RU2310199C1 - Method for predicting the flow of inflammatory diseases of internal organs - Google Patents

Abstract

FIELD: medicine, clinical laboratory diagnostics.

SUBSTANCE: for predicting the flow of inflammatory disease of internal organs it is important to study the samples of urine. One sample of urine should be affected with impulse source of laser radiation of AIG-Er laser as physical factor at wave length of radiation 2.94 mcm, energy of impulse radiation ranged 0.1±0.04 to 1.00±0.2 J and impulse length of 250 mcsec. The second sample of urine is a control one. Then urine from every sample should be applied at the quantity of about 0.01-0.02 ml onto a slide as a drop to be dried at about 17-25°C for 18-20 h to carry out comparative microscopy of the obtained samples. In case of linear form of crystals in urinary sample subjected to impulse laser radiation one should predict the regress of inflammation, at identical picture of samples - the progress of inflammation.

EFFECT: higher accuracy and significance of prediction.

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Description

The invention relates to medicine, in particular to a laboratory research method.

Despite the effectiveness of the treatment of patients with inflammatory diseases of the internal organs of infectious origin or of immuno-inflammatory origin, the problem of predicting the course and outcome of the disease remains relevant.

Currently, generally accepted methods for assessing the effectiveness of therapy, predicting the course and outcome of diseases of internal organs are clinical observation data and laboratory data. However, criteria for the course of the disease and its outcome were not found.

A known method for evaluating the effectiveness of treatment and predicting the course of inflammatory diseases of the internal organs of a person, namely the kidneys, is a general clinical analysis of urine (Laboratory research methods in a clinic. Handbook edited by prof. V.V. Menshikov. M., Medicine, 1987, p. .47-66). With the disappearance of pathological impurities in the urine (protein, glucose, etc.), one can judge the effectiveness of therapy.

However, it is possible to predict the course and outcome of the pathological process of inflammatory kidney diseases only subjectively or presumably.

The closest is a method for predicting the course of inflammatory diseases of internal organs, including the effect of a physical factor on a sample of biological fluid, an analysis of the dynamics of changes, which are used to judge the progression or regression of the inflammatory process (RF Patent No. 2224458, IPC G01N 33/48, publ. 2004, )

The disadvantage of this method is its rather complicated reproduction by medical staff, it cannot be used as an express diagnostic method, and not only proteins of the inflammatory process, but also products of catabolism during ischemia of the body tissue (heart, brain) can be used in the electrochemical reaction analysis , which reduces its accuracy.

The task was to eliminate these shortcomings and create an easily reproducible and reliable method for predicting the further course of inflammatory diseases of internal organs.

To do this, in a method for predicting the course of inflammatory diseases of internal organs, including the effect of a physical factor on a sample of biological fluid, analysis of the dynamics of changes, which are used to judge the progression or regression of the inflammatory process, it is proposed to study urine samples as biological fluid, one of which as a physical factors are affected by a pulsed laser source of an AIG-erbium laser with a radiation wavelength of 2.94 μm and a radiation pulse energy of 0.1 ± 0.04 d about 1.00 ± 0.2 J and a pulse duration of 250 μs. The second urine sample is a control. Then, urine from each sample is applied in an amount of 0.01-0.02 ml on a glass slide in the form of a drop, dried at a temperature of 17-25 ° C for 18-20 hours, a comparative microscopy of the obtained samples is carried out and, in the presence of a linear crystal shape, a urine sample subjected to pulsed laser radiation predicts a regression of inflammation, and with an identical picture of the samples, the progression of inflammation is predicted.

Figure 1 shows the morphological picture of the urine of a patient with an inflammatory disease of the respiratory system before being exposed to a laser, an amorphous-clumpy structure with conglomerates - salt crystals is visible; figure 2 is a morphological picture of the urine of the same patient after exposure to it with a laser, linear forms of salt crystals are visible that are located over the entire surface of the dehydrated urine sample; figure 3 - amorphous block structure with the presence of conglomerates - salt crystals in a patient with chronic glomerulonephritis; figure 4 - amorphous-clumpy structure without changes after laser exposure to a urine sample of a patient with chronic glomerulonephritis.

