RU2036629C1 - Device for carrying out barotherapy treatment - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has a single person hyperbaric chamber having a casing with a cover and a slideway to receive a bed for patient, life support system having an oxygen pipe, and a device for transporting patient in the form of a hand cart with wheels and having a slideway and a bed with a mat for patient. A local hyperbaric chamber with piping accessories to make connection with pulsing oxygen supply main line inside the casing is installed on the bed. Control panel is outside the main hyperbaric chamber and is connected with the main line of oxygen supply feeding the main hyperbaric chamber and with the piping accessories of the local hyperbaric chamber through the air-tight inlets made in its casing. Pipes connecting the local hyperbaric chamber with the pulsing oxygen supply main line run along the bed. The local hyperbaric chamber has wheels in the frontal part placed on the guides mounted on the bed and a lifting handle in the rear part. The local hyperbaric chamber has a member fixing its position on the bed. Mat on the bed is composite, one part being movable in the region where the patient extremities are placed. The fixing member is designed as a support placed in a recess in the rack mounted on the bed. The fixing member position is adjustable for height, for example, by means of a screw gage with a check nut. The device has units for fastening a patient on the bed provided with slots to fix belts in them. Plain bearings and elastic contacts to discharge static electricity from the bed to ground are mounted between the bed and guides. The device may be provided with an additional local hyperbaric chamber for prophylaxis and treatment of both extremities of a patient. EFFECT: enhanced effectiveness in treating patients and in preventing vascular lesions in lower extremities by means of hyperbaric oxygenation. 3 cl, 5 dwg

Description

 The invention relates to medical equipment, namely, devices for barotherapy, and can be used in the treatment and prevention of vascular diseases of the extremities.

 Local pressure chambers for limb therapy are known, comprising a body, a sealing unit, pipe fittings, sources of compression and rarefaction of the body with air or oxygen, which implement a method for treating diseases of the lower extremities by pulsed exposure to positive and negative pressure of the gaseous medium on the patient's limb. A disadvantage of the known local pressure chambers is their low efficiency, due to the length of the treatment time, since they do not eliminate oxygen starvation of the affected tissues. In addition, when the pressure is pulsed, there are force effects from the local pressure chamber on the limb and the patient’s body, which leads to the need to install complex readjustable devices inside the local pressure chamber in the form of a limited cavity volume in the form of stops, thrust bearings, holders for the limb foot, and outside the local pressure chambers of special chairs with straps fixed on the body, or combined with the body of chairs of variable shape, while for the convenient location of the limbs in the polo ti housing chamber may be provided with a device for raising and lowering its front end. To move the local pressure chamber, wheels can be provided mounted on vertical hinges and located both in front of the input side of the limb into the chamber cavity and in its rear part.

 Devices are also known for creating low barometric pressure when both limbs of a patient are subjected to barotherapy at the same time, the drawback of which is structural complexity and cumbersomeness, which prevents their widespread use.

