RU205199U1 - UNIVERSAL ADAPTER FOR ONE-POINT CONNECTION OF GASTRIC AND INTESTINAL PROBE - Google Patents

Abstract

The utility model generally relates to the field of medical devices, and more specifically to a universal adapter for simultaneous connection of gastric and intestinal probes. The technical result achieved by the implementation of the specified solution consists in expanding the arsenal of technical means of the adapter for connecting gastric and intestinal probes. A universal adapter for interaction with gastric and intestinal probes, containing a housing on which an inlet port is located, made with the possibility of connecting the distal end of the gastric tube and inserting an intestinal probe, a first outlet port made with the possibility of hermetically removing the intestinal probe, a second outlet port made with the ability to connect the proximal end of the gastric tube extension tube, infusion pump, enteral feeding system, decompression device. 6 c.p. f-ly, 2 dwg

Description

FIELD OF TECHNOLOGY

[1] The utility model generally relates to the field of medical devices, and more specifically to a universal adapter for simultaneous connection of gastric and intestinal tubes to infusomats, enteral feeding systems and devices for decompression of the stomach and small intestine.

LEVEL OF TECHNOLOGY

[2] Currently, there are many systems for enteral feeding, aspiration of gastric contents and introduction of fluids into the intestinal lumen. As a rule, these systems provide supply / removal of liquid media in patients with gastrointestinal problems of various etiologies. So, with the help of a nasogastric tube, enteral nutrition of patients who cannot independently take food can be carried out, and the administration of drugs to them. The most common method of inserting such probes is nasal insertion, which is inserted through the mouth or nose and fed enterally. For decompression of the gastrointestinal tract (intestinal intubation), nasointestinal probes, for example, the Mueller probe, Abbott probe, etc., can also be used.

[3] However, in the treatment of patients who undergo operations on the organs of the gastrointestinal tract, patients with acute severe pancreatitis and pancreatic necrosis, peritonitis, gastrostasis, intestinal insufficiency syndrome and other conditions, simultaneous evacuation of stomach contents and prolonged use of enteral nutrition or intra-intestinal the introduction of drugs. Nasal insertion of two probes (gastric and intestinal) to provide such simultaneous evacuation of gastric contents and enteral nutrition occupies both nostrils of the patient and can cause inflammation of the sinuses.

[4] To solve this problem, multichannel probes have been developed that provide the possibility of simultaneous introduction of a nutrient mixture into the small intestine and decompression of the stomach. These probes are used for early enteral nutrition in critically ill patients and after major gastrointestinal surgeries.

[5] So, from the prior art there is a known method of decompression of the stump (and what is this word?) Of the duodenum and the nasoduodenal probe for its implementation, disclosed in patent RU 2237498 C1 (Mordovia State University named after NP Ogarev), publ. 10.10.2004. The specified solution, in particular, discloses the design of the nasoduodenal probe, consisting of a thin probe, which is worn from the outside of the nasogastric tube.

[6] The disadvantages of this solution include the impossibility of long-term use as a device for the delivery of enteral nutrition and liquid drugs (due to the design features of the device), which is critical for patients in intensive care units and intensive care, the complexity of installing the device (intraoperative installation path) ...

[7] From the prior art also known gastrointestinal probe, disclosed in the patent of the Russian Federation RU 2240149 C1 (Closed Joint Stock Company "MedSil"), publ. 20.11.2004. This solution describes a device for aspiration of gastric contents and enteral nutrition, including in the area of the small intestine. These types of probes provide for the introduction of a probe into the small intestine distal to the Treitz ligament 40-50 cm outside the endoscope, due to the large diameter of the probes.

[8] The disadvantages of this solution are the need for a very high qualification of the endoscopist for the insertion of such probes for the Treitz ligament, a greater risk of injury to the walls of the gastrointestinal tract (gastrointestinal tract). In addition, the probe connectors are only intended for use with limited connector types for biomedical collection systems and enteral feeding lines. Another disadvantage is the lack of tightness of the joints, which is extremely negative from the point of view of hygiene.