A drop is the only natural structural unit of any liquid, which, depending on the physicochemical composition, has a certain surface tension, viscosity, density and other parameters. Internal molecular relationships in a drop of biological fluid are very complex, extremely diverse and variable, while the drop is in a liquid state. With the loss of water, upon a phase transition from a liquid to a solid state in a drop, redistribution of molecules and molecular complexes occurs, depending on their osmotic oncotic activity. The dehydration technology we developed makes the identical molecular complexes of the liquid collect in certain spatial zones of the dehydratable drop and form concentration waves, which are fixed in the solid phase as water evaporates, creating a certain order — a “phase” portrait of the distribution of all its components available for analysis. The method is called wedge-shaped dehydration, and the object of analysis is a thin film, which was called facies.

The idea of developing this method was based on the phenomenon of protective biomineralization, that is, the body’s ability to bind vital products of pathogenic microflora, its own products of tissue catabolism by salt crystals (Shabalin V.N., Shatokhina S.N. Morphology of human biological fluids, M., 2001, p. .216-218).

Experimental studies of various biological fluids in the solid state were carried out, this allowed us to study and discover the earliest markers of the development of pathological processes (stone formation, inflammation, intoxication, ischemia, sclerosis, etc.).

Of greatest interest were studies of the ability of a biological fluid to transmit the response of a direct or indirect effect of a physical factor on it according to the morphological picture of the facies. So, in experiments with direct laser exposure to the test tube with urine, a change in its morphological picture was determined due to the presence of pathological proteins in various inflammatory diseases of the internal organs, the diagnosis of which was confirmed by clinical and laboratory research.

The results of obtaining a fixed response to the influence of a physical factor according to the morphological picture of body fluids are explained by the fact that biological fluids are the most complex behavioral systems in which all molecular bonds are weakened by water. It is the weakness of these interactions that enables the body to constantly and dynamically select the structural organization, its components, which is the most energetically beneficial in the current conditions.

Studies were conducted on urine samples taken from 130 patients at different time intervals (morning, from 12 to 15 hours, from 15 to 18 hours, etc.) with various inflammatory diseases of the internal organs, while the morphological picture in all samples after laser exposure changed identically, i.e. in accordance with the presence or absence of an inflammatory process.

Another aspect of the use of physical factors based on the technology of wedge-shaped dehydration is to determine the potential capabilities of the body during the development of the pathological process: whether to expect activation of the disease or is expected to move towards recovery. It turned out that the effect of the laser on the biological fluid of a sick person can serve as a provoking factor that moves the system to the point of organizational crisis. That is, the effect shows a hidden motion vector of the pathological process: in the direction of its coagulation (expected recovery) or activation (aggravation of the patient's condition). These prognostic criteria are read according to the morphological picture of the studied biological fluids.

In our studies, the Ermed-303 pulsed laser punch was used, which is widely used for drawing blood from a finger. The rotary hammer is developed on the basis of a YAG-erbium laser with a radiation wavelength of 2.94 μm, a radiation pulse energy of 0.1 ± 0.04 to 1.00 ± 0.2 J and a radiation pulse duration of 250 μs. When comparing the morphological picture of urine facies before and after exposure to biofluid of pulsed laser radiation in the case of a further favorable course and outcome of the disease, the phenomenon of biomineralization was observed.

Biomineralization is a protective and adaptive mechanism that causes the neutralization of toxic products of organic origin. The effect of laser radiation on the test fluid is explained by the following: organic substances (products of the breakdown of their own tissues, microflora, etc.) that are partially degraded but cannot be bound by salt crystals due to their still high enough are ejected from the patient’s body with urine vitality. The pulsed laser exposure leads to organic metabolites to a deeper destruction, which makes them available for binding by salt crystals, that is, for the process of biomineralization.

With an unfavorable prognosis of the course of the disease with the urine, organic substances with more stable structures are emitted. The laser pulse is not able to cause enough changes in them for the development of biomineralization, therefore, the morphological picture of the urine of both samples (before and after exposure) has no differences - an unfavorable prognostic sign.

Thus, the phase portrait of biological fluid - urine, obtained using the method of wedge-shaped dehydration, makes it possible to objectively evaluate the specific effects of a physical factor on the human body.

So, it was found that in the urine of patients with candidiasis of the organs of the urinary system during recovery, salt crystals are active, namely, their “linear” growth occurs and the inclusion of pathogenic fungal cells in their structure, that is, their inactivation. However, the described phenomenon of biomineralization could be observed only in the recovery phase. Therefore, if you “catch” the readiness of the crystals of urine salts to “linear” growth, you can predict a favorable course and outcome of the inflammatory process.