A known barocomplex that implements a method of treating obliterating diseases of the arteries of the lower extremities by applying positive and negative pressure to the limb while simultaneously exerting additional oxygen pressure on the body, which consists of a multi-seat pressure chamber for accommodating patients in whom a local pressure chamber for the limb is installed with a control panel located outside the multi-seat pressure chamber. The life support system of a multi-seat pressure chamber contains a source of increasing air pressure in the pressure chamber housing, as well as an apparatus for breathing oxygen to the patient. The control panel of the local pressure chamber provides in the latter an alternating increase and decrease in air pressure. The disadvantages of the known barocomplex are:
the technological complexity of preparing a patient for barotherapy, when installing a local hyperbaric chamber on a limb is carried out in conditions of a limited volume of a hyperbaric chamber for a patient, for which the latter should have corresponding large overall dimensions, which in turn are in contradiction with the duration of the procedure, since a significant volume of a hyperbaric chamber is for a patient increases the exit time of the barocomplex to the steady state;
constructive complexity associated with the need to use an oxygen apparatus for breathing in a pressure chamber to accommodate a patient with its functional parameters controlled during barotherapy;
insufficient reliability due to the use of two different media for barotherapy, namely air for pressure chambers and oxygen for breathing, which determined the existence of two independent air and oxygen systems in the barocomplex design, which differ from each other in the nomenclature of pipeline valves and their operating conditions;
insufficient treatment effectiveness, due to the fact that elimination of oxygen starvation of tissues is carried out only due to the patient’s breathing, while additional opportunities for tissue saturation by contacting oxygen with the patient’s body surface are not used;
the inefficiency of carrying out hyperbaric oxygenation if filling a large-capacity multi-chamber pressure chamber with expensive oxygen is carried out, as well as in many cases the impossibility of carrying out such an operation, due to the incompatibility of materials and the unsuitability of the multi-chamber pressure chamber apparatus for working with oxygen;
the impossibility of using the barocomplex for the treatment of several patients, both for technical reasons associated with the need to install a large amount of equipment serviced by medical personnel, which unacceptably complicates the treatment process and reduces patient safety, and for medical reasons, when each patient has a duration of treatment of the affected limbs hyperbaric oxygenation conditions are strictly individual;
the tediousness of the procedure for a patient who is in a pressure chamber for a long time in a sitting position, namely for 1.0-1.5 hours, which is unacceptable for seriously ill patients;
inefficiency in the use of treatment areas associated with the large overall dimensions of a multi-seat pressure chamber, in which only one patient is placed for treatment;
the high complexity of the relocation of the barocomplex, which reduces the likelihood of maneuver in a particular medical institution.

 Closest to the claimed is a technical solution, representing a device for barotherapy, containing a single pressure chamber in the form of a housing with a lid, inside which there is a patient bed, mounted on guides, as well as a life support system, including an oxygen supply line, and a special respiratory system is provided for the patient’s breathing a tube.

The disadvantages of this device for barotherapy are:
narrow scope, due to the fact that it is intended only for hyperbaric oxygenation of the patient’s body, while the simultaneous treatment of the lower extremities with a pulsed effect of oxygen pressure is impossible;
insufficient reliability during operation associated with the use of a breathing tube for patient’s breathing inside the pressure chamber, which is especially unacceptable in the treatment of emergency and seriously ill patients, access to which is limited by the time of decompression and disassembly during the entire procedure.

 EFFECT: expanding the field of use of single horizontal pressure chambers intended for hyperbaric oxygenation, for simultaneous use in the prophylaxis and treatment of vascular diseases of limbs, by creating pulsed oxygen pressure in the local area of the pressure chamber, as well as increasing the reliability of operation in the treatment of seriously ill patients by providing direct oxygen breathing from the cavity of the pressure chamber.

 In FIG. 1 shows a device for barotherapy; in FIG. 2, view A in FIG. 1; in FIG. 3 section BB in FIG. 1; in FIG. 4, section BB in FIG. 3; in FIG. 5 section GG in FIG. 3.

 The device for barotherapy (see Fig. 1) contains a single pressure chamber, made in the form of a housing 1 with a cover 2, located horizontally on the wheels 3 with the possibility of movement. Inside the housing 1, guides 4 are made under the bed for the patient. The pressure chamber for the patient contains a life support system 5, including a line 6 for supplying oxygen from a cylinder 7 or from a centralized oxygen network of a medical institution. To move the patient, a device is provided in the form of a cart 8 with wheels 9, on which the guides 10 are made, and it is installed with the possibility of moving along them a bed 11 with a mattress, which is made up of parts 12, 13. An oxygen local pressure chamber 14 with a pipeline is placed on the bed 11 fittings. Outside the main pressure chamber case 1, there is a control panel 15 with oxygen pressure increase and decrease devices in the local pressure chamber 14, connected on one side to the oxygen supply line 6 to the main pressure chamber, and on the other hand, through pressure glands 16 made in the main pressure chamber case 1, with line 17 of the pulsed supply of oxygen to the pipeline valves of the local pressure chamber 14. Along the bed 11, pipelines 18 are fixed, which are connected on one side to the pipeline valves of the local pressure chamber 14 and the other these sides are installed with the possibility of connecting inside the body 1 of the main pressure chamber through pressure glands 16 with the control panel 15, and the place of connection of the pipelines 18, the bed 11 in the main pressure chamber is located next to the cover 2 of the housing 1. The local pressure chamber 14 is mounted on the bed 11 with the ability to move and fix for this purpose, wheels 19 for moving are placed in the front part from the input side of the limb, and a handle 20 for lifting it is located in the rear part, and a window 21 is made in the mattress (see FIG. 2), formed by its parts 12, 13. In place of the window 21 on the bed 11 are guides 23 (see Fig. 3) under the wheels 19 of the local pressure chamber 14 and the latch for the mutual placement of the bed 11 and the local pressure chamber 14. The latch can be made in the form vertical supports, consisting of a screw pair, namely the rod 23, screwed into the back of the local pressure chamber 14, locked with a nut 24 (see Fig. 4) and installed in the socket 25, located on the bed 11. Under the mattress under its movable part 13 are located additional guides 26 (see. Fig. 3), additional slats 27 and additional pipelines 28. The barotherapy device is also provided with patient attachment units to the bed 11, for which slots are made along its lateral sides, in which belts 29 are located with the possibility of movement and fixation. Slide bearings are installed between the bed 11 and the guides 4, 10 in the form of support plates 30 made of a polymeric material, for example, fluoroplastic, and elastic contacts 31 in the form of flat springs (see FIG. 5), which are mounted on the bed 11 and are in contact with the guides 4, 10, and the elastic contacts 31, the bed 11 and the guides 4 of the main pressure chamber are made of conductive material and are connected to ground (not shown).

