KR102540795B1 - Nasogastric Tube With Location Detection - Google Patents

Abstract

The present invention relates to a device for detecting a magnetic field and locating an end of a nasogastric tube located inside the stomach, wherein a first magnetic field generator is disposed at the end of the nasogastric tube, and a second magnetic field generator is spaced apart from the first magnetic field generator by a predetermined distance. By arranging the magnetic field generator, it is possible to determine whether the end of the nasogastric tube is located in an appropriate place inside the stomach according to the relative position or distance of the first magnetic field generator and the second magnetic field generator, making it simple to supply nutrients to the nasogastric tube. It is possible to determine whether to inject nutrients or the like after determining the position of the end of the tube, thereby preventing the occurrence of aspiration pneumonia in advance.

Description

Nasogastric Tube With Location Detection Device {Nasogastric Tube With Location Detection}

The present invention relates to a device for locating the end of a nasogastric tube through magnetic field detection.

A nasogastric tube is inserted into the patient's stomach at one end to remove contents such as liquid food, gastric juice, and drugs from the inside of the stomach so that gastric lavage is performed, or when it is impossible to ingest nutrients through the patient's mouth, the inside of the stomach It is a medical device that allows direct supply of nutrients.

In particular, in the intensive care unit, a nasogastric tube is frequently inserted for reasons such as drainage and decompression of gastric contents after surgery, prevention of aspiration of gastric contents in patients with reduced consciousness, and supply of enteral nutrition.

If the patient is conscious and can make swallowing movements as directed by the operator, the nasogastric tube can be smoothly inserted through the esophagus into the gastrointestinal tract without twisting. In some cases, it cannot enter the esophagus and is twisted in the oral cavity, making it difficult to insert, or it may be inserted into the lungs through the trachea, causing serious sequelae such as pneumothorax, tension pneumothorax, or hemothorax. Therefore, various methods of inserting a nasogastric tube into patients with reduced consciousness have been reported. For procedures that do not require special instruments, the thyroid cartilage or cricoid cartilage is displaced anteriorly by hand, or the pyriform recess is collapsed by applying pressure to both sides of the neck, or the head is moved to the side. There is a method of helping the nasogastric tube to go into the esophagus by rotating it or bending it forward, and there is also a method of pressing the nasogastric tube against the side wall of the pharynx with a finger to enter the esophagus.

Publication No. 10-2009-0090667 (2009.08.26.)

For gastric lavage or nutrient supply using a nasogastric tube, the end of the nasogastric tube must be accurately inserted into the stomach. During insertion of the nasogastric tube, when the nasogastric tube is introduced into the airway, gastric lavage or nutrient supply cannot be performed, and in severe cases, aspiration pneumonia occurs due to regurgitation of gastric contents. In addition, even if the nasogastric tube is inserted, there is a problem in that aspiration pneumonia occurs even when the end of the nasogastric tube is not located in an appropriate position inside the stomach and flows into the airway.

Therefore, the present invention arranges the first magnetic field generating unit at the end of the nasogastric tube, and arranges the second magnetic field generating unit to be spaced apart from the first magnetic field generating unit by a predetermined distance, so that the relative position or distance of the first magnetic field generating unit and the second magnetic field generating unit is It is an object of the present invention to provide a nasogastric tube position detection device capable of determining whether the end of a nasogastric tube is located in an appropriate place inside the stomach according to the present invention.

To achieve the above object, a nasogastric tube; a first magnetic field generator disposed at an end of the nasogastric tube; a second magnetic field generator spaced apart from the first magnetic field generator and disposed in the nasogastric tube; and a magnetic field detection device, wherein the first magnetic field generating unit is located inside the stomach, the second magnetic field generating unit is located in the stomach cardia, and the magnetic field detecting device comprises the first magnetic field generating unit. A nasogastric position detection device for detecting the magnetic field of the generator and the magnetic field of the second magnetic field generator is provided.

In one embodiment, the magnetic field detection device provides a nasogastric position detection device capable of detecting a relative position of the first magnetic field generator with respect to the second magnetic field generator.

In one embodiment, the first magnetic field generator and the second magnetic field generator provide a nasogastric position detection device including a magnet in the form of a wire, ring, or coil.

In one embodiment, the magnetic field detection device provides a nasogastric position detection device capable of detecting a relative position of the first magnetic field generator with respect to the second magnetic field generator.

In one embodiment, there is provided a nasogastric tube position detection device in which a hook-shaped first fixing protrusion is formed on the first engaging protrusion.

In one embodiment, the arrangement direction of the magnetic poles of the first magnetic part and the arrangement direction of the magnetic poles of the second magnetic part are the same arrangement direction along the longitudinal direction of the main body.

In one embodiment, the strength of the magnetic force of the first magnetic part is stronger than the strength of the magnetic force of the second magnetic part.