The method is as follows.

A sample of urine is taken from the patients, poured into two test tubes — sample 1 and sample 2. Then, sample 1 is subjected to the pulsed action of a laser radiation source, and sample 2 remains unexposed (control sample). Then the urine of each sample is applied in an amount of 0.01-0.02 ml onto a glass slide in the form of a drop, dried at a temperature of 17-25 ° C for 18-20 hours and comparative microscopy of the morphological picture with the picture of the control sample is carried out. In this case, attention is paid to the structure of salt crystals in the urine sample exposed to the laser and in the control sample. In the presence of a linear form of crystals in the urine sample of sample 1 and the absence of such structures in the control sample, a favorable course and outcome of the disease are predicted. If the structure of the salt crystals in the urine sample 1 does not differ from the structure of the salt crystals of the control sample, an unfavorable course and outcome of the disease is predicted.

Example 1

Patient F., 66 years old. Diagnosis: chronic bronchitis. Stage of exacerbation. Inpatient treatment showed the clinical effect of the prescribed course of therapy.

The study of the morphological picture of urine in this way showed that before exposure to the test tube with urine laser, the morphological picture of urine was characterized by the presence of a small number of blocks of salts (Fig. 1). After exposure to a test tube with urine, a laser radiation source revealed linear forms of salt crystals (figure 2). Conclusion: the treatment is effective, a favorable course and outcome of the disease is predicted.

After 7 days, the patient was discharged from the hospital with a clinical picture of the transition of the disease into stable remission.

Example 2

Patient P., 62 years old. Diagnosis: chronic glomerulonephritis. Stage of exacerbation. Inpatient treatment showed the clinical effect of the prescribed course of therapy.

The study of the morphological picture of urine in this way established that before exposure to the test tube with urine by a laser, the morphological picture of urine was characterized by the presence of blocks of salts (Fig. 3). After exposure to a test tube with urine, a source of laser radiation in the morphological picture of urine also shows the presence of clumps of salts, linear forms of crystals are absent (figure 4). Conclusion: the adverse course and outcome of the disease is predicted.

Further observation of the patient showed a complicated course of the disease due to the development of chronic renal failure and sclerosis of the kidney tissue. The patient in serious condition was discharged from the hospital with an unfavorable prognosis.

Thus, the effect of laser radiation on the test fluid, revealed by the morphological picture, is explained by the following: organic substances (toxins, breakdown products of their own tissues and / or microflora and its metabolic products, etc.) are ejected from the patient’s urine. which are in a state of partial destruction, but cannot be bound by salt crystals due to their still rather high viability. The pulsed laser action leads to further destruction of these organic elements and makes them available for binding by salt crystals, that is, for the biomineralization process.

With an unfavorable prognosis of the course of the disease with urine, organic structures with a sufficiently high viability are ejected. The laser pulse is not able to cause deep structural destruction in them, which would lead to biomineralization. Therefore, the picture of a dehydrated urine sample (after exposure to a laser) does not differ from the control, i.e. before exposure. This indicates a high viability of pathological organic structures.

The method is technically simple, non-invasive; a pulsed laser perforator, which is available in laboratories for taking blood from a finger, can serve as a source of pulsed laser radiation. The method can be used as an express analysis to predict the course of the disease.

Claims (1)

A method for predicting the course of inflammatory diseases of internal organs, including the effect of a physical factor on a sample of biological fluid, analysis of the dynamics of changes, which judge the progression or regression of the inflammatory process, characterized in that urine samples are examined as biological fluid, one of which is used as a physical factors are affected by a pulsed laser source of an AIG-erbium laser with a radiation wavelength of 2.94 μm and a radiation pulse energy of 0.1 ± 0.04 to 1.00 0.2 J and a pulse duration of 250 μs, and the second control, then urine from each sample is applied in an amount of 0.01-0.02 ml on a glass slide in the form of a drop, dried at a temperature of 17-25 ° C for 18- 20 h, a comparative microscopy of the obtained samples is carried out and, in the presence of a linear form of crystals in a urine sample subjected to pulsed laser radiation, inflammation regression is predicted, and with an identical pattern of samples, inflammation progression is predicted.

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