RU2193899C2 - Mask for carrying out treatment and prophylaxis - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has cylindrical casing one end of which is produced as facial mask covering airflow zone where the air moves through nose and mouth, the other end having opening for in- and exhaling. Lateral wall of the casing has a row of parallel holes arranged in perpendicular to cylinder generatrix and spaced 1-1.5 cm far from each other. Carbon dioxide and oxygen concentration is controlled in the inhaled gas mixture by closing these holes with plate or simply with patient fingers. EFFECT: enhanced effectiveness of treatment; prevented cellular hypoxia. 3 cl, 1 dwg

Description

 The invention relates to medical equipment and is intended for the formation and use of a therapeutic gas mixture in the breathing mode.

 The technical result is to obtain a therapeutic gas mixture of the necessary chemical composition directly during the patient's breathing through the mask.

The prototype is "DEVICE FOR TREATMENT AND PREVENTION OF THE RESPIRATORY AND BLOOD CIRCULATION BODIES" (Aut. Certificate. USSR 1607817, MKI A 61 M 16/00, Bull. 43, 1990), consisting of mask 1, bag 2 for temporary storage of exhaled air and a pipe 3 connecting elements 1 and 2, as well as regulating the concentration of oxygen and carbon dioxide in the inhaled air. The disadvantages of the device include: 1) the presence of three separate elements (mask 1, bag 2 and nozzle 3), 2) rigid fixation of the section of the hole in the nozzle before starting the inhalation procedure, 3) low accuracy of adjusting the concentration of CO ₂ in the inhaled air.

The objective of the invention is: 1) to simplify the design of the entire device, 2) to reduce its dimensions and weight, 3) to increase the accuracy of adjusting the concentration of CO ₂ and O ₂ in the inhaled air, and 4) to ensure the safety of the patient in cases when he falls asleep during therapeutic respiration, what happens quite often with many months of using the mask several times a day every day and is not undesirable.

 The problem is solved due to the fact that the treatment and prophylactic mask contains a rigid cylindrical hollow body, one end of which is made in the form of a face mask covering only the mouth and nose, and the other end has a large cross-section opening closed by a gas-permeable partition; at the same time, a series of parallel oval-shaped adjustment holes perpendicular to the generatrix of the cylindrical body are made in the side wall of the housing, and the adjustment holes are 1-1.5 cm apart. In addition, the design feature of the mask contributes to the solution, according to which it is semi-permeable to gas the partition is made of gauze in 2-3 layers.

 The drawing shows the proposed device. One end face of the hollow cylindrical body 1 is made in the form of a face mask 2, covering only the area of the mouth and nose, i.e. the path of the gas mixture, and the other end of the body has an opening 3 of large cross section, separated from the environment by a gas permeable partition 4 of gauze in 2-3 layers. In the side wall of the cylindrical body 1 there is a series of parallel oval holes 5, perpendicular to the axis of the cylinder (and its generatrix) and spaced 1-1.5 cm apart.

The mask is attached to the patient’s head with an elastic band or metal arms like glasses. Thus, the mixing chamber is almost "straight-through", as a result of which there is a good mixing of the stored gas with the incoming gas (unlike the prototype). Estimating the concentration of CO ₂ in the treatment mixture is quite simple, because The “working volume” of the mixing chamber is the area shaded in the drawing from the patient’s face to the upper cut of the last oval opening that remains open. By increasing the number of closed openings, the patient (on the recommendation of a doctor) also increases the concentration of CO ₂ entering the lungs. When a patient falls asleep during therapeutic respiration, which happens quite often, because the procedure is usually combined with rest lying down, the muscle tension of the patient’s arm decreases and the arm spontaneously opens all the holes "entrusted to her", as a result of which the volume of the mixing chamber decreases to a value corresponding to therapeutic breathing during sleep. The danger of significantly exceeding the optimum concentration of CO _{2 is} automatically eliminated.

The device operates as follows. Through one end of the housing 1, exhaled air enters the mask and its body (mixing chamber of the device). Part of the exhaled air through the hole 3 and the lateral oval holes 5, currently open, goes into the surrounding space, and part of it remains in the mixing chamber until the next breath. Inhaled from the atmosphere air containing a concentration of oxygen (O ₂ ) of 21% and carbon dioxide (CO ₂ ) of only 0.03% is mixed with air stored inside the mask and containing O ₂ 12 -16% and CO _{2 of the} order of 3.7- 6.0%, and enters the human lungs. Thus, it turns out that the air inhaled through the mask is a therapeutic gas mixture containing a reduced concentration of oxygen and a significantly increased concentration of carbon dioxide, which effectively stimulates the transfer of oxygen from hemoglobin to the cells of the neuro-somatic system, thereby relieving overfatigue (inhibition). The average value of the content of O ₂ and CO ₂ in the inhaled therapeutic gas mixture is regulated by the volume of the mixing chamber, i.e., by overlapping part or all of the side openings at once. The overlap is carried out either by a plastic shield pressed to the side surface of the cylinder - housing 1 with a rubber ring, or by the fingers of the patient himself. The overlap order, as well as the working volume of the mixing chamber 1, are determined by the doctor after examining the patient and measuring his breathing volume.

Claims (3)

 1. Treatment and prophylactic mask containing a rigid cylindrical hollow body, one end of which is made in the form of a face mask covering only the mouth and nose, and the other end has a large opening, closed by a gas-permeable partition, while in the side wall of the body a series of parallel oval-shaped adjustment holes perpendicular to the generatrix of the cylindrical body are made.  2. The mask according to claim 1, characterized in that the partition is made of gauze in 2-3 layers.  3. The mask according to claim 1 or 2, characterized in that the adjustment holes are 1-1.5 cm apart.