RU2332666C1 - Method of drug or powerful chemical intoxication diagnostics - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention concerns medicine, particularly forensic medicine, and can be applied in preliminary confirmation of drug and/or powerful chemical intoxication by blood serum examination. To implement the method, blood serum pH is defined, and wedge dehydration of blood serum is performed by drying a drop of blood serum on a horizontal object glass at the room temperature for 18-24 hours and further analysing of the dehydrated drop structure with light microscope. If blood serum pH is under 6.8 and dash fissures are present in the central area of the dehydrated drop, then drug and/or powerful chemical intoxication is confirmed.

EFFECT: objective confirmation of suspected drug or powerful chemical intoxication in short time.

5 dwg, 1 tbl, 5 ex

Description

The invention relates to medicine, namely to forensic medicine, and can be used to pre-establish poisoning with narcotic and / or potent substances in the study of blood serum.

The most famous means of detecting narcotic and potent substances are tests based on color reactions of solutions of chemical reagents with the studied objects. The result is a characteristic staining of the reaction mixture, which is used as an indicator of the possible presence of these substances. One of the most common analysis methods is thin layer chromatography. Chromatograms exhibit Dragendorf reagent (bismuth iodide solution in the presence of potassium iodide BiI ₃ / KI KBiI ₄ ), which gives orange or brick-red color with narcotic and potent substances. The use of this reagent is based on the property of alkaloids as bases to form simple or complex salts with complex iodides. The absence of staining with Dragendorf's reagent is of evidence in a forensic chemical study (Shvaikova MD Toxicological chemistry. M: "Medicine", 1975. - 376 p.).

However, this method has several disadvantages. Often, the orange color during processing with this reagent is caused by the presence of putrefactive processes in biological objects that have been submitted for examination, since staining may be due to the presence of proteins, their decomposition products, and other substances containing a nitrogen heteroatom in the sample.

In addition, the reaction with the Dragendorf reagent requires preliminary processing of biological objects (preparation of alkaline chloroform extract, etc.).

Also, the length of the period during which narcotic and potent substances can be detected in the body depends on the material being studied. A saliva or blood test should be performed within 24 hours after taking the drugs. If blood or saliva samples were taken for analysis after a longer period, these substances, as well as their metabolic products, will be almost impossible to detect. For such cases, a urine test is more suitable, which allows one-time use of these drugs to be detected within 1-4 days after taking them. But sometimes the expert does not have enough urine for analysis. Therefore, often the failure to detect narcotic and potent substances during a forensic chemical study cannot serve as a guarantee that the cause of death is not their poisoning (Krieger O.V., Mogutov S.V., Butovsky D.I. et al. // Court Med. Expert. - 2001. - No. 2. - S.9-14).

Several years ago, scientists at the Institute of Physiologically Active Substances of the Russian Academy of Sciences, together with the Scientific and Practical Center for Narcology at the Moscow Department of Health, developed a new way to identify people who use drugs. The DIANARK screening method (M. Myagkova, O. Panchenko, RF Patent No. 2250467, “Method for diagnosing the fact of drug use”, 2004) is based on the enzyme-linked immunosorbent assay for specific antibodies formed in the body after taking the drug. The method reliably reveals the fact of drug use after 2-4 months from the time of their use. Analysis time 2.5 hours. Sample volume: 10 μl drop of blood.

The method includes incubating the analyzed blood serum sample with a hapten conjugate - a macromolecular carrier immobilized on a solid phase, subsequent incubation of the formed immune complex with a conjugate of antibodies against human immunoglobulins M and G labeled with the enzyme, and detecting the level of specific antibodies by the difference in optical density of the analyzed sample with similar indicators of reference samples with and without drugs contained in blood serum, and the establishment of consumption by the latter in case of coincidence or excess of the level of antibodies in the analyzed and reference sample.

However, the disadvantage of this method is the need for its implementation of equipment for enzyme immunoassay, as well as the presence of rather expensive reagents (see above).

The objective of the invention is the development of a method for the diagnosis of poisoning with narcotic and potent substances, which allows for a sufficiently rapid and reliable diagnosis with a minimum amount of test material by measuring pH values and using the method of wedge-shaped dehydration of biological fluids.

The task in the method for the diagnosis of poisoning with narcotic and potent substances is achieved by determining the pH of the blood serum, and also investigating the blood serum by the method of wedge-shaped dehydration, for which a drop of blood serum is dried on a horizontally located glass slide at room temperature for 18-24 hours, and then analyze the structure of the obtained dehydrated droplets in a light microscope and diagnose poisoning with narcotic and / or potent substances at Serum pH below 6.8 bar, and the presence of cracks in the central zone droplets dehydrated.

