposed to long-term exposure (more than three hours during a shift) of electromagnetic radiation of low levels (10-200 μW * h / cm ² ) is taken a blood sample from his finger before the start of the working day and after the end of the working day.

In this case, freshly prepared blood smears are fixed in a cold mixture of alcohol-formalin for 30 seconds. Rinse with distilled water. Incubated for 2 hours at 37 ÷ 39 ° C in an incubation medium.

Incubation medium:

Solution A: 20 mg of naphthol-AS-BI-phosphate, 0.05 ml of dimethylformamide, 40 ml of 0.1N sodium acetate solution.

Solution B: in a separate cup, equal volumes of a 4% solution of pararosaniline and 4% sodium nitrate (0.3 ml each) are mixed.

Solutions A and B are mixed, the pH is adjusted to 5.2–5.4, and filtered. Additional nuclei are produced with a 0.5% solution of methyl green for 5–10 min. Blood smears are microscopic with an immersion system.

The product of the cytochemical reaction is detected in the cytoplasm of blood cells in the form of fine red granularity. Using a microscope, for example, the company Leica (Germany) in the preparations determine the activity of acid phosphatase of neutrophils, lymphocytes, platelets and red blood cells, that is, indicators of nonspecific reactivity of the body.

Then calculate the integral diagnostic index of lysosomal blood activity according to the formula:

where LAC is the integrated diagnostic index of lysosomal blood activity (ed.);

n is the number of types of blood cells;

CF _neut - the activity of acid phosphatase of neutrophils (unit act.);

CF _lymph - activity of acid phosphatase of lymphocytes (ed.);

CF _thrombus - activity of acid platelet phosphatase (unit act.);

CF _er - activity of acid phosphatase of red blood cells (unit act.).

If the obtained value of the integral diagnostic index of lysosomal blood activity is greater than or equal to 26.2 units. act., they diagnose the effect of electromagnetic radiation on the human body; if the specified index is less than 26.2 units act., then conclude that the reaction of the body to radiation is negative.

Example 1

Patient C, 40, an operator at a telephone exchange, worked for 6 hours a day for 10 years near a source of electromagnetic radiation as a professional user of an electronic computer (computer) and cellular communication devices. The energy flux levels of electromagnetic radiation at the user's head were 200 μW * h / cm ² . A preliminary examination of the patient, revealed functional changes in the nervous and cardiovascular systems in the form of vegetative-vascular dystonia of a hypertonic type.

A blood sample was taken from the finger of patient S. before the start of the working day and after the end of the working day.

First, a clinical laboratory test of blood was carried out by a known method.

The hematological analyzer MEK-6400 (Japan) calculated the number of red blood cells, platelets before the start of the working day and after the end of the working day.

In addition, smears were made from the blood samples taken. They were painted according to the Romanovsky-Giemsa method. In the obtained preparations, the obtained number of lymphocytes and neutrophils was counted. The results of the study are presented in table 1.

Conclusion: since changes in the number of blood cells do not go beyond the norm, it can be said that, based on the results of a study carried out in a known manner, the functional changes in the nervous and cardiovascular systems in the form of hypertensive vegetative-vascular dystonia in patient C. are not associated with exposure during operation of electromagnetic fields generated by a computer and a cellular telephone.

In addition, a clinical and laboratory study of the blood of patient C. was carried out according to the proposed method until the working day and after the end of the working day, in which, for 6 hours a day, patient C worked near the source of electromagnetic radiation of radio frequencies.

According to the proposed method, freshly prepared blood smears are fixed in a cold mixture of alcohol-formalin for 30 seconds. After rinsing in distilled water, they were incubated for 2 hours at t = 37 ° C in an incubation medium.

Incubation medium:

Solution A: 20 mg of naphthol-AS-BI phosphate. 0.05 ml of dimethylformamide, 40 ml of 0.1N sodium acetate solution.

Solution B: in a separate cup, equal volumes of a 4% solution of pararosaniline and 4% sodium nitrate (0.3 ml each) were mixed.

After mixing solutions A and B, the pH was adjusted to 5.2. Next, the resulting solution was filtered. Dokraska nuclei produced 0.5% solution of methyl green for 5 minutes

The product of the cytochemical reaction was found in the cytoplasm of blood cells in the form of fine red granularity. Using a microscope, for example, the company Leica (Germany) in the preparations determined the activity of acid phosphatase of neutrophils, lymphocytes, platelets and red blood cells, that is, indicators of nonspecific reactivity of the body.

Before the start of the working day, it is determined:

CF _neut = 35.2 units, CF _lymph = 32.2 units, CF _thrombus = 8.6 units, CF _er = 3.2 units After that, the integral diagnostic index of blood lysosomal activity was calculated by the formula

LAC = 19.8 units. Act. (this is less than 26.2 units act.)

After the end of the working day, during which patient S. worked for 6 hours a day near the source of electromagnetic radiation of radio frequencies, CF _neut = 71 units of act, CF _lymph = 67 units of act, CF _thrombus = 33 units of act ., CF _er = 9 ed. Next, the integrated diagnostic index of lysosomal blood activity was calculated after the patient's work for 6 hours near the source of electromagnetic radiation of radio frequencies according to the formula:

LAC = 45.0 units Act.

Therefore, the body's response to the professional effects of electromagnetic radiation is positive (LAC> 26.2 ed.).

