RU2266757C2 - Method for suppressing atypical pneumonia coronavirus - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves administering ultrasonic ozonide-containing drug aerosol inhalation as ozonized oil and water mixture. Ultrasonic inhalation is additionally applied to bronchopulmonary system using highly refined aerosol containing ozonized oil having ozonide-based peroxide number P=800-900 and aerosol particle diameter equal to 0.3-0.5 mcm, giving at least two sessions per day at pathologic process active phase stage. Bronchopulmonary system tissue edema being relieved, ultrasonic inhalation procedure is first applied using highly refined aerosol containing ozonized oil having 20% ozonized oil emulsion of oil-in-water type having peroxide number P=200 and aerosol particle diameter equal to 0.3-0.5 mcm, giving at least two sessions per day at infection regeneration stage until clinically proved patient recovery data being obtained. Next, ultrasonic inhalation procedure is applied using medium refined aerosol containing ozonized oil having peroxide number P=800-900 and aerosol particle diameter equal to 5.0-10.0 mcm, each inhalation procedure being at least 10 min long. EFFECT: enhanced effectiveness of treatment. 2 cl, 1 dwg

Description

The invention relates to medicine, in particular to infectology, and can be used for the treatment and prevention of SARS (SARS-severe acute respiratory syndrome).

Atypical pneumonia (SARS), first detected in November 2002 in China, is characterized by all the signs of a pandemic that has swept dozens of countries around the world by mid-2003.

Caused by coronavirus (SARS coronavirus), which has high virulence and mutability, it is accompanied by a severe course of the disease, which has a high mortality rate (about 10%) of the total number of infected, and is difficult to generally accepted prevention and treatment with antibiotic therapy. About 20% of patients need mechanical ventilation.

The leading causes of the development of pathological changes in SARS are involuntary cough, a sharp increase in temperature (over 38 ° C), rapid and difficult breathing, airway obstruction and, first of all, bronchioles, bronchogenic coronavirus infection in association with anaerobic infection, leading to inflammation, the development of extensive edema from the side of the interstitial tissue, impaired microcirculation in the lungs, hypoxia, acidosis, significant disorders of the immune system, etc. period of 7-10 days. Having a high coefficient of contagiousness, SARS coronavirus is transmitted at the slightest contact: by airborne droplets, as well as through water, public objects, money, insects, etc.).

To date, the only means of protection against this especially dangerous infection is personal protection using a face mask, a respirator with a protective shield, a biological protective suit, gloves, and body treatment with washing solutions before and after contact with the infected contingent.

Since a highly active infectant affects primarily the respiratory tract and the bronchopulmonary system, it appears that inhalation physiotherapy with aerosols of the target drugs administered prophylactically and at the initial stage of the disease into the airways and bronchopulmonary system affected by coronavirus will be one of the available and effective methods not only for the treatment of SARS, but also the prevention of this new especially dangerous disease among the population and medical personnel.

A known method of introducing drugs into the body in the treatment of diseases of the upper respiratory tract, which consists in inhalation of drugs in the form of aerosols introduced into the body through the upper respiratory tract (see AS USSR 1477412, class A 61 N 23/00, " A method for the treatment of patients with purulent endobronchitis ", 1989).

However, the use of inhalation therapy using conventional solutions of medicinal substances is not effective in the treatment of especially dangerous viral infections, which include SARS coronavirus.

A known method of treating pneumonia is the inhalation of a medicinal substance in the form of an ozone-oxygen mixture (see S. N. Gorbunov and others. The use of ion-ozone mixtures in the treatment of children with purulent-septic diseases. / "Reconstructive and reconstructive surgery diseases of childhood ". // Collection of scientific papers under the editorship of A.M. Gorokhov, Gorky, 1990).

However, this method of treating pneumonia cannot be used in the treatment of patients and in the prevention of SARS due to the irritating and harmful toxic effects of ozone on the mucous membranes of the airways and bronchopulmonary system and, above all, lung surfactant. The use of significant concentrations when inhaling ozone for therapeutic purposes is prohibited, because ozone irritates the airways and mucous membranes of the eyes, damages and destroys lung surfactant. Inhalation methods of ozone therapy, occasionally used in the 60-70s. 20th century, currently almost never used (see Kosheleva IV. The use of ozone-oxygen mixture in dermatology and medical cosmetology. // Cosmetics and medicine. - No. 4. - 2000. - P.68-75).

