RU2067005C1 - Device for creation of hypoxia - Google Patents

Abstract

FIELD: medical equipment, in particular, devices for creation of hypoxia in the patient's organism for medical and prophylactic purposes. SUBSTANCE: adsorber is made in the form of a body part connected through a pipe union to the member for connection to the patient's respiratory system made in the form of a mouth-piece, face mask or bit. The body part through the pipe union and connecting member in the form of a flexible tube is connected to a respiratory vessel made of nonextensible and gasproof material for adjustment of its volume. A scale of vessel volume filling is made on the vessel surface. a regulator is provided for adjustment of the connecting member flow section. EFFECT: improved design. 7 cl, 1 dwg

Description

 The invention relates to medical equipment, namely to devices for creating hypoxia in the patient's body for therapeutic or prophylactic purposes.

Known breathing apparatus for creating hypoxia, containing a mask, valve box, adsorber and respiratory reservoir [1]
However, in this apparatus, soda lime is used as an adsorbent, which is a chemical absorber of carbon dioxide, i.e. the gas that has a therapeutic effect in hypoxia.

A device for creating hypoxia is also known, containing an adsorber in the form of a body part filled with an adsorbent, with two fittings, one of which is connected to an element for connecting to the patient’s respiratory system, and the other is connected via an connecting element to the outlet element of the respiratory container made of a gas-tight material , and regulator of the through section [2]
The disadvantages of the known device adopted as a prototype are its low efficiency, due to the fact that the mass of toxic volatile metabolic products formed in the body, such as acetone, ammonia, formaldehydes, ketones, etc. remain not neutralized during a session of hypoxic exposure and their concentration increases in the isolated respiratory volume of the apparatus and, therefore, in the patient’s blood. In addition, the design of the known device does not allow individually selecting for each patient, depending on the vital capacity of his lungs and general condition, the rate of increase in hypoxia, the possibility of soda lime microparticles getting into the patient's respiratory tract with chemical damage to the bronchial epithelium is not completely ruled out. Another disadvantage of this device is the impossibility of regulating breathing resistance, since it is known that increased breathing resistance, especially when exhaling, has a beneficial effect on the condition of the patient's bronchopulmonary system in bronchial asthma. In addition, the device is inconvenient in operation due to labor-intensive disinfection.

 The problem to which the present invention is directed is the development of a device for hypoxia, which provides an increase in the degree of purification of exhaled air from toxic volatile metabolic products, providing individual adjustment of respiratory resistance and respiratory capacity, depending on the individual characteristics of the patient and his condition, as well as the possibility of disinfection respiratory capacity and simplify the design of the device and its manufacturing technology.

 To achieve the technical result, in a device for creating hypoxia containing an adsorber in the form of a body part filled with an adsorbent, with two fittings, one of which is connected to an element for connection to the respiratory system of the patient, and the other is connected via an connecting element to the outlet element of the respiratory capacity, made of gas-tight material, and the regulator of the passage section, the respiratory capacity is made of flexible inextensible material with the possibility of fixation and regulation ation volume, and control the flow section is located in the connection element.

 In addition, the respiratory capacity is equipped with a volume regulator, made in the form of two strips placed on the side opposite to the output element of the container and fastened at the ends.

 In addition, one of the strips is mounted on the wall of the tank with the possibility of rotation relative to the latter.

 In addition, the ends of the strips are fastened by means of respectively articulated and detachable joints.

 In addition, the ends of the planks are fastened by rings made of elastic material and spanning the ends of the planks.

 In addition, the tank is made open from the side of the planks.

 These signs are essential and interconnected causal relationship with the formation of a set of essential features necessary and sufficient to achieve the specified technical result.

 The drawing shows a General view of a device for creating hypoxia.

 The device contains an adsorber made in the form of a body part 1, filled with adsorbent 2, the most effective of which is activated carbon fabric of the “AUT-M” type. The advantage of this fabric is its large sorption capacity, due to its high microporosity, sufficient mechanical strength, and the possibility of regeneration by heat treatment, which is especially effective when using the device for individual purposes, for which case the body part 1 can be detachable by means of a quick disconnect 3, for example, bayonet or eccentric clamp, screw connection.

 The housing part 1 by means of the fitting 4 is connected to the element 5 for connection to the respiratory system of the patient, made in the form of a mouthpiece, face mask or mouthpiece. The most convenient is a facial mask. On the other hand, part 1 is connected via a fitting 6 and a connecting element in the form of an elastic tube 7 to a breathing tank 8, which is made of inextensible and gas-tight material, with a device 9 for regulating its volume.

 For ease of use, a scale 10 of the volume of its filling is made on the surface of the container. To regulate the bore on the connecting element, in particular, on the tube 7 is installed regulator 11 bore. The controller 11 can be made in the form of a Mohr clamp, or washers (diaphragms) with calibrated holes, or a connector. The regulator 11 can also be installed in the input element 12 or in the nozzle 6. The input element 12 of the tank 8, as well as the nozzle 6, is connected to the elastic tube 7 by means of a quick detachable connection 13 made in the form of a shoulder.