[9] In addition, the prior art also known a double-lumen nasojejunal probe Freka Easy In from the Fresenius Kabi company available at the link on the Internet: https: //www.fresenius-kabi.com/ru/%D0%BF%D1%80% D0% BE% D0% B4% D1% 83% D0% BA% D1% 82% D1% 8B / freka-easy-in. The specified probe consists of two probes (an intestinal probe and a gastric tube), and contains an adapter having a port for interaction with the channel for the introduction of the nutrient mixture into the jejunum and a second port for interaction with the channel for drainage (decompression) of the stomach. The installation of the intestinal (intestinal) probe is carried out through the working channel of the endoscope, the gastric probe is installed along the intestinal probe as a guide.

[10] The disadvantages of this solution are that the existing bifurcation probe adapter is non-removable, the connections are non-separable (once connected probes cannot be removed), and the impossibility of connecting to the probe adapter of other manufacturers. In addition, the specified design does not allow the removal of the intestinal probe, leaving the gastric one.

[11] A common disadvantage of existing solutions in this area is the lack of a universal adapter that provides the ability to combine plug-in probes and enteral feeding systems, which would allow the use of probes of different manufacturers and diameters. Also, the specified adapter must provide a sealed and safe connection of such probes. In addition, such an adapter should be able to remove the intestinal tube from the gastric tube while leaving the tube in place.

ESSENCE OF THE TECHNICAL SOLUTION

[12] This technical solution is aimed at eliminating the disadvantages inherent in existing solutions known from the prior art.

[13] The technical problem (or technical problem) in this technical solution is the creation of a new universal adapter for simultaneous interaction with gastric and intestinal probes.

[14] The technical result, which manifests itself in solving the above problem, is to expand the arsenal of technical means by creating an adapter for the simultaneous connection of gastric and intestinal probes and enteral feeding systems.

[15] The claimed technical result is achieved through the implementation of a universal adapter for interaction with gastric and intestinal probes containing:

the case on which are located:

an inlet port configured to connect the distal end of the gastric tube and insert an intestinal tube;

the first outlet port, made with the possibility of sealed removal of the intestinal probe;

a second outlet port configured to connect a proximal end of a gastric tube extension tube.

[16] In one of the private embodiments, the body is made in the form of a Y-shaped or T-shaped tubular element.

[17] In another particular embodiment, the second outlet port is additionally configured to connect a device selected from the group: a device for administering drugs, an enteral feeding system, a system for decompression of the stomach.

[18] In another particular embodiment, the housing is made of the following material selected from the group: polymer resin, glass, metal, polylactic acid.

[19] In another particular embodiment, the inlet port, the first and second outlet ports are conical or cylindrical ports.

[20] In another particular embodiment, the inlet port, the first and second outlet ports further comprise a threaded connection.

[21] In another particular embodiment, the first and second outlet ports further comprise a plug.

[22] In another particular embodiment, the plug is selected from the group: a plug for the exit of the intestinal probe, a blind plug, a plug with a connector.

[23] In another particular embodiment, the housing further comprises a control valve configured to control the degree of vacuum generated during aspiration.

[24] In another particular embodiment, the control valve contains a plug.

DESCRIPTION OF DRAWINGS

[25] Features and advantages of the present invention will become apparent from the following detailed description of the invention and the accompanying drawings, in which:

[26] FIG. 1 illustrates a general view of a universal adapter for simultaneous interaction with gastric and intestinal probes.

[27] FIG. 2 illustrates examples of implementation of plugs for ports of a universal adapter.

CARRYING OUT THE INVENTION

[28] Below will be described the terms and concepts necessary for the implementation of this technical solution.

[29] A probe is an instrument in the form of a thin rod intended for carrying out diagnostic or therapeutic procedures in various cavities and channels of the human body.

