RU2656198C2 - Medical antibacterial mask, way of its manufacturing and way of application - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical mask having antimicrobial and antibacterial effect, including against mycobacteria tuberculosis; to the method of its manufacture and application. Proposed mask is medical antibacterial, possessing antimicrobial and antibacterial action, including in relation to mycobacteria tuberculosis, can be used in general medical practice for individual protection of respiratory organs from infections transmitted by airborne droplets. It is especially effective in pulmonology, tuberculosis dispensaries, in places of deprivation of liberty, in situations when there is a high risk of tuberculosis. Medical antibacterial mask is a three-layer medical mask of spunbond, ultrasound treated, a solution containing components: 20 ml of hydrogen peroxide, 200 ml of 6 % food vinegar; 2 ml of colloidal silver, 6 ml of a mixture of 100 % natural essential oils (2 ml of essential oil of tea tree, 2 ml of essential oil of thyme, 2 ml of essential oil of eucalyptus), diluted in alcoholic tincture of hawthorn in a ratio of one to five, water to a volume of 1 liter, past drying, vacuum drying and packed in individual packaging. Method of manufacturing the medical mask differs from those previously known in that it includes the ultrasound treatment of a multi-layer blank for a mask of a medical antibacterial nonwoven material with a solution containing hydrogen peroxide, food vinegar, colloidal silver, mixture of 100 % natural essential oils (essential oil of tea tree, essential oil of thyme, essential oil of eucalyptus), diluted in alcoholic tincture of hawthorn, its further pressing, drying by vacuum and individual packing, which guarantees defense against penetration of water, oxygen and light. Method of applying a medical antibacterial mask according to 1, according to which it is used for personal protection, individual protection of the respiratory tract from airborne infections, including from mycobacteria tuberculosis.

EFFECT: medical antibacterial mask, way of its manufacturing and way of application is proposed.

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Description

The invention relates to a medical mask with antimicrobial and antibacterial action, including against tuberculosis mycobacteria; to the method of its manufacture and application.

Technical result: a medical antibacterial mask is described that has antimicrobial and antibacterial action, including in relation to tuberculosis mycobacteria, which can be used in general medical practice for individual protection of respiratory organs from airborne infections.

The invention relates to medicine and can be used in general medical practice, especially in pulmonology, tuberculosis dispensaries, in prisons, in situations where there is a high risk of tuberculosis.

A known method of manufacturing a facial mask (Patent for invention No. 2426484. March 11, 2010. Authors Zharikov VM, Sharapov D.G.).

The invention relates to the manufacture of medical masks and is directed to the use of nanotechnology for individual effective bactericidal protection, namely the prompt production of a colloidal solution of silver nanoparticles in water with the simultaneous impregnation of fabric blanks of masks in it. A method of manufacturing a medical mask includes sewing a mask blank from a woven material, impregnating it in a colloidal solution of silver nanoparticles, increasing the adhesion of silver particles to the mask fabric. A colloidal solution for impregnation, impregnation, and increased adhesion are performed in parallel with the destruction of the silver target by pulses of focused laser radiation on copper vapor by placing blanks of masks and a silver target in a cuvette with water and delivering laser radiation to the target through a window in the bottom of the cuvette. The advantages of the proposed method - the processes of obtaining and using the solution take place simultaneously, it does not require an additional ultrasonic generator, the absence of negative side effects when using a solution of silver nanoparticles.

The disadvantages of the analog method of manufacturing masks are:

1. Data on the state of antimicrobial activity of the mask with repeated use are not given;

2. Data on the effectiveness and safety of this type of mask in patients with diseases of the bronchopulmonary system, including the effect on external respiration functions, are not given;

3. The difficulty of determining the dosage of silver nanoparticles;

4. There is no data on the effect of tuberculosis mycobacteria on the vital activity - is there anti-tuberculosis activity of masks;

5. Potential hazard of laser plume particles.

The technical result consists in the development of a new type of medical mask with its own antimicrobial and antibacterial prophylactic activity for the individual protection of the respiratory system from airborne infections, including mycobacterium tuberculosis.

The technical result is achieved by sewing and processing a multilayer blank of non-woven material for a facial medical mask with a solution having antimicrobial and antibacterial activity, completely inhibiting the growth of bacteria strains St. Aureus, St. Epidermis, Pseudomonas aeruginosa, E Coli and prophylactic against tuberculosis mycobacteria. The solution contains hydrogen peroxide, food vinegar, colloidal silver, a mixture of 100% natural essential oils (tea tree essential oil, thyme essential oil, eucalyptus essential oil) diluted in hawthorn tincture of alcohol.

Method of manufacture: a multilayer preform is sewn from a non-woven material for a facial medical mask, then the preform is impregnated with ultrasound with a solution that includes: hydrogen peroxide, food vinegar, colloidal silver diluted in alcohol tincture of hawthorn, a mixture of 100% natural essential oils (tea essential oil wood, thyme essential oil, eucalyptus essential oil). After that, the billet undergoes operations of extraction and drying by vacuum, behind-the-ear loops are welded, and the finished mask is individually packaged. A special film is used for packaging, which guarantees against penetration of water, oxygen and light.

The method of using a medical antibacterial mask with antimicrobial and antibacterial effects, including in relation to mycobacterium tuberculosis, differs from previously known in that each individual mask is used to protect the respiratory tract more than once. The duration of the total wear is 24 hours, followed by replacement with another mask.

The method is illustrated by the following examples.

Example 1

The manufacture of a medical antibacterial mask with antimicrobial and antibacterial effects, including in relation to mycobacterium tuberculosis, consists in ultrasonic treatment of a cross-linked multilayer blank of a medical mask from a non-woven material with a solution. The solution contains hydrogen peroxide, food vinegar, colloidal silver, a mixture of 100% natural essential oils (tea tree essential oil, thyme essential oil, eucalyptus essential oil) diluted in hawthorn tincture of alcohol. After impregnation, the mask blank is pressed and dried by vacuum, the ear loops are welded to the blank and the finished mask is individually packaged. For packaging, a film is used that guarantees the penetration of water, oxygen and light.

The proposed composition of the solution includes: hydrogen peroxide, food vinegar, colloidal silver, a mixture of 100% natural essential oils (tea tree essential oil, thyme essential oil, eucalyptus essential oil) diluted in alcohol tincture of hawthorn with the following components in ml:

20 ml of hydrogen peroxide;

200 ml of 6% food vinegar;

2 ml of colloidal silver;

6 ml of a mixture of 100% natural essential oils (2 ml of tea tree essential oil, 2 ml of thyme essential oil, 2 ml of eucalyptus essential oil);

300 ml of alcohol tincture of hawthorn (for dilution of oils);

water up to 1 liter

Solution preparation

Pre-prepared water that meets pharmacopoeial requirements is poured into the reactor. Then, hydrogen peroxide, six percent food vinegar, colloidal silver, previously diluted in an alcohol tincture of hawthorn, a mixture of 100% natural essential oils (tea tree essential oil, thyme essential oil, eucalyptus essential oil) are successively added. The mixture of ingredients is thoroughly mixed and fed into the apparatus for processing the workpiece masks.

Mask making

A cross-linked multilayer blank for a medical face mask made of non-woven material is immersed in a solution of the specified composition and sonicated for five minutes, vacuum dried, ear loops are welded, and the finished mask is packed in a special individual package, which guarantees the penetration of water, oxygen and light.

A method of manufacturing a medical antibacterial mask differs from previously known in that it was made using an original solution having antimicrobial, bactericidal and anti-tuberculosis properties. The composition of the solution includes 100% natural essential oils, previously dissolved in alcohol tincture of hawthorn, food vinegar, colloidal silver and hydrogen peroxide. Processing a cross-linked multilayer preform for a facial medical mask with this solution is carried out by ultrasound for 5 minutes. Drying is carried out by vacuum. The mask is individually packaged in a special film, which guarantees the penetration of water, oxygen and light.

The reliability of the possibility and effectiveness of using a medical antibacterial mask is confirmed by the conclusions of research and clinical organizations. Such as the Federal Medical and Biological Agency (FSBIH Research Institute of FHM FMBA of Russia), the National Scientific Center for Toxicological and Biological Safety of Medical Devices (Moscow), the bacteriological laboratory of the Municipal Hospital “City Hospital No. 4” (Saransk), the MBUZ “Maykop City Clinical Hospital (Maykop), State Institution “Republican TB Dispensary” (Republic of Mordovia, Saransk).

The Federal Service for Supervision of Healthcare issued Registration Certificate No. ФСР 2012/14087 dated November 20, 2012, which confirms that the medical device has medical antibacterial masks that are authorized for production, sale and use on the territory of the Russian Federation for an unlimited time.

Example 2

In the testing laboratory (center) of the Federal State Budget Scientific Institution Scientific Research Institute of Physical and Chemical Medicine of the FMBA of Russia, biomedical tests of medical antibacterial masks were carried out. The purpose of biomedical testing was to determine the effectiveness of the antimicrobial and antibacterial action of medical antibacterial masks.

The antimicrobial and antibacterial action of medical antimicrobial masks was studied by applying a bacterial suspension of S. Aureus, E. Coli, P. Aeruginosae cells with a concentration of 10 ⁵ -10 ⁶ CFU / ml on the surface of the masks, followed by incubation for 60 minutes. After incubation, fragments of masks were placed in a liquid nutrient medium, which was then plated on Petri dishes with MSA and MPA. The control (suspension of cells for application to masks) and the experimental medium were diluted 10 times for the convenience of counting colonies on Petri dishes. After counting on an experimental medium, the growth of colonies is negligible. Conclusion: medical antibacterial masks have antimicrobial and antibacterial effects.

Example 3

The National Scientific Center for Toxicological and Biological Safety of Medical Devices in the Toxicologist Testing Laboratory conducted research on medical antibacterial masks in accordance with TU 9398-001-304770000179951-2012. The studied masks are designed to protect against infections transmitted by airborne droplets and for use in medicine (especially effective in phthisiology), the food industry, as well as in everyday life. The processing of the studied masks was carried out in the following composition: hydrogen peroxide, food vinegar, colloidal silver, tincture of hawthorn, in which tea tree essential oils were dissolved, thyme essential oil and eucalyptus essential oil.

The results of sanitary-chemical tests showed that the content in the extracts from samples of reducing impurities, expressed in a volume of 0.02 N. a solution of sodium thiosulfate spent on their determination ranges from 0.90 ml to 0.98 ml (acceptable - 1.00 ml.). The change in the pH value of the extracts in comparison with the control is in the range from 0.26 to 0.74 (permissible - + / - 1.00). Using high performance liquid chromatography, it was found that formaldehyde in extracts was not detected within the sensitivity range of 0.05 mg / L (acceptable - 0.10 ml).

Toxicology Test Results

In a subacute toxicological experiment in rabbits, with repeated installation of extracts from samples onto the mucous membranes of the rabbit's oral cavity, no irritating effect was detected. There were no clinical symptoms of intoxication in animals.

findings

Medical antibacterial masks for toxicological and sanitary-chemical indicators meet the requirements for medical devices in contact with the skin and mucous membranes. The studied masks are non-toxic, meet the requirements of regulatory documentation.

Example 4

The study of the antimicrobial and bactericidal activity of the solution for treating a medical antibacterial mask.

In May 2012, the antibacterial activity of the test solution was studied in the bacteriological department of the Central Clinical Hospital of the Municipal Clinical Hospital No. 4 of the city district of Saransk, which was used to impregnate medical antibacterial masks.

Bacteriological research was carried out on standard strains of St. bacteria. aureus, St. epidermidis, Pseudomonas aeruginosa, E. coli. Suspensions of standard strains in a concentration of 1 × 10 ¹⁰ bacteria in a volume of 3 ml were sown on medium (blood agar, milk-yolk-salt agar - MZHSA). After 24 hours, abundant bacterial growth was detected in Petri dishes in all cases. Next, to a standard microbial suspension of the same microorganisms, 1 ml of the test composition was added to the test tube, incubated for 24 hours in an incubator, and again sowing on the same medium was carried out. After 24 hours, colony growth was assessed. On blood agar, after 24 hours, a single colony growth of St. Aureus. Colony Growth epidermidis, Pseudomonas aeruginosa, E. Coli 24 hours after the addition of the test solution on nutrient media was not observed.

Thus, the solution of the studied composition has a pronounced antimicrobial activity, completely inhibits the growth of strains of bacteria St. aureus, St. epidermidis, Pseudomonas aeruginosa, E. Coli in high concentrations (concentration of microbial bodies 1 × 1 ¹⁰ in 1 ml of culture).

Example 5

Investigation of the ability of a medical antibacterial mask to inhibit the growth of mycobacterium tuberculosis.

A study of the ability of a medical antibacterial mask to inhibit the growth of tuberculosis mycobacteria was carried out on the basis of the State Institution “Republican Tuberculosis Dispensary”, Republic of Mordovia, Saransk. The study involved 5 patients with fibro-cavernous tuberculosis, infiltrative tuberculosis with positive seeding of mycobacterium tuberculosis.