The closest in technical essence and the achieved result is a method of treating bronchial asthma, including ultrasonic inhalation of drugs in the form of a mixture of ozonized vegetable oil and water, taken in the ratio 1: (100-200), using ozonized oil with a peroxide number P = 200 -700, and inhalation is carried out for 10-15 minutes daily for 3-10 days (see RF Patent 93014294 "Method for the treatment of bronchial asthma", A 61 M 15/02, 1995).

However, this method is not effective in the treatment of SARS, because does not take into account the features of the phases of the infectious process in the bronchopulmonary system caused by SARS coronavirus. This is due to the fact that at the stage of the active phase of the pathological process, due to the severity of swelling of the tissues of the airways and, above all, the bronchopulmonary system, the introduction of aerosols of ozonide-containing drugs with a diameter of aerosol particles generally accepted in ultrasonic inhalation physiotherapy is of the order of 5-25 μm. In this case, the largest spectrum of aerosol particles of a drug substance having a diameter of the order of 5-10 microns practically cannot penetrate through the barrier into the high-order bronchi and the lower parts of the lung. This dramatically reduces the amount of the ozone-containing drug substance introduced into the tissue of the infection site and surrounding tissues of the ozonide-containing drug substance, as well as its concentration in the tissues of the bronchopulmonary system and further in the blood and lymph systems of the body as a whole, reducing the efficiency of suppression of SARS coronavirus and detoxification of the infection site. In addition, in a mixture of ozonized vegetable oil and water, taken in a ratio of from 1: 100 (1% ozonized oil emulsion of the oil-in-water type) to 1: 200 (0.5% ozonized oil emulsion of the oil-in-water type) , it is practically impossible to obtain an ozonide-containing drug substance with a peroxide number P from 700 to 200, respectively.

The objective of the invention: increasing the efficiency of suppressing atypical pneumonia coronavirus and detoxifying the foci of infection by saturating the tissues of the airways, high order bronchi, the lower parts of the lung, as well as the blood and lymph systems of the body with a polydispersed aerosol of highly active ozonide-containing drug substance.

The problem can be solved due to the fact that according to the method of suppressing atypical pneumonia coronavirus, which includes ultrasonic inhalation with an aerosol of an ozonide-containing drug substance in the form of a mixture of ozonized vegetable oil and water, at least two more sessions are carried out in the bronchopulmonary system during the active phase of the pathological process day, ultrasonic inhalation procedure with a finely dispersed (submicron) aerosol with an aerosol particle diameter of an ozonide-containing drug substance (ozonized vegetable oil with a peroxide number for ozonides P = 800-900) of the order of 0.3-0.5 microns (with a procedure time of at least 10 minutes), and after the swelling of the tissues of the bronchopulmonary system and at the stage of the regeneration phase of the infection site subsided, up to clinically confirmed indicators of patient recovery, at least two sessions per day, the ultrasound inhalation is first carried out with a highly dispersed (submicron) aerosol with an aerosol particle diameter of an ozonide-containing drug substance (20% ozonized oil emulsion t Pa "oil in water" with a peroxide number up to P = 200) of the order of 0.3-0.5 microns, and then the ultrasonic inhalation procedure with a fine aerosol with a particle diameter of an ozonide-containing drug substance (ozonized vegetable oil with a peroxide number for ozonides P = 800- 900) of the order of 5.0-10.0 microns (with the time of each procedure, at least 10 minutes). In addition, daily, until clinically confirmed indicators of recovery, the patient, before eating, is administered orally (per os) an ozonide-containing drug substance in the form of an ozonized vegetable oil with a peroxide number for ozonides P = 800-900 in an amount of 5 ml or 20% ozonated oil an oil-in-water emulsion with a peroxide value up to P = 200 in an amount of 100 ml.

Until now, technical solutions are known that ensure the effective suppression of atypical pneumonia coronavirus and detoxify the foci of infection by targeted saturation with a polydispersed aerosol of a highly active ozone-containing drug substance of the airways, high-order bronchi and lower parts of the lung, as well as blood and lymph systems of the body infected with atypical coronavirus.

To implement the method of suppressing atypical pneumonia coronavirus, the following devices are used: an ozone generator, for example, an Ozotron gas ozone therapy device (LLC NPF Metromed, Omsk), an ultrasonic camera UZK-1 (LLC NPF Metromed, Omsk) to create ozone- and ozonide-containing medicinal substances (for example, ozonized vegetable oil with a peroxide number for ozonides P = 800-900 or 20% of an ozonized oil emulsion of the oil-in-water type with a peroxide number up to P = 200, etc.) at exposure to low-frequency ultrasound (frequencies and ultrasonic vibrations, f = 26.5-44.0 kHz) to their corresponding initial components while simultaneously sparging with an ozone-containing gas component, for example, an ozone-oxygen mixture at an ozone concentration of 20-30 mg / l. In addition, they use high-frequency ultrasonic inhalers, for example, the Berdsk-UltrAeroil inhaler (ZAO Rakus-N, Novosibirsk), designed to produce submicron aerosols with a particle size of 0.3-0.5 microns, and the Vulkan- 1 "(PO" Utes ", Ulyanovsk), designed to produce aerosols with a particle size of 5.0-10.0 microns, by spraying oils, oil-in-oil emulsions and oil-in-water solutions. It is possible to use an ultrasonic inhaler with a controlled mode of obtaining aerosol particles with sizes from 0.3 to 10 microns.

The method is as follows.

Initially, according to accepted methods, clinical, immunological and clinical diagnosis of the stage of the disease of atypical pneumonia coronavirus is carried out and treatment tactics are determined.

Preliminarily, in an ultrasonic chamber "UZK-1" an ozonized vegetable oil with a peroxide number for ozonides P = 800-900 and a 20% ozonized oil emulsion of the oil-in-water type with a peroxide number up to P = 200 is prepared (see RF Patent No. 2131673 "A method of producing ozonized oil" OTRISAN ", A 61 K 35/78, 1998). In this case, the corresponding initial components are separately acted upon in the ultrasonic chamber:

- vegetable oil, for example, olive, sunflower, etc .;

- oil-in-water type oil emulsion components (the above vegetable oils in an amount, for example, 20% of the total emulsion, soya lecithin 1% and the remaining 0.9% physiological solution of sodium chloride) when they sparge ozone-containing gas component for example ozone oxygen mixture. at a concentration of environmentally friendly and biocompatible (in therapeutic doses) with the human body, a substance - ozone - 20-30 mg / l.

In the process of bubbling of vegetable oil or its oil-in-water oil emulsion (in the field of powerful low-frequency ultrasound), a sparged ozone-containing gas component is directedly sprayed into the developed cavitation area of the voiced volume of the drug substance. The parameters and modes of ultrasonic exposure are as follows:

- frequency of ultrasonic vibrations - 26.5-44 kHz;

- the amplitude of ultrasonic vibrations is 30 microns;

- exposure of ultrasonic exposure - 1-2 s per 1 cm ^{3 the} volume of the voiced medicinal substance;

- the flow rate of the ozone-containing gas component is not less than 500 ml / min per 1 dm ^{3 of the} volume of the ultrasound chamber;

- the concentration of ozone in the ozone-containing gas component is 20-30 mg / l;

- peroxide number for ozonides for ozonized oil - P = 800-900;

- peroxide number for ozonides for 20% ozonized oil emulsion of the oil-in-water type - up to P = 200.

The resulting ozonized vegetable oil or its 20% ozonized oil-in-water oil emulsion is used further for its intended purpose in ultrasonic inhalation therapy in the amount of 0.1-1.0 ml per session, while no more than 2 sessions per day are carried out, moreover, the duration of a separate procedure in each session of ultrasonic inhalation therapy is not more than 15 minutes.

After the patient with atypical pneumonia of generally accepted therapeutic measures, ultrasound inhalation therapy is additionally carried out (Figure 1) in the following sequence.

At the first stage of treatment of the disease, the BerdskUltrAeroil ultrasonic inhaler is used at the beginning of the procedure. Previously prepared ozonized vegetable oil with a peroxide number for ozonides P = 800-900 is applied to the radiating surface of the inhaler piezoelectric plate, the inhaler is turned on and an inhalation session is conducted for at least 10 minutes.

An ultrasonic inhaler 1 creates a submicron aerosol of ozonized vegetable oil with a particle diameter of the order of 0.5 microns or less, capable of penetrating into the bronchi of high order and the lower parts of the lung.

The patient introduces the airways (mouth and nose) into the socket 2 of the ultrasonic inhaler 1 and breathes in the formed submicron aerosol into the bronchopulmonary system affected by the infection, creating a high concentration of ozonide-containing medicinal substance in the high-order bronchi and lower parts of the lung with the formation of a depot of ozonized oil in the tissues bronchi and alveoli of the lungs without damage to ozone.

The high oxidizing potential of ozone- and ozonide-containing medicinal substances provides a multifunctional biochemical effect on the bronchopulmonary system, the results of which are (S. Rilling, R. Viban, 1985; Pedder V.V., Ovchinnikov Yu.M. et al., 1996; Idov N .E., 1997, etc.):

- deactivation of viruses and their spores, and first of all, atypical pneumonia coronavirus, associative microflora, and first of all, anaerobes (with simultaneous intolerance of somatic cells of the body to the products of the oxidative action of ozone and ozonide-containing substances) due to the oxidation of capsid, membrane-bound enzymes, damage to DNA and RNA through pronounced selective interaction of an ozone-containing substance with their constituent compounds having double bonds: polyunsaturated fatty acids, peptides, aromatic s amino acids;

- pronounced activation of the body’s anti-infectious defense system, including under conditions of immunosuppression, by stimulating the antioxidant system and oxygen-dependent processes as a reaction to the oxidative stress caused by the ozone-containing substance, which is responsible for the intolerance of body cells to ozone (in a concentration toxic to viruses, bacteria and mushrooms);

- increased synthetic activity of the body due to increased peroxisomal oxidation and the functioning of glutathione-dependent systems;

- maintaining adaptation processes due to activation of enzymes in the glucocorticoid direction, etc.

At the same time, unlike antibacterial drugs, ozone-containing drug substance ozone has a number of important advantages:

- it is azeotropic with respect to the body, i.e. behaves as a pure and biologically compatible substance with the body;

- its therapeutic doses do not adversely affect the body, including when introduced into the respiratory tract;

- eliminates the resistance to it of pathogenic microflora;

- It is a strong immunomodulator, inducer of cytokines, interferon, etc., stabilizes cell membranes;

- is a microcirculatory activator with vasodilation properties that enhance the utilization of oxygen by blood and lymph, for example, blood in its presence absorbs 2-10 times more oxygen than under ordinary conditions, due to better dissolution in plasma (H.Wolff, 1982), which stimulates decongestant, antihypoxic and antiacidosis effects;

- affects the bioobject regardless of the initial etiological factor that caused the disease;

- positively affects (on an organismic level) the central nervous system, endocrine, respiratory, hematopoietic, immune, excretory and reproductive systems, etc., increasing the body's defenses in the fight against infection.

Due to the above positive effects on the bronchopulmonary system of a patient affected by atypical pneumonia coronavirus, the use of an ozonide-containing drug in the form of ultrasonic highly dispersed (submicron) aerosols is pathogenetically substantiated, stopping at the first stage of treatment of the disease (in the active phase of the pathological process) such main factors of the manifestation of atypical pneumonia like an involuntary cough, fever, severe airway obstruction her, a decrease in bronchogenic infection with coronavirus in association with anaerobic infection, stopping the development of edema, stimulating microcirculation in the blood and lymph systems of lung tissue, reducing the level of hypoxia and acidosis.

In the second stage of the treatment of the disease after the edema of the tissues, characterized by the phase of regeneration of the foci of infection, subsides, similarly to the above (Fig. 1), first, for at least 10 minutes, a session of ultrasonic inhalation (using the BerdskUltrAeroil inhaler) with a highly dispersed (submicron) aerosol with a diameter of aerosol particles of an ozonide-containing drug substance (20% ozonized oil emulsion of the oil-in-water type with a peroxide number up to P = 200) are of the order of 0.3-0.5 microns. In this case, the submicron aerosol of ozonized water emulsion freely penetrates (after removal of the edema in the first stage of treatment) into the high-order bronchi and the lower parts of the lung, creating a high concentration of ozonide-containing medicinal substance in these parts of the lung with the formation of its depot in the tissues of the bronchi and alveoli of the lungs. Then, for at least 10 minutes, a session of ultrasonic inhalation (using the Vulcan-1 inhaler) is carried out with a medium-dispersed aerosol with a particle diameter of an ozonide-containing drug substance (ozonized vegetable oil with a peroxide number for ozonides P = 700-900) of the order of 5.0- 10.0 μm, which is adsorbed by the tissues of the upper respiratory tract of the tracheobronchial tree and the upper parts of the lung with the formation of a depot of ozonized oil in them and the diffusion of ozone-containing drug substance with high concentration in the blood and lymph systems of the body. An ozonide-containing drug substance specifically interacts with the tissues of the tracheobronchial tree and bronchopulmonary system. Lecithin-stabilized oil micelles in the cells that absorb them activate oxygen-dependent processes, help maintain a long-term depot of ozonides in the tissues, and due to tissue transport (lymphocytes, macrophages, etc.), ozonides are distributed throughout the body, thereby enhancing homeostasis. This allows you to remove puffiness and normalize microcirculation in the blood and lymph systems of lung tissue, enhance suppression of the residual amount of infectant, intensify detoxification and stimulate immune processes not only in the focus of infection, but also in the body as a whole. At this stage of the disease, the treatment of tissues of the tracheobronchial tree and lung is carried out up to clinically confirmed indicators of patient recovery.

In addition, at the first and second stages of treatment of the disease to clinically confirmed indicators of recovery, the patient is prescribed an ozonide-containing medicinal substance in the form of an ozonized vegetable oil with a peroxide number for ozonides P = 800-900 in the amount of 5 ml or 20 orally (per os) % ozonized oil emulsion of the oil-in-water type with a peroxide value up to P = 200 in the amount of 100 ml, which allows deactivating the infectant entering the gastrointestinal tract when the outgoing secretion is swallowed from the site of infection, and also its detoxification.

The rationale for the implementation of the proposed method for suppressing atypical pneumonia coronavirus is research data on experimental animals conducted at the Institute of Experimental and Clinical Lymphology SB RAMS to assess the effectiveness of suppressing infections affecting the bronchopulmonary system and gastrointestinal tract of animals, and their tolerance to the proposed types of ozonide-containing drugs in the form of ultrasonic aerosols and solutions, as well as clinical efficacy data for the prevention and treatment of bronchopulmonary diseases conducted in the prescribed manner in the clinic of the Medical unit No. 168 of Novosibirsk.

To date, exploratory and technological studies on experimental animals have been carried out to justify and select ozone-containing dosage forms based on the use of environmentally friendly and biocompatible ozone-containing components in different phase states.

Technological schemes and ozone-ultrasonic techniques have been developed for treating the bronchopulmonary system of patients affected by an infectant, and technological and acoustic parameters and modes of ozone-ultrasonic exposure to biological tissues have been optimized.

Ultrasound devices, instruments and devices for the implementation of the “Method for SARS Coronavirus Suppression” were developed and put into serial production: Ozotron gas ozone therapy apparatus (LLC NPF Metromed, Omsk), ultrasonic inhaler Berdsk-UltraAeroil (ZAO "Rakus-N", Novosibirsk), ultrasonic inhaler "Vulcan-1" (PO "Utes", Ulyanovsk), ultrasound device otorhinolaryngological "TONZILLOR" (OJSC "Omsk plant" Automation ", Omsk).

The proposed method for suppressing atypical pneumonia coronavirus along with generally accepted treatment methods will increase the efficiency of suppression of atypical pneumonia coronavirus and associated pathogenic microflora, enhance detoxification of the infection site and gastrointestinal tract and, in addition, immunocorrection of the body during treatment of the patient, which ultimately will reduce the time for treatment treatment and drug load on the patient.

The claimed invention will accelerate the improvement, development and implementation (upon receipt in the prescribed manner of the relevant permits of the Ministry of Health of the Russian Federation) of new bio- and medical technologies, methods and methods for the prevention and treatment of other types of dangerous and especially dangerous infections, and especially those that affect the bronchopulmonary system of the body .

Claims (2)

1. A method of suppressing atypical pneumonia coronavirus, including ultrasonic inhalation with an aerosol of an ozonide-containing drug substance in the form of a mixture of ozonized vegetable oil and water, characterized in that, at the stage of the active phase of the pathological process in the bronchopulmonary system, an ultrasonic inhalation procedure is carried out for at least two sessions per day highly dispersed aerosol in the form of ozonized vegetable oil with a peroxide number for ozonides P = 800-900 and with an aerosol particle diameter of 0.3-0.5 microns, and after To stop the swelling of the tissues of the bronchopulmonary system and at the stage of regeneration of the foci of infection, up to clinically confirmed indicators of patient recovery, at least two sessions per day, the ultrasonic inhalation procedure is first carried out with a highly dispersed aerosol in the form of a 20% ozonized oil-in-water oil emulsion with a peroxide number P = 200 and with an aerosol particle diameter of 0.3-0.5 μm, and then an ultrasonic inhalation procedure with a medium-dispersed aerosol in the form of an ozonized vegetable oil with a peroxide number ozonide of P = 800-900 and a particle diameter of 5.0-10.0 microns, wherein each ultrasonic inhalation procedure is conducted for at least 10 min. 2. The method according to claim 1, characterized in that every day before the clinically confirmed indicators of recovery, the patient is prescribed an ozonide-containing drug substance in the form of an ozonized vegetable oil with a peroxide number for ozonides P = 800-900 in an amount of 5 ml or 20% - an ozonized oil emulsion of the oil-in-water type with a peroxide value up to P = 200 in an amount of 100 ml.