[30] Enteral nutrition is a type of therapeutic or additional nutrition with special mixtures, in which food absorption (when it enters through a tube in the stomach or intestines) is carried out in a physiologically adequate way, that is, through the mucous membrane of the gastrointestinal tract.

[31] Nasointestinal intubation is the introduction of a long probe through the nasal passage, mouth, esophagus, stomach, duodenum into the small intestine to decompress the intestine in acute intestinal obstruction, peritonitis, or with an interintestinal anastomosis.

[32] A nasogastric tube (gastric tube) is a tube for enteral feeding that passes through the nose into the stomach.

[33] A nasojejunal tube or nasoduodenal tube is an enteral feeding tube that passes through the nasal cavity into the duodenum or jejunum.

[34] Dual-channel probe - a probe designed for decompression of the stomach and intra-intestinal administration of nutrient mixture.

[35] The claimed technical solution provides the possibility of simultaneous connection of gastric and intestinal probes from different manufacturers to create universal multicomponent devices that provide simultaneous aspiration of gastric contents, enteral nutrition and the introduction of other liquid media into the intestinal lumen, by creating a new universal adapter for simultaneous connection gastric and intestinal probes. Also, this adapter ensures the tightness of such connections. In addition, thanks to the universal ports of the adapter, it is possible to use probes, infusion pumps, enteral feeding systems with different technical characteristics (for example, different sizes), which, in turn, allows doctors to use available probes and power systems without having to select a specific manufacturer. Another advantage of the universal adapter is the possibility of painless removal of the intestinal tube from the adapter without removing the gastric tube, for example, when the need to use an intestinal tube disappears, it can be removed, leaving the gastric tube in place.

[36] The described advantages and features of the claimed technical solution are disclosed in more detail with reference to the drawings and the description set forth below. This description is presented as an example and does not limit the scope and use of the claimed technical solution.

[37] In the following description, when referring to the proximal end of the member, the end closest to the patient is meant. When referring to the distal end of the element, the end farthest from the patient is meant.

[38] FIG. 1 shows a general view of a universal adapter 100 for simultaneous (simultaneous) connection of a gastric and intestinal probe. The specified adapter 100 includes a housing 110, which contains an inlet port 120, a first outlet port 130 and a second outlet port 140.

[39] The elements of the claimed adapter 100 are fixed between themselves and the supporting elements of the structure using a wide range of assembly operations, for example, screwing, joining, soldering, riveting, etc., depending on the most suitable method of fastening the elements.

[40] The port in this solution should be understood as the connection point of the adapter 100 with external devices (probes, power systems, etc.).

[41] The body 110 is a Y-shaped hollow tubular member. In one particular embodiment, housing 110 may have an inlet (port 120) and an outlet (ports 130 and 140). The inlet is intended for insertion into the adapter of the gastric tube and, inside it, the intestinal tube. The outlet part consists of a bifurcated tubular element, to each of the outlets (ports 130 and 140) of which nasojejunal (intestinal) and nasogastric (gastric) probes, respectively, can be connected separately. Also, to the specified outlet part, systems for introducing food or other liquid media into the intestinal lumen and stomach, or systems for collecting biological media can be connected. In another particular embodiment, the housing 110 can be made in the form of a T-shaped hollow tubular element. With this design of the housing 110, the output parts will be located perpendicular to the input part, thereby forming the letter T. The specified special case of the housing 110 can be used depending on the type and size of the connected equipment to the specified output ports 130 and 140. In another particular embodiment housing 110 may further comprise a control valve configured to control the degree of vacuum generated during aspiration. The specified valve may contain a stopper designed to plug it in when not in use. In one particular embodiment, said plug can be made in the form of a plug with a "Kapkon" or "Vacon" type connector.