 The operation of the device for barotherapy is as follows. The device for barotherapy can be used both for hyperbaric oxygenation of the body, and for the treatment of the limbs of the patient. In the first case, the local pressure chamber 14 is not installed, the mattress completely covers the bed 11, for which the window 21 is closed by an additional removable part 13 of the mattress (not shown). The operations of preparing the patient for the procedure, as well as the treatment process, are carried out in a manner characteristic of hyperbaric oxygenation.

 For the treatment of a patient’s limb with a pulse of oxygen simultaneously with the hyperbaric oxygenation of the body, the main and local pressure chambers are used. In this case, the preparation of the bed 11 for the procedure consists in the formation of a window 21 from the side of the limb subjected to barotherapy. If the mattress is made integral of parts 12 and 13 (Fig. 1, 2), the formation of the window 21 is made by installing the movable part 13 of the mattress from the side of the limb that is not being treated, while the main part 12 of the mattress is stationary on the bed 11. The composite mattress is comfortable, since when changing a limb subjected to pulsed barotherapy, it allows preparatory operations with the least effort for medical personnel. This is important in the treatment of seriously ill patients, when preparatory operations can be performed while on bed 11 without additional movements from bed to stretcher and vice versa. On the bed 11, located on the guides 10 of the trolley 8, lay the patient. For the handle 20, the local pressure chamber 14 is mounted by the wheels 19 on the guides 22 of the bed 11 and is worn on the patient’s limb by moving its front part along the guides 22, while the back part is supported by the handle 20.

 After installing the local hyperbaric chamber 14 on the bed 11 and placing the patient’s limb in its cavity, the back of the local hyperbaric chamber 14 by the handle 20 lowers with the rods 23 in the socket of the rails 25 with fixing the relative position of the bed 11 and the local hyperbaric chamber 14. When the limb of the patient is inconveniently placed in the cavity the local pressure chamber 14 adjust the height of the rods 23, the position of which is fixed by the lock nuts 24. Then connect the pipeline valves of the local pressure chamber 14 with the pipelines 18 of the bed 11 and it is necessary to fasten the patient and the local pressure chamber 14 to the bed 11 with straps 29. The local pressure chamber 14 is installed and the patient is prepared for barotherapy in the conditions of the procedures room, which is the most convenient, since the actions of medical personnel are not limited to the main pressure chamber body. Box 11 during preparatory operations can be placed on a table, stretcher, etc. devices, however, installing it on the guides 10 of the mobile trolley 8 is most optimal for handling and maintenance, especially when moving the bed 11 with the patient into the body 1 of the main pressure chamber.