 According to the invention, in one embodiment, the volume controller 9 is made in the form of a strap 14 to which a part of the container 8 is attached, and a clamping bar 15 for attaching it to the strip 14 with a part of the container 8 screwed onto it, which, in one embodiment, is in the place of attachment to her strap 14 can be made open to allow removal of condensate from the tank 8 and to ensure disinfection.

 In another embodiment, the bar 14, as well as the bar 15 may not be attached to the tank 8. In this case, the change in the volume of the tank is achieved by screwing both walls of the tank 8 from its open end to the bar 14 to obtain the desired volume and then fixing this position by the connection of the strap 14 with the strap 15. The connection of the straps to each other is made quick-release, for example, using two elastic rings spanning the ends of the straps 14 and 15 with the possibility of pressing one strap against the other. This is the most reliable and easiest way to control the volume of the tank 8.

 A device for creating hypoxia works as follows. Before the session, both walls of the respiratory capacity 8 are screwed onto the strap 14 to the desired scale level 10. In all cases, the selected volume of the capacity 8 should be greater than the vital capacity of the patient's lungs. Then the patient, breathing air from the atmosphere, exhales it into the mask 5. The air through the nozzle 4 passes through the adsorbent 2 located in the adsorber, is cleaned of volatile toxic metabolic products. Then through the nozzle 6, tube 7, element 12, air enters the respiratory reservoir 8. After filling the reservoir 8 with air, the patient passes to breathing through the mask 5. Moreover, if a mouthpiece or mouthpiece is used, but the mouthpiece or mouthpiece, then the patient’s nose must be preliminarily closed with a nose clip (not shown in the drawing). When breathing through the mask 5, the air during exhalation passes through the device as described above, and when inhaling in the reverse order, re-cleaning in the adsorber, passing through the adsorbent 2. With each act of inhalation-exhalation, the oxygen content in the air that the patient breathes decreases, and the carbon dioxide (carbon dioxide) content is increasing, i.e. hypoxia with hypercapnia is created, which has a healing and training effect. In this case, the air is largely purified from volatile toxic metabolic products, passing repeatedly through adsorbent 2.

 The rate of increase in hypoxia is determined by the size of the respiratory capacity 8, the larger the volume of the respiratory capacity, the more smoothly and slowly the patient enters hypoxia. Mild hypoxic training is performed with a large volume of respiratory capacity in elderly patients, with cardiorespiratory failure in debilitated patients.

The oxygen content in the respiratory capacity is constantly decreasing, and the concentration of carbon dioxide is increasing so much that the patient begins to feel difficulty breathing despite its deepening and increasing frequency. This serves as a signal to end the session. After 3-4 breaths, the air normalizes. A hypoxia session can be repeated. If there are indications for a combination of hypoxic effects with an increase in respiratory resistance, for example, with bronchial asthma, then reduce the cross section of the tube 7 to the required value, in particular with a screw 11, or a calibrated washer, or connector. During operation of the device, the adsorbent 2 is constantly saturated with volatile metabolic products and after some time, which is determined by the type of adsorbent, it must be replaced or regenerated. The regeneration process also depends on the brand (type) of adsorbent used. For activated carbon tissue, heating from 111 to 400 ^{° C.} or boiling in water with subsequent drying is possible. If the body part 1 is made of metal, then the thermoregeneration of the adsorbent can be carried out without removing it from the body part, which increases its service life. Respiratory container 8 can be washed and disinfected through the open end.

 The use of this device for medical and preventive purposes is possible not only in a hospital setting, but also in domestic. The design of the device allows for individual selection of the volume of the respiratory capacity, depending on the vital capacity of the lungs and the general condition of the patient.

 The device is structurally simple to manufacture, allows multiple regeneration of the adsorbent, eliminates intoxication of the body with volatile toxic metabolic products. The design of the device allows you to combine in one process the effect of hypoxia with increased resistance to breathing. In addition, the device is convenient to operate, easily disinfected and washed.

Information sources
1. USSR author's certificate N 1335294, cl. A 61 M 16 \ 00, 1985.

 2. The patent of Germany N 4117168, cl. A 62 V 19 \ 00, 1992.

Claims (7)

 1. A device for creating hypoxia containing an adsorber in the form of a body part filled with an adsorbent, with two fittings, one of which is connected to an element for connecting to the patient’s respiratory system, and the other is connected via an connecting element to the outlet element of the respiratory container made of gas-tight material , and an orifice regulator, characterized in that the respiratory capacity is made of flexible inextensible material with the possibility of fixing and regulating the volume, and the regulator rohodnogo section is located in the connection element.  2. The device according to claim 1, characterized in that the respiratory capacity is equipped with a volume regulator made in the form of two strips placed on the side opposite to the output element of the container and fastened at the ends.  3. The device according to paragraphs. 1 and 2, characterized in that one of the strips is mounted on the wall of the tank with the possibility of rotation relative to the latter.  4. The device according to paragraphs. 1 and 2, characterized in that the ends of the strips are fastened by means of respectively articulated and detachable joints.  5. The device according to paragraphs. 1 to 3, characterized in that the ends of the strips are fastened by rings made of elastic material and covering the ends of the strips.  6. The device according to paragraphs. 1 to 5, characterized in that the tank is made open from the side of the placement of the strips.  7. The device according to paragraphs. 1 and 2, characterized in that the tank is made open from the side of the placement of the strips.