In one embodiment, the first magnetic field generating unit and the second magnetic field generating unit are provided with a heat-sealing part applied with a heat-sealing material on a surface in contact with the nasogastric tube, and the heat-sealing part is heated and melted, and then the nasogastric tube. Provided is a nasogastric tube position detection device that is fixed to the nasogastric tube by cooling after being attached to the tube.

In one embodiment, the thermal fusion material of the thermal fusion part is any one of polypropylene, polyethylene, polyvinyl chloride, ABS resin, polybutylene terephthalate (PBT), and polyethylene terephthalate (PET). Provided is a nasogastric tube position detection device including an abnormality.

The device for detecting the location of the nasogastric tube according to the present invention can determine whether to inject nutrients after simply identifying the position of the end of the nasogastric tube when supplying nutrients through the nasogastric tube, thereby preventing the problem of aspiration pneumonia in advance. .

In addition, the position of the end of the nasogastric tube can be determined by detecting the magnetic field of the magnetic field generator inserted into the nasogastric tube with a relatively simple configuration.

1 shows a schematic configuration of a nasogastric tube location detection device according to one embodiment of the present invention.
2 schematically illustrates first and second magnetic field generators according to one embodiment of the present invention.
3 illustrates a first fixing protrusion formed on a first coupling protrusion in one embodiment according to the present invention.
4 shows an arrangement of magnetic poles and a position to which the first and second magnetic field generators are attached in a nasogastric tube in one embodiment according to the present invention.
5 shows a cross-section of a first magnetic field generating unit attached to a nasogastric tube in one embodiment according to the present invention.
6 shows a cross-section of a first magnetic field generating unit attached to a nasogastric tube in one embodiment according to the present invention.
FIG. 7 shows the positions and sizes of the first magnetic field generating unit and the second magnetic field generating unit attached to the nasogastric tube in one embodiment according to the present invention.
8 schematically shows a magnetic field detection device as an embodiment according to the present invention.
9 shows a method of using the magnetic field location detection device according to the present invention.

Since the invention to be described below can have various changes and various embodiments, specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the invention described below to specific embodiments, and it should be understood to include all modifications, equivalents, or substitutes included in the spirit and scope of the technology described below.

1 to 9 show data for explaining the nasogastric position detection device of the present invention. Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings to aid understanding of the present invention. However, the following examples are provided to more easily understand the present invention, and the content of the present invention is not limited by the following examples.

1 is a schematic diagram of a nasogastric position detection device according to the present invention. Referring to FIG. 1, the nasogastric position detection device according to the present invention includes a nasogastric tube 10, a first magnetic field generator 20, a second magnetic field generator 30, and a magnetic field detector 40. .

The nasogastric tube 10 is a tube capable of supplying nutrients such as food to the stomach inside the human body through the nose through the esophagus, and may be formed of polyurethane, silicone or polyvinyl chloride material, so that the human body It can be flexibly bent to correspond to the shape of the internal organs. In addition, the nasogastric tube 10 is preferably formed of a transparent material. The cross section of the nasogastric tube 10 may be circular or elliptical. When the cross section of the nasogastric tube 10 is elliptical, the bending direction of the nasogastric tube 10 can be limited, so the bending direction of the distal end of the nasogastric tube 10 can be predicted from the inside of the stomach.

Since the first magnetic field generating unit 20 is disposed at the distal end of the nasogastric tube 10 and can continuously generate a magnetic field, its location can be determined from the outside of the patient's body through the magnetic field detection unit 40.

2 and 3, in one embodiment, as a method of attaching and fixing the first magnetic field generator 20 to the nasogastric tube 10, the first magnetic field generator 20 includes the nasogastric tube 10 ), and a sharp needle-shaped first coupling protrusion 21 may be formed on the contacting surface, and the first coupling protrusion 21 digs into the distal end of the nasogastric tube 10 to generate a first magnetic field Part 20 and nasogastric tube 10 may be combined. A first fixing protrusion 22 in the form of a hook may be formed on the first coupling protrusion 21 to improve coupling force with the nasogastric tube 10 . In the first fixing protrusion 22, the hook-shaped first coupling protrusion is formed in the opposite direction to the distal end of the nasogastric tube 10 and the coupling direction, so that the first coupling protrusion 21 penetrates the distal end of the nasogastric tube 10. It is easy to insert, but it is difficult to separate the first coupling protrusion 21 from the nasogastric tube 10, so that the first magnetic field generator 20 can be fixed to the nasogastric tube 10.

As one embodiment, the first magnetic field generating unit 20 may be provided with a heat-sealing part coated with a heat-sealing material on a surface in contact with the nasogastric tube 10 . The method of attaching and fixing the first magnetic field generator 20 to the nasogastric tube 10 is a thermal fusion method, which heats and melts the thermal fusion material provided in the thermal fusion unit, and then attaches it to the end of the nasogastric tube 10. , