RU2131749C1 - Method and device for treatment of respiratory tracts - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: prior to arrival at respiratory tracts, aerosol flow is irradiated by scattered laser light at wave length of 633 nm. Time of irradiation is 10-15 min. Rate of flow equals 5-15 mW/sq.cm. Device has ultrasonic-frequency generator, source of medicinal aerosol, flexible hose and mask. Hole is made in mask, on level of hole for flexible hose 3-5 mm away from it. Channel is secured in that hole for arrangement of light guide and control of irradiation mode. EFFECT: enhanced efficiency of treatment. 1 tbl, 1 dwg

Description

 The invention relates to methods and devices for administering drugs to the human body and can be used in pulmonology for the treatment of the respiratory tract.

A known method of treating diseases of the respiratory tract, which consists in exposure to the mucous membrane of the respiratory tract with low-intensity laser radiation. (1). In accordance with this method, a fibrobronchoscope is inserted into the airways, to the eyepiece of which a helium-neon laser (wavelength 633 nm) is connected. Irradiation of the trachea and bronchi is carried out for 5 to 10 minutes at a light flux density of 10 to 30 mW / cm ² . The procedure is carried out for 1 to 5 sessions.

 Despite the high efficiency of treatment, the method does not exclude, however, the development of severe complications associated with trauma to the surface of the mucosa. In addition, the implementation of the method requires expensive equipment and highly qualified personnel, as well as special preparation of the patient. The cost of one manipulation costs 25-50 thousand rubles.

 The most common in the treatment of diseases of the respiratory tract was the method of aerosol therapy, selected by the authors as a prototype. The therapeutic effect is obtained by inhalation of stable finely dispersed aerosols of drugs in the tracheobronchial tree that have a pharmacological effect on the mucosa of the airways (2).

 However, due to the fact that the result of treatment appears after repeated and prolonged exposure to the mucous membrane of the respiratory tract, the method has a very low efficiency.

 Therefore, the objective of the invention is to increase the effectiveness of the treatment of diseases of the respiratory tract.

The problem is solved in the proposed method of treatment using aerosol therapy, in which the aerosol stream is exposed to scattered laser light with a wavelength of 633 nm for 10 to 15 minutes at a flow rate of 5 to 15 mW / cm ² .

 To do this, in the known device (3) containing an ultrasonic frequency generator, a source of medicinal aerosol, a flexible hose and a mask, at the level of the hole for the flexible hose in the mask, at a distance of 3-5 mm from it, a hole is made in which the channel is fixed and placed it has a fiber with the ability to adjust the irradiation mode depending on the nature of the drug used.

 Due to the Tyndall effect, scattered laser radiation spreads through the fine particles of an aerosol filling the tracheobronchial tree.

The wavelength and exposure parameters are selected experimentally. When the flow rate is less than 5 mW / cm ^{2 the} therapeutic effect of the use of irradiated aerosol is reduced. A flux density above 15 mW / cm ² is not practical to maintain. The duration of irradiation is also selected depending on the nature of the drug used for the aerosol. The optimal time for the procedure is 10 - 15 minutes. The channel for accommodating the fiber with the lens in the mask is performed at the level of the inlet for the flexible hose at a distance of 3-5 mm from it. This arrangement of the fiber allows the most efficient irradiation of the aerosol.

 The sources of scientific and patent information did not reveal information about the method and device for treating the respiratory tract with irradiated aerosol, therefore, the proposed technical solution meets the criteria of "novelty" and "technical level".

Treatment in accordance with the proposed method is carried out using the device shown in the drawing. In the mask 2, at a distance of 3-5 mm from the hole for the flexible hose 1, an additional hole 3 is made for attaching the channel with the optical fiber 4 and lens 5. In the additional hole, a special indicator is installed to prepare and configure the device for operation. After completing the settings, the indicator is removed and a channel with a light guide and a lens is installed in the hole. The patient is seated with a mask fixed to his face. Then simultaneously turn on the radiation source and the inhaler, which use a 3% solution of sodium bicarbonate. The aerosol stream obtained using an ultrasonic inhaler through a flexible hose enters a mask, where finely dispersed particles fall under the influence of low-intensity laser radiation at a wavelength of 663 nm and a flow power of 5 - 15 mW / cm ² for 10 - 15 minutes.

 The clinical effectiveness of the proposed method of treatment was investigated in three groups of patients with exacerbation of chronic bronchitis. All patients previously received expectorant herbal remedies - calcium glucanate and exercise therapy.

 In the first group of 47 patients, 9 to 12 treatment sessions were carried out according to the proposed method. In the second group of 18 patients, 5 sessions of tracheobronchial tree irradiation with laser light were performed through an Olympus fibrobronchoscope and 10 inhalations of 3% sodium bicarbonate solution each. In the third group, 35 patients underwent only aerosol therapy with 3% sodium bicarbonate solution (10 - 12 sessions). The study groups did not include patients older than 50 years, as well as with concomitant cardiac pathology. The effectiveness of the proposed method is illustrated in the table of the treatment results (see the end of the description).

 As can be seen from the treatment results in the table, the most effective is the method in which the treatment is carried out with direct irradiation of the mucosa. However, post-treatment complications in patients differ. The effectiveness of the proposed method of treatment is much higher than with simple aerosol therapy. In addition, the method does not require expensive equipment, highly qualified medical staff and special preparation of the patient before the procedure. During 529 treatment sessions, not a single case of the development of adverse reactions was noted.

Sources of information
1. T.E. Shakanova, R.L. Ivanova. Sanitation bronchoscopy in combination with helium-neon laser irradiation in chronic bronchitis. Health of Kazakhstan, 1990, N 2, p. 31-33.

 2. A. M. Kolosov. Aerosol therapy for lung diseases. Clinical Medicine, 1984, N 12, p. 112-118.

 3. Ultrasonic inhaler IUP-01M. Advertising of the Salyut enterprise, Nizhny Novgorod.

Claims (2)

1. A method of treating the respiratory tract using aerosol therapy, characterized in that before entering the respiratory tract, the aerosol stream is irradiated with scattered laser light with a wavelength of 633 nm for 10-15 minutes using a stream of 5-15 mW / cm ² .  2. A device for treating the respiratory tract, containing an ultrasonic frequency generator, a source of medicinal aerosol, a flexible hose and a mask, characterized in that at the level of the hole for the flexible hose in the mask at a distance of 3-5 mm from it, a hole is made in which the channel for placement of the fiber with the ability to adjust the exposure mode.

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