This method does not require expensive equipment and reagents, simple to perform, does not require a large amount of the studied material (blood serum), which allows further conducting other types of generally accepted laboratory tests. All this allows for a short period of time to objectively confirm the suspected poisoning with narcotic or potent substances, allowing the expert to answer questions from law enforcement agencies about a possible cause of death.

During the development of the proposed method experimentally, the need and sufficiency for the diagnosis of poisoning with narcotic and / or potent substances was proved by the simultaneous use of two diagnostic criteria: blood serum pH below 6.8 and the presence of dashed cracks in the central zone of a dehydrated drop of blood serum (when tested by the wedge-shaped dehydration). At the same time, samples of blood serum and urine from 39 corpses delivered to the Nizhny Novgorod Region were investigated and analyzed. SME autopsy bureau. Of these, 17 died from poisoning with narcotic and potent substances (table), 10 from various diseases (no alcohol or narcotic substances were found), 10 corpses in which the presence of narcotic substances were not detected, but there was a fairly high ethyl content alcohol (1.57-3.09 ‰ in the blood and 1.07-3.55 ‰ in the urine). When classifying the detected substances into the category of narcotic or potent substances, we used the lists of narcotic, psychotropic, potent and toxic substances ((Lists of narcotic, psychotropic, potent and toxic substances. Lists A and B. / Library of the journal “Quality of care” No. 1/2001 /) - M .: GRANT, 2001 .-- 228 p.). Two cases of methyl alcohol and carbon monoxide poisoning were also studied.

Distribution of deaths from poisoning with narcotic and potent substances Discovered substances Number of cases Morphine 8 Morphine + 1,4-benzodiazepine derivatives 3 Morphine + Codeine 2 Morphine + phenothiazine derivatives one 1,4-benzodiazepine derivatives one Ephedrine one Phenothiazine Derivatives one

We examined blood and urine from the bodies of persons with the prescription of death 24-48 hours before the autopsy. Pictures of a dried drop of blood serum, urine and urine with the addition of 10% albumin solution were obtained by the method of wedge-shaped dehydration. In parallel, the pH of biological fluids, glucose, and ketone bodies in urine was determined. In all studied cases, the presence or absence of drugs, ethyl alcohol in the body was confirmed by the data of a forensic chemical study. The description of the dried drop picture was presented in the form of a table. The drop was divided into three zones, in each of them the number, location, shape and size of the following signs were evaluated: cracks, nodules, crystals, features.

For a statistical analysis of the results, an electronic database was formed, in which qualitative and quantitative attributes were entered. The correlation of the parameters of the picture of a dried drop of biological fluid with the presence of narcotic and / or potent substances according to forensic chemical analysis, with the presence of traces of injections and with the expert opinion on death from poisoning with a narcotic (potent) substance was assessed by correlation analysis. The dependence was considered statistically significant with a correlation coefficient greater than 0.5. The parameters of the dried drop were taken significant, the dependence of which was reliable for all three of the listed indicators at the same time.

When analyzing the correlations of the crystal-optical parameters of a dried drop of both native urine and urine with the addition of a 10% albumin solution containing narcotic substances, there were no statistically significant signs.

A statistically significant relationship was found between the presence of characteristic dashed cracks in the center of a dried blood serum drop and blood serum pH values with the detection of drugs, with the presence of traces of injections on the corpse and with the expert opinion on the death from poisoning with a narcotic (potent) substance.

The method of wedge-shaped dehydration was developed at the Moscow Scientific Research Institute of Gerontology (Shatokhina S.N., Shabalin V.N. // Urology and Nephrology - 1998 - No. 1. - P.19-23). Currently, it is used to diagnose various conditions, but the possibility of its use for the diagnosis of poisoning with narcotic and potent substances was not previously known and was shown by the authors of this application for the first time.

We make a description of the figures.

Figure 1 shows the image of the central zone of a dried drop of blood serum of a corpse of a gr. E., who died from myocardial infarction (uv. × 50).

Figure 2 shows the image of the central zone of a dried drop of blood serum of the corpse of Mr. S., who died from poisoning with morphine (UV. × 50).

Figure 3 shows the image of the central zone of a dried drop of blood serum of the corpse of Mr. D. who died from poisoning with ephedrine (uv. × 50).

Figure 4 shows the image of the central zone of a dried drop of blood serum of the corpse of Mr. S., who died from poisoning with phenothiazine derivatives (UV. × 50).

Figure 5 shows the image of the central zone of a dried drop of blood serum of the corpse of Mr. P., who died from an alcoholic disease with damage to the heart, liver, pancreas. In the urine, analgin and ethyl alcohol were found (uv. × 50).

Figure 2-4 indicated:

1 - dashed cracks.

The proposed method is as follows.

Blood is centrifuged for 10 minutes at 1000 rpm. In the resulting serum determine the pH value. Then, a drop of the test liquid with a volume of 0.01 ml (10 μl) is applied to a glass slide, specially processed, located strictly horizontally. The diameter of the droplet is about 5 mm. Do 6 repetitions to verify the authenticity and mutual identity of the dried drop. Drying is carried out at a temperature of 20-25 ° C and a relative humidity of 65-70% away from heating appliances and direct sunlight with minimal ambient air mobility. In the process of drying, the drop should be motionless. The drying period is 18-24 hours. The type and structure of the dehydrated droplet was evaluated using a microscope in reflected light at a magnification of 10 × 8. Dashed cracks differ from ordinary cracks in a darker (black) color and wider, as well as in that they end at the edges with triangular extensions with several branches. If in the central zone of a dried drop of dashed line cracks is detected and serum pH values below 6.8, poisoning with narcotic or potent substances can be diagnosed.

Examples of the use of crystal-optical characteristics and serum pH in determining the cause of death.

Example 1. The body of Mr. E., act dated 08/17/06, was delivered to the Nizhny Novgorod Bureau of SME. Act No. 17 is known to have suddenly died at home. The study found that the pH of blood serum is about 7.5. Dashed cracks in the center of a dried drop of blood serum are absent (Fig. 1).

According to a forensic expert, death came from coronary heart disease.

Example 2. A corpse of Mr. S. was delivered to the Nizhny Novgorod Bureau of SME, Act of 08/12/06. During an external examination of the corpse, traces of injections were found. The study found that the pH of blood serum is 6.5. In the center of a dried drop of blood serum revealed a large number of dashed cracks (figure 2).

A forensic chemical study in the urine of the corpse of Mr. C detected morphine. According to a forensic expert, death came from morphine poisoning.

Example 3. The body of Mr. D. was delivered to the Nizhny Novgorod Bureau of SME, Act of 11/27/06. During an external examination of the corpse, traces of injections were revealed. The study found that the pH of blood serum is 6.5. In the center of a dried drop of blood serum, dashed cracks were detected (Fig. 3).

A forensic chemical study in the urine of the corpse of Mr. D. found ephedrine. According to the conclusion of the forensic expert, death occurred from ephedrine poisoning.

Example 4. A corpse of Mr. S. was delivered to the Nizhny Novgorod Bureau of SME, Act of November 20, 2006. Examination of the corpse revealed traces of injections. The study found that the pH of blood serum is 6.7. In the center of a dried drop of blood serum revealed a significant number of dashed cracks (figure 4).

A forensic chemical study in the urine of the corpse of Mr. S. found phenothiazine derivatives. According to the conclusion of the forensic expert, death occurred from poisoning with phenothiazine derivatives.

Example 5. In the Nizhny Novgorod Bureau of SME delivered the corpse of Mr. P., act dated 11/22/06. The study found that the pH of blood serum is 7.0. Dashed cracks in the center of a dried drop of blood serum are absent (Fig. 5).

A forensic chemical study in the urine, blood and internal organs of the corpse of Mr. P. did not reveal any narcotic substances, but analgin was found. The content of ethyl alcohol in the blood = 2.01 ‰, in the urine = 2.27 ‰. According to the conclusion of the forensic expert, death came from an alcoholic disease with damage to the heart, liver, pancreas.

The results showed that using the above method, suspected poisoning with narcotic or potent substances can be objectively confirmed in a short time, differentiating it from other poisonings, thus allowing the expert to answer questions from law enforcement agencies about a possible cause of death.

INFORMATION SOURCES

1. Shvaikova M.D. Toxicological chemistry. M: "Medicine", 1975. - 376 p.

2. Krieger OV, Mogutov S. V., Butovsky D. I., Vlasova N. V., Vorobyeva E. V., Demyanenko T. M., Mostman I. G., Murashova L. N., Nikishtsev I.N., Samsonova V.V., Stakhanova M.Yu. // Court. honey. Expert. - 2001. - No. 2. - S.9-14.

3. Myagkova M.A., Panchenko O.N. RF patent No. 2250467 "Method for diagnosing the fact of drug use", 2004

4. Lists of narcotic, psychotropic, potent and toxic substances. Lists A and B. / Library of the journal “Quality of medical care” No. 1/2001 /) - M .: GRANT, 2001. - 228 p.

5. Shatokhina S.N., Shabalin V.N. // Urology and Nephrology - 1998 - No. 1. - S. 19-23.

Claims (1)

A method for the diagnosis of poisoning by narcotic and / or potent substances by blood testing, characterized in that the pH of the blood serum is determined, and also the blood serum is examined by the method of wedge-shaped dehydration, for which a drop of blood serum is dried on a horizontally located glass slide at room temperature for 18-24 h, and then analyze the structure of the obtained dehydrated drop in a light microscope and diagnose poisoning with narcotic and / or potent substances with significant Serum niyah pH below 6.8 bar, and the presence of cracks in the central zone droplets dehydrated.

Images