 Having completed the preparatory operations, the trolley 8 is moved on wheels 9 to the housing 1 with the lid 2 of the main pressure chamber open. The bed 11 with the patient and the local pressure chamber 14 is moved along the guides 10 of the trolley 8 and the guides 4 into the inside of the body 1 of the main pressure chamber. Slide bearings in the form of support plates 30 made of fluoroplastic provide quiet movement of the bed 11 with a low coefficient of friction along the guides 4 and 10, while the resulting static electricity is removed from the bed 11 through the elastic contacts 31, the guides 4 and other metallized structural elements of the main pressure chamber to ground. After the patient is placed in the main pressure chamber inside the housing 1, the pipelines 18 of the bed 11 are connected to the pulse oxygen supply line 17 and through the pressure glands 16 with the control panel 15 of the local pressure chamber 14, and the connection point located next to the cover 2 of the housing 1 makes it quite simple to carry out this operation. Trolley 8 rolls away from the main pressure chamber. By turning the cap 2, the main chamber 1 is sealed, and the patient’s breathing air is supplied from the life support system 5. Then, medical operations related to filling and increasing the oxygen pressure in the main chamber from the cylinder 7 or centralized oxygen network via the oxygen supply line 6 are performed. . The main pressure chamber is single-chamber with an elongated patient body position, optimal for barotherapy, and therefore has a small volume, and therefore a minimum time for reaching the steady state mode of operation with small amounts of oxygen expended on it. The regulation and maintenance of the parameters of the procedure in the housing 1 of the main pressure chamber is carried out by the life support system 5. In this case, the limb of the patient is located freely in the sealing unit (not shown) of the local pressure chamber. After saturating the patient’s blood and tissues with oxygen, the patient’s limbs are sealed in a local pressure chamber 14, in which oxygen pressure is periodically increased and lowered from the pulse oxygen supply line 17 connected to the control panel 15 and oxygen supply line 6, which intensifies the treatment process. Increasing and decreasing the oxygen pressure in the local hyperbaric chamber 14 is performed relative to the oxygen pressure set for a particular patient in the main hyperbaric chamber, while possible emergency oxygen overflows from the limb sealing unit from the local hyperbaric chamber 14 to the main hyperbaric chamber and vice versa do not affect the treatment process, since do not change the oxygen concentration in the corresponding cavity. Thus, during the procedure, there is not only pulsed barotherapy of the limb, but also the simultaneous saturation of the patient’s blood and tissues with oxygen through breathing, as well as in connection with the contact of the entire surface of the patient’s body, including the surface of the limb, located in the cavity of the local oxygen chamber, with the surrounding oxygen environment that intensifies the treatment process. When the pressure changes in the cavity of the local hyperbaric chamber 14, axial forces arise equal to the product of the magnitude of the pressure change by the cross-sectional area of the limb in the place of its sealing in the local hyperbaric chamber. The axial force acting from the local pressure chamber 14 on the limb is perceived by the patient’s body, mounted on the bed 11 by attachment points in the form of belts 29, which excludes the patient’s movement along the bed 11 during the entire procedure. The axial force acting on the local pressure chamber 14 is perceived through the rods 23 with rails 25 mounted on the bed 11, which excludes the movement of the local pressure chamber 14 relative to the limb of the patient and on the bed 11. Fixation of the patient’s body and the local pressure chamber 14 on the bed 11 ensures reliable barotherapy in continuous cycle without interruptions, which reduces the duration of the treatment process and increases the productivity of the installation.

 The final stage of barotherapy consists in stopping the pulse effect of oxygen pressure on the limb, carried out by the appropriate command from the control panel 15, releasing the patient's limbs in the sealing unit of the local pressure chamber 14, balancing the oxygen pressure in the latter relative to the main pressure chamber and then reducing the pressure in the housing 1 from the life support system 5 to atmospheric pressure. Operations to move the bed 11 with the patient from the body 1 of the main pressure chamber on the trolley 8 is carried out in the reverse order.