Prior to the study, patients underwent the following examination:

1. Assessment of the clinical condition of the patient;

2. The study of peak flowmetry;

3. Research of the general analysis of blood, urine;

4. Sputum analysis.

At 9 o’clock in the morning, all patients after peak flow measurements, heart rate studies, and blood pressure measurements suggested putting on a medical face mask and using it for three hours. Then repeated measurements of heart rate, blood pressure and peak flowmetry were performed. Then they suggested using a medical antibacterial mask for three hours, examined the forced expiratory flow rate, blood pressure, heart rate with a peak flow meter,

All examined patients revealed the release of mycobacterium tuberculosis in sputum.

The structure of the diagnosis of patients noted: fibro-cavernous tuberculosis of the upper lobe of both lungs, the phase of infiltration and bronchogenic seeding 1 A MBT (+) - one patient. Infiltrative tuberculosis of the right lung in the phase of disintegration and bronchogenic seeding, complicated by caseous pneumonia of LSN II-III, MBT (+) - one patient, infiltrative tuberculosis of the right lung, decay phase, bronchogenic seeding of MBT (+) IA gr. - one patient. Infiltrative tuberculosis S1-S2 of the upper lobe of the right lung in the phase of decay and bronchogenic seeding I A, MBT (+) - one patient. The structure of the disease of the examined patients was dominated by patients with chronic catarrhal obstructive bronchitis, chronic obstructive pulmonary disease.

An individual registration card was used to evaluate the effectiveness and safety of the medical antibacterial mask.

Allergic manifestations were evaluated. Local (itching, hyperemia, scratching), general - (sneezing, coughing, difficulty breathing), subjective tolerance, the comfort of wearing a mask for a longer time and other indicators.

It should be noted the good tolerance of the studied masks in all patients, which leads to a high degree of patient's ability and desire to wear a medical antibacterial mask. In either case, neither general nor local side effects were detected. The use of masks did not impede the breathing of patients. Peak flowmetry results showed that prior to the study, the peak expiratory flow rate in patients with chronic lung diseases was reduced from 70 to 140 l / min. Against the background of complex therapy conducted by patients in accordance with the individual prescription of a doctor, the use of masks contributed to an increase in peak expiratory flow rate to 256.67 ± 57.15 l / min, i.e. almost doubled. While in patients who did not use masks, this indicator was only 154.83 ± 41.2 l / min. In patients with initially high rates of peak expiratory flow, the data did not change and remained at the same level.

Spirographic studies revealed in all patients with chronic lung diseases significant restriction or mixed type of impaired ventilation function of the lungs. When re-examining the function of external respiration after a comprehensive treatment, a decrease in the degree of bronchial obstruction was observed.

Subsequently, we carried out a study of swabs from the front and outside of the mask for the content of nonspecific and specific microflora. In washouts from a normal mask, growth of mycobacterium tuberculosis was detected both on the external and on the front of the mask in all five patients. In washouts on both sides of the masks of medical antibacterial growth of mycobacterium tuberculosis was not detected in any case.

Thus, the test solution of the present composition, in addition to having a pronounced antimicrobial activity, completely inhibits the growth of bacteria strains St. aureus, St. epidermidis, Pseudomonas aeruginosa, E. Coli in high concentrations (concentration of microbial bodies 1 × 10 ¹⁰ in 1 ml of culture) also inhibits the growth of tuberculosis mycobacteria. Medical antibacterial masks treated with this solution have antibacterial and antimicrobial effects under two days of constant wear, improve external respiration, inhibit the growth of mycobacterium tuberculosis and are an effective means to protect personnel and those in contact with tuberculosis-infected bacilli.

The results of the study are likely to be associated with the effect of the total effect in just such a combination of components that enter the solution with which the masks were processed.

So, for example, the bactericidal effect of colloidal silver is well known.

Being powerful natural solvents, essential oils easily penetrate into the blood and lymph vessels, find and simplify complex molecular complexes of toxins, and remove them from the body. It is these properties that allow them to directly participate in metabolic processes of a very different level: from cellular to organ and systemic. Natural essential oils are multicomponent organic compounds. This leads to their unique biological properties: antiseptic, antiviral, bactericidal, anti-inflammatory, immunomodulating. For example, the antiseptic activity of tea tree essential oil is 100 times higher than the antiseptic properties of carbolic acid, and is harmless to humans. This oil is a powerful oncoprotector. It also has antiviral, antifungal, antimicrobial and anti-inflammatory effects. Moreover, in 1937 it was discovered that in the presence of blood, pus and other substances of organic origin, the antiseptic properties of this oil increase by 10-20%. Thyme essential oil is a powerful antiseptic. It has bactericidal, antiviral, antiparasitic, anti-inflammatory, analgesic, antispasmodic, expectorant, stimulating blood formation, normalizes the activity of the central and autonomic nervous system, strengthens the immune system. Eucalyptus essential oil is one of the best natural respiratory antiseptics. Eucalyptus essential oil is used as an antiseptic, bactericidal, antiviral, analgesic, sedative, disinfectant, anti-inflammatory, expectorant, thinning bronchial secretion, antipyretic, immunostimulating, antitumor agent.