[42] The specified housing 110 of the adapter 100 can be made in a collapsible or non-collapsible form. As the material from which the said housing 110 can be made, for example, the following materials can be selected: a polymer resin such as a thermoplastic resin or a thermosetting resin, or a combination thereof, polylactic acid, glass, metal, etc. thermoplastic resins can include polyethylene terephthalate, polylactic acid, polyethylene, polypropylene, polycarbonate, polymethyl methacrylate, polyvinyl chloride, silicone, etc. Thermosetting resins can include epoxy, etc. In one particular embodiment, the housing 110 can be made of transparent materials, such as glass, to provide visual control of the contents flowing inside the adapter 100.

[43] For a person skilled in the art it will be obvious that any material known from the prior art can be used as the material of the housing 110, which provides the required properties of the claimed housing.

[44] The housing 110 can be manufactured in various sizes. The dimensions of the housing 110 can depend on the selected combination of plug-in devices to the adapter 100, which in turn can depend on the etiology of the patient's disease, which will require simultaneous installation of a gastric and intestinal probe. So, if necessary, abundant aspiration of the gastrointestinal tract, an adapter 100 with a larger size of tubular elements can be used. For example, the housing 110 in one particular embodiment may have a length of 30 to 650 mm, the outer diameter of the tubular elements can vary from 6 to 40 mm, and the inner diameter from 2 to 23 mm.

[45] As noted above, housing 110 has an input port 120 and output ports 130 and 140. In one particular embodiment, ports 120, 130, 140 are the ends of the housing 110 and represent the non-separable elements of the adapter 100. In another particular embodiment, the ports 120 , 130, 140, may be threaded to the housing 110 to provide more compact transport of such adapter 100, for example, to medical facilities.

[46] The inlet port 120 may be the end of a tubular member of the body 110, which may be, for example, tapered or cylindrical, and so on. This shape can provide reliable connection of external devices of various sizes (probes, enteral feeding systems, etc.). In addition, the specified shape also provides a hermetic connection of these elements with the adapter. The connection to the gastric tube may occur, for example, by threaded connection of the distal end of the gastric tube to the specified port 120. In another particular embodiment, the distal end of the gastric tube may be fitted over the cylindrical or conical end of the port 120. The gastric tube, when connected, may be shaped for example, a universal funnel-shaped connector that fits snugly over port 120.

[47] For a person skilled in the art, it is obvious that any type of connection can be used, ensuring its tightness and reliability.

[48] The outer diameter of such a port can also vary depending on the required diameter of the connected probe. So, for example, the diameter of the port 120, in one particular embodiment, can be from 3 to 23 mm, the diameter of the inner channel from 2 to 40 mm. It should be noted that, due to the execution of the port 120 of a conical or cylindrical shape with a diameter decreasing towards the end of such a port, the specified port is made with the possibility of compatibility with any probes from any manufacturer with different diameters, which ensures its versatility, and, as a consequence, versatility adapter 100.

[49] An intestinal tube, when inserted into port 120, is positioned within the gastric tube. The intestinal tube is sealed with respect to the contents of the gastric tube and is freely located inside it. This arrangement of the intestinal tube allows the intestinal tube to be removed without hindrance, while leaving the gastric tube in place. Thus, for example, in one particular embodiment, removal of the intestinal probe can be accomplished by disconnecting the adapter 100 and slowly pulling out the intestinal probe. This reduces the impact on the resuscitation patient. It should be noted that the two-channel probes known from the prior art do not allow removing only the intestinal probe if necessary, leaving the gastric probe, which requires the need to re-insert the gastric probe and cannot be good for the patient.

[50] The outlet of the adapter consists of a bifurcated tubular element with ports 130 and 140 at each end. For example, nasojejunal (intestinal) and nasogastric (gastric) probes, respectively, can be used as probes interacting with these ports. In addition, it is worth noting that in one particular embodiment, the proximal end of the gastric tube extension tube may be connected to ports 130 and 140. For a person skilled in the art it is obvious that the tube of the gastric tube extension can be an extension of the gastric tube and can have identical dimensions to the specified probe. Also, in one particular embodiment, ports 130 and 140 can be connected to systems for introducing food or other fluids into the intestinal lumen and stomach, or systems for collecting biological media. The ratio of the angles at which the tubes of ports 130 and 140 correspond to the tube at port 120 can range from 5 to 180 degrees.