 Barotherapy of the limb, carried out for a rather long time, is not tiring for the patient, since it is performed in the most convenient lying position. Additional guides 26, rails 27 and pipelines 28 allow pulse barotherapy to be performed separately for any of the limbs, sequentially first one and then the other limbs, as well as simultaneously both limbs of the patient. In the sequential treatment of both limbs, the local hyperbaric chamber is removed from the bed 11, the mobile part 13 of the mattress is displaced under the limb that has already undergone treatment, and a local hyperbaric chamber 14 is installed in the formed window 21 on the other side of the bed 11 for treating the second limb. In this case, guides 26 are used under the wheels 19, rails 27 under the rods 23 of the local pressure chamber 14, as well as pipelines 28 for its connection with the oxygen supply line 17. To treat both limbs simultaneously, the mobile part 13 of the mattress is removed, an additional local pressure chamber (not shown) is installed on bed 11, which, like a single local pressure chamber, is connected to the oxygen supply line 17. When installing local pressure chambers for the treatment of both limbs, guides 22 and 26, slats 25 and 27, pipelines 18 and 28 of bed 11 are used. Each of the limbs of the patient is placed in the corresponding local pressure chamber, after which the treatment process is carried out, while all operations for installing the bed 11 into the housing 1, the connection of pipelines, etc. are the same as when using one local pressure chamber. Treatment of both limbs of the patient simultaneously increases the productivity of the device for barotherapy.

 If necessary, treatment of the patient's limbs can be performed without hyperbaric oxygenation of the body. In this case, the pressure in the main pressure chamber is not increased from the life support system 5, and the pulse effect of oxygen on the limb is carried out using the local pressure chamber 14 from the control panel 15 with the cover 2 of the housing 1 open.

 The proposed device for barotherapy is universal and mobile, since with the minimum overall dimensions and the ability to move, depending on the specific operating conditions, it is possible to treat hyperbaric oxygenation of the body and changing the oxygen pressure on the patient's limb, both independent of each other and with joint action.

 Such an embodiment of the device for barotherapy, while expanding the possibilities, provides simplification of the design due to the use of a single working fluid in both the main and local pressure chambers, which eliminates the need for a breathing apparatus, and also reduces the range of units used.

Claims (9)

 1. DEVICE FOR BAROTHERAPY, containing a single pressure chamber in the form of a housing with a cover, in which the patient bed is located, installed with the possibility of movement, as well as a life support system, including an oxygen supply line, characterized in that at least one local pressure chamber is located on the bed with pipe fittings for connection in the main pressure chamber housing with a pulse oxygen supply line, and a control panel with increase and decrease devices is located outside the case yes Lenia local pressure chamber connected to the backbone oxygen supply, and through pressure seals, formed in the housing, the backbone of pulsed oxygen supplying pipeline and valves local pressure chamber.  2. The device according to claim 1, characterized in that pipelines are fixed along the bed, which are connected at one end to the pipeline valves of the local pressure chamber, and the other end are mounted with the possibility of connection in the main pressure chamber with a pulse supply line of oxygen, and the connection is located on the side of the cover corps.  3. The device according to paragraphs. 1 and 2, characterized in that in the front of the local pressure chamber from the input side of the limb there are wheels for movement, and in the rear part there is a handle for lifting it, while on the bed in the area of the local pressure chamber are guides under the wheels, and the device is equipped with a latch for mutual location of the local pressure chamber and bed.  4. The device according to paragraphs. 1 3, characterized in that the guides under the wheels of the local pressure chamber and the lock of its location on the bed are installed on both sides of the bed for each of the limbs of the patient.  5. The device according to paragraphs. 1 to 4, characterized in that in the mattress additionally covering the bed, a window is formed in the area of the local pressure chamber, for which the mattress is made integral, and its part for locating the limb not exposed to pulsed oxygen is installed with the possibility of moving to the place of the window on the bed to accommodate a local pressure chamber.  6. The device according to claims 1 to 3, characterized in that the latch of the mutual arrangement of the bed and the local pressure chamber is made in the form of a vertical support at the rear of the local pressure chamber installed in the socket of the rail placed on the bed.  7. The device according to paragraphs. 1 3 and 6, characterized in that the vertical support is made adjustable in height, for example in the form of a screw pair with a lock nut.  8. The device according to PP.1 to 3, characterized in that it is equipped with attachment points of the patient to the bed in the form of slots along its lateral sides, in which belts are located with the possibility of movement and fixing.  9. The device according to claim 1, characterized in that between the bed and the guides installed sliding bearings in the form of support plates made of a polymeric material, such as fluoroplastic, and elastic contacts in the form of flat springs, which are mounted on the bed with the possibility of interaction with the guides, moreover, the elastic contacts, the bed and the guides of the main pressure chamber are made of conductive material and are connected to ground.