Conclusion: the functional changes of the nervous and cardiovascular systems detected in a patient with a disease, in the form of hypertensive vegetative-vascular dystonia in patient S., are associated with exposure to electromagnetic fields generated by a computer and a cellular telephone during operation.

Patient S. was given recommendations to change the nature of work and reduce contact with technical devices that emit electromagnetic fields.

Example 2

Patient N., 48 years old, an economist, worked for 7 years for more than 5 hours a day close to sources of electromagnetic radiation using a computer and a mobile phone. The energy flux levels of electromagnetic radiation at the user's head were 10 μW / cm ² . Upon admission, the patient revealed a disease of the musculoskeletal system.

A blood sample was taken from the finger of patient N. before the start of the working day and after the end of the working day.

A clinical and laboratory study of blood by a known method.

On the MEK-6400 hematology analyzer (Japan), the number of red blood cells and platelets was calculated before the start of the working day and after the end of the working day.

In addition, smears were made from the blood samples taken. They were painted according to the Romanovsky-Giemsa method. In the obtained preparations, the obtained number of lymphocytes and neutrophils was counted. The results of the study are presented in table 2.

Conclusion: Since changes in the number of blood cells do not go beyond the norm, based on the results of the study in a known manner, we can say that the disease of the musculoskeletal system detected in patient N. is not associated with exposure to electromagnetic fields generated by the computer and the cellular device during operation communication.

In addition, a clinical and laboratory blood test of patient N. was carried out according to the proposed method before the start of the working day and after the end of the working day.

According to the proposed method, freshly prepared blood smears are fixed in a cold alcohol-formalin mixture for 30 seconds. After rinsing in distilled water, they were incubated for 2 hours at t = 39 ° C in an incubation medium.

Incubation medium:

Solution A: 20 mg of naphthol-AS-BI-phosphate, 0.05 ml of dimethylformamide, 40 ml of 0.1N sodium acetate solution.

Solution B: in a separate cup, equal volumes of a 4% solution of pararosaniline and 4% sodium nitrate (0.3 ml each) were mixed.

After mixing solutions A and B, the pH was adjusted to 5.3. Next, the resulting solution was filtered. Dyeing of the nuclei was carried out with a 0.5% solution of methyl green for 10 minutes.

The product of the cytochemical reaction was found in the cytoplasm of blood cells in the form of fine red granularity. Using a microscope, for example, the company Leica (Germany) in the preparations determined the activity of acid phosphatase of neutrophils, lymphocytes, platelets and red blood cells, that is, indicators of nonspecific reactivity of the body.

Before the start of the working day, it is determined:

CF _neut = 32.4 units, CF _lymph = 29.4 units, CF _thrombus = 7.8 units, CF _er = 3.6 units After that, the integral diagnostic index of blood lysosomal activity was calculated by the formula:

LAC = 18.3 units. Act. (this is less than 26.2 units act.)

After the end of the working day, during which for 4 hours a day the patient worked close to the source of electromagnetic radiation of radio frequencies, CF _neut = 32 units of act, CF _lymph = 34 units of act, CF _thrombus = 9 units, CF _er = 3 units

Next, the integral diagnostic index of lysosomal blood activity was calculated after the patient's work for 4 hours near the source of electromagnetic radiation of radio frequencies according to the formula

LAC = 19.5 units, i.e. LAC <26.2 units.

Therefore, the body’s response to the professional effect of electromagnetic radiation of radio frequencies is negative (LAC <26.2 ed.).

Conclusion: since LAC <26.2 units. act., the disease of the musculoskeletal system revealed in patient N. is general, i.e. according to the result of the study of the proposed method, it is not associated with exposure during operation of electromagnetic fields generated by the computer and the cellular communication device.

The results of clinical and laboratory blood tests of 50 patients who for a long time (more than three years at least three hours during a work shift) were exposed to low-level electromagnetic radiation (10-200 μW * h / cm ² ) showed by the known and proposed methods that the reliability of the diagnosis of radiation exposure to humans, carried out using the proposed integrated assessment of the level of lysosomal activity of blood, exceeds the reliability of the diagnosis of electromagnetic exposure to humans (see t Blitz 3).

The proposed method for diagnosing the effects of electromagnetic radiation can improve the reliability of diagnosis of the effects of electromagnetic radiation due to the integrated assessment of the lysosomal activity of the blood of the body, which is important for solving the issues of examination of disability and employment.

Given the simplicity and integrated nature of the assessment of the activity of lysosomal blood activity, the proposed method can be widely used in medical examinations and professional selection both in clinics, hospitals, medical units, and in other medical institutions with clinical diagnostic laboratories.

Claims (1)

A method for diagnosing the effects of electromagnetic radiation, including a clinical laboratory blood test, characterized in that the acid phosphatase activity of neutrophils, lymphocytes, platelets and red blood cells is determined, then the integral diagnostic index of blood lysosomal activity is calculated by the formula

where LAC is the integral diagnostic index of lysosomal blood activity (ed.),
n is the number of types of blood cells (units),
CF _neut - the activity of neutrophilic acid phosphatase (unit act.), CF _lymph - the activity of lymphocytic acid phosphatase (unit of act.), CF _thrombus - the activity of platelet acid phosphatase (unit of act.), CF _er - the activity of erythrocyte acid phosphatase ( units.), in this case, if the value of the integral diagnostic index of lysosomal blood activity exceeds 26.2 units, they diagnose the effect of electromagnetic radiation on the body; if the specified index is less than 26.2 ed., then conclude that the reaction of the body to radiation is negative.