Example 6

Clinical trials of medical antibacterial masks took place from August 6 to September 20, 2012 at the pulmonology department of the Maykop City Clinical Hospital.

The purpose of the tests is to assess the feasibility and effectiveness of the use of medical antibacterial masks in medical practice.

For testing were presented:

- samples of medical antibacterial masks;

Copy of test report No. 12-182 of May 23, 2012 (IC MI ANO "VNIIIMT");

- instructions for use;

- Toxicological conclusion No. 77-12 of 05.16.2012 (IL "Toxicologist" of the National Scientific Center for Toxicological and Biological Safety of Medical Devices);

- Technical conditions (normative document) TU 9398-001-304770000179951-2012 (IC MI ANO "VNIIIMT");

- Information about the product.

The masks are made of a three-layer spunbond material and are impregnated with a solution of antibacterial and antiviral effects. The composition of the solution for masks includes: hydrogen peroxide, food vinegar, colloidal silver, a mixture of essential oils (tea tree essential oil, thyme essential oil, eucalyptus essential oil), diluted in alcohol tincture of hawthorn, water. All of these ingredients meet the requirements of the relevant regulatory and technical documentation.

Medical tests were carried out in operating mode from 8 ⁰⁰ to 17 ⁰⁰ hours, i.e. in the conditions of the real work of the staff in the pulmonology department of MBUZ "Maykop City Clinical Hospital".

Prior to the study, patients underwent the following examination:

Assessment of the clinical condition of the patient.

Peak flowmetry study.

At 8 o’clock in the morning, all patients, after peak flow measurements, heart rate studies, blood pressure, were offered to wear a medical mask and use it for 3 hours. Then repeated measurements of heart rate, blood pressure and peak flowmetry were performed. After which they again proposed to use medical antibacterial masks for three hours, examined the forced expiratory flow rate, heart rate, and blood pressure with a peak flow meter.

This alternation of wearing masks continued until repeated measurements of heart rate, blood pressure, forced expiratory flow rate until 17 pm.

It should be noted that medical masks were changed to new ones every time, and medical antibacterial masks were used the same for two days.

To assess the effectiveness and safety of the study conducted an individual registration card.

Allergic manifestations were evaluated. Local (itching, hyperemia, scratching), general (sneezing, coughing).

The results of the study showed that medical antibacterial masks have very good tolerance. Against the background of complex therapy, in all patients wearing the studied masks, the peak speed almost doubled, a significant decrease in the degree of bronchial obstruction was observed.

The accompanying documentation is presented in full and in accordance with applicable standards.

Patients have written consent for research.

In the process of testing, it was found that the product meets its intended purpose. During the test period, patients with the following pathology were treated.

Output

Medical antibacterial masks have shown their reliability and safety: They do not cause an allergic reaction, are well tolerated by patients, have their own bactericidal effect for two days under constant wear, do not worsen external respiration, inhibit the growth of mycobacterium tuberculosis and are an effective means to protect staff and others, in contact with bacillus-releasing patients with tuberculosis.

Claims (9)

1. Medical antibacterial mask for individual protection of respiratory organs from infections transmitted by airborne droplets, including mycobacterium tuberculosis, which consists in the fact that it is a medical mask of non-woven material, impregnated using ultrasonic waves with a solution containing components in ml: 20 ml of hydrogen peroxide; 200 ml of 6% food vinegar; 2 ml of colloidal silver; 6 ml of a mixture of 100% natural essential oils (2 ml of tea tree essential oil, 2 ml of thyme essential oil, 2 ml of eucalyptus essential oil); 300 ml of alcohol tincture of hawthorn (for dilution of oils); water up to 1 liter 2. A method of obtaining a medical antibacterial mask according to claim 1, including sewing a multilayer blank of non-woven material, impregnation using ultrasound with a solution obtained by adding hydrogen peroxide, 6% food vinegar, colloidal silver, a mixture of 100% natural essential oils (essential tea tree oil, thyme essential oil, eucalyptus essential oil), diluted in alcohol tincture of hawthorn, followed by extraction, extraction, vacuum drying and individual packaging. 3. A method of protecting the respiratory system from infections, which consists in applying a medical antibacterial mask to the face according to claim 1.