[51] Ports 130 and 140, in one particular embodiment, can be made in the form of a tube of conical or cylindrical shape, etc. Additionally, in another particular embodiment, a thread may be provided at the end of a tapered or cylindrical tube at each of the ports 130 and 140.

[52] The main feature of the threaded connection in ports 130 and 140 is that due to this connection, a reliable attachment of the nasogastric and nasojejunal probes, respectively, is provided. This type of connection allows you to quickly and reliably, without sudden movements on the part of personnel, to interact with the indicated probes. In addition, the threaded connection further enhances the tightness of the structure and completely eliminates inadvertent leakage of the region connecting the probe and the corresponding port 130 or 140. Also, the threaded connection provides a fixation of the probe and / or the probe extension tube, preventing inadvertent displacement or disconnection at the connection points. The outer diameter of the thread can vary from 3 to 40 mm, the diameter of the inner channel from 2 to 23 mm.

[53] In another particular embodiment, plugs may be added to ports 130 and 140. These plugs can be located by means of a ring connection at the specified ports 130 and 140, respectively. Thus, the plugs can be secured by a ring located directly on the pores 130 and 140 themselves. In another particular embodiment, the plugs can comprise a threaded connection and can be screwed into the respective ports 130 and 140.

[54] As plugs, for example, the following types of plugs disclosed in FIG. 2: a through plug for the outlet of the intestinal probe 210, a blind plug 220, designed to ensure the tightness of one of the ports 130 or 140, a through plug with a Luer or Luer Lock connector 230.

[55] The lead-through plug 210 can be made of a polymer resin such as a thermoplastic resin or thermosetting resin, or polylactic acid. This plug 210 can seal the adapter 100 while still allowing an intestinal tube to be passed through the plug for feeding or other fluids. The plug can be cylindrical, conical or herringbone in shape, can be equipped with a thread or a lock. The length of the plug can vary from 4 to 150 mm, inner diameter from 2 to 5 mm, outer diameter from 3 to 25 mm.

[56] The blind plug 220 is designed to ensure the tightness of one of the outlets, in the event that it becomes necessary to remove the intestinal or gastric tube. Plug 220 may be cylindrical, tapered, or herringbone. In addition, the plug can also be threaded to provide a hermetic connection to port 130 or 140. The length of plug 220 can vary from 4 to 150 mm, inner diameter from 2 to 5 mm, outer diameter from 3 to 25 mm.

[57] Through plug with a "Luer" or "Luer Lock" connector 230. It can be one-piece or composite, in the case of a composite one - a tube with a "Luer" or "Luer Lock" connector is inserted into the plug channel. The plug can be cylindrical, conical or herringbone in shape, and can be equipped with a thread. The length of the plug 230 varies from 4 to 150 mm, the inner diameter is from 2 to 10 mm, the outer diameter is from 3 to 25 mm. This type of plug 230 is made from a polymer resin, such as a thermoplastic resin or thermosetting resin, or polylactic acid. A tube with a Luer or Luer Lock connector has a length of 5 to 150 mm, the diameter of the inner channel is from 1 to 8 mm, the outer channel is from 2 to 10 mm, and is made of thermoplastic resin or thermosetting resin, or polylactic acid. It will be apparent to a person skilled in the art that Luer or Luer Lock connectors are widely known in the art and any known variations of said connectors may be used.

[58] The bifurcated shape of ports 130 and 140 allows simultaneous access to an intestinal and gastric tube. Thus, for example, a nasojejunal probe can be withdrawn through port 130, which contains a plug 210 described above. Accordingly, in such a case, the gastric tube will be connected to the port 140. As indicated above, the connection may be threaded.

[59] In another particular embodiment, the nasojejunal probe may be withdrawn through port 140 using a lead-through plug installed in the specified port. For design reasons, port 130 is the preferred placement for the nasojejunal probe, but it will be obvious to one skilled in the art that port 140 can also be used.

[60] As mentioned above, the intestinal tube, when passing through the adapter 100, maintains its tightness, namely, its contents do not mix with the contents of the gastric tube. The intestinal tube freely (non-locally) enters through port 120 and exits through port 130 or 140, equipped with a pass-through plug. The end of the intestinal probe drawn out of the adapter 100 can be fitted with an adapter such as a Luer or Luer Lock, etc., but is not limited to. An infusion pump, an enteral feeding system, a syringe (for example, Janet's syringe), a device for pumping out small intestinal contents can be connected to the intestinal tube adapter. In addition, the outlet (port 130 or 140) may be provided with a through-feed plug such as plug 210 for connecting a gastric tube extension, a pump for pumping out the contents of the stomach, a Janet syringe, etc.

[61] It should be noted that by connecting the distal and proximal ends of the probe to port 120 and 130 or 140, respectively, the internal volume of the adapter 100 is filled with gastric contents or solutions injected into the stomach, which allows simultaneous interaction with a gastric tube and an intestinal tube, respectively. It is worth noting that a gastric tube extension tube can be used as the proximal end of the gastric tube.

[62] Thus, the above-described elements of the adapter 100 allow simultaneous decompression of the stomach and the introduction of enteral nutrition or administration of other drugs by making ports 130 and 140 in a bifurcated form and an inlet port 120, allowing the introduction of an intestinal probe within the gastric tube. In addition, due to the shape of ports 120, 130, 140, it is possible to create combined multicomponent devices from nasogastric, nasointestinal probes, infusomats / enteral feeding systems in any combination of any technical characteristics, which makes it possible to achieve the universality of the specified adapter 100. For example, to the input A gastric tube can be connected to port 120, inside which an intestinal tube is located, an extension tube of a gastric tube and / or an enteral feeding system will be connected to port 140, and an intestinal tube will be removed through port 130 for further interaction with it.

[63] Now consider one of the scenarios for using the universal adapter 100, for example, in a medical center. This information is given as an example and does not limit other options for implementing the specified solution.

[64] Since there are many different nasointestinal and nasogastric tubes, enteral feeding systems made by different manufacturers with different technical characteristics (size, tube diameter, etc.), in medical organizations such problems can arise as incompatibility of such equipment from different manufacturers. So, for example, if it is necessary to carry out simultaneous aspiration of the gastrointestinal tract and the introduction of enteral nutrition to the patient, at the moment, either multichannel probes or probes from one manufacturer are used (due to their incompatibility with probes from other manufacturers).

[65] The creation of the universal adapter 100 described above solves such problems. Due to the implementation of the adapter 100, using the specified adapter, the assembly of multicomponent devices is provided in a significantly simplified form and becomes available to specialized specialists of almost any qualification. The use of such an adapter 100 in healthcare facilities makes it possible to simplify the selection of a probe and / or a system for administering drugs / nutrients, to optimize the supply of healthcare facilities with these consumables, to select more economical models of probes or infusion pumps / bags / bottles with liquid drugs. , to make the connections of different probes / infusomats / bags / bottles more reliable due to unification and to achieve greater reliability and safety of their use in conditions of a large load of medical facilities by patients.

[66] A typical application scenario for the adapter 100 may be, for example, the creation of a dual-channel probe from two probes (intestinal and gastric) from different manufacturers (which do not initially imply the possibility of their connection).

[67] For this, a physician of a medical organization, such as a healthcare facility, installs a nasojejunal probe along the endoscope channel, so that the group of holes at the end of the probe is located at a distance of at least 30 cm behind the Treitz ligament, in accordance with the requirement for such an installation according to anatomical and physiological reasons.

[68] Then, the distal end of the probe is removed from the oral cavity through one of the nasal passages. Next, using the installed intestinal tube as a guide, a nasogastric tube is installed, which can be made in the form of a tube that is inserted into the stomach. For a person skilled in the art it is obvious that this medical manipulation is often used in the practice of hospitals and can be performed by a wide range of medical personnel and various methods of installing a nasogastric and nasojejunal probe can be applied.

[69] After the probes have been withdrawn from the patient's nostril, an intestinal probe that is positioned within the gastric tube is inserted into port 120 and exited, for example, through port 130, in which, for example, a lead-through plug is located, such as plug 210 shown in FIG. 2. As mentioned above, since the intestinal tube passes freely within the adapter 100 and is sealed, the contents of such a tube do not mix with the contents of the gastric tube.

[70] After inserting the intestinal tube into the adapter 100, a gastric tube can then be connected to the said adapter. The distal end of the gastric tube is connected to port 120 by, for example, a universal funnel-shaped connector that fits over said port 120. Due to the shape of the port 120, it is possible to connect gastric tubes with other types of connectors of different diameters. Accordingly, after the distal end of the gastric tube is connected to port 120, the proximal end of the gastric tube is connected, for example, to port 140. The connection may be made, for example, by means of a threaded connection, etc. It should be noted that the internal volume of the adapter 100 with this connection is filled with the contents of the gastric tube and, in fact, is a part of it.

[71] By connecting the probes in this manner, the adapter 100 provides a safe and reliable environment for the administration of drugs and nutritional therapy through the intestinal tube (by interacting with the port), while aspirating the gastric contents (by interacting with the port 140).

[72] In addition, the specified method of connecting the probes provides the possibility of combining the connected power supply and gastrointestinal aspiration systems.

[73] For example, the following systems and probes can be connected: enteral feeding system and nasointestinal tube (nasojejunal tube), nasointestinal tube and nasogastric tube, infusomat, enteral feeding system, nasogastric and nasointestinal tube, enteral feeding system and nasogastric tube. It will be obvious to a person skilled in the art that, depending on the above connection combinations, said probes and systems will respectively be connected to ports 120,130,140 that enable such connection.

[74] Thus, the versatility of ports 120, 130, 140, which is equipped with the adapter 100 and the passage plugs for it, allows the use of probes and systems from different manufacturers, which makes it relevant to use the adapter 100 in any medical institution that requires the ability to simultaneously access gastric and intestinal tube. The reliability of the connections is ensured by the use of a threaded connection or a lap joint, which provides a tight and hygienic connection to the probes with the ports of the adapter 100, excluding the leakage of the contents of the probes.

[75] Modifications and improvements to the above-described embodiments of the present technical solution will be apparent to those skilled in the art. The foregoing description is presented only as an example and does not imply any restrictions for the purpose of implementing other particular embodiments of the claimed technical solution, which does not go beyond the scope of the claimed scope of legal protection.

Claims (7)

1. A universal adapter for interaction with gastric and intestinal probes containing: a housing on which are located: an inlet port configured to connect the distal end of the gastric tube and introduce an intestinal probe; the first outlet port, made with the possibility of sealed removal of the intestinal probe; a second outlet port configured to connect a proximal end of a gastric tube extension tube, the first and second outlet ports comprising a plug. 2. An adapter according to claim 1, characterized in that the body is made in the form of a Y-shaped or T-shaped tubular element. 3. The adapter according to claim 1, characterized in that the second output port is additionally configured to connect a device selected from the group: a device for administering drugs, an enteral feeding system, a system for decompression of the stomach. 4. The adapter according to claim 1, characterized in that the body is made of the following material selected from the group: polymer resin, glass, metal, polylactic acid. 5. An adapter according to claim 1, characterized in that the inlet port, the first and second outlet ports are conical or cylindrical ports. 6. The adapter according to claim 1, characterized in that the input port, the first and second output ports additionally comprise a threaded connection. 7. The adapter according to claim 1, characterized in that the plug is selected from the group: a plug for the outlet of the intestinal probe, a blind plug, a plug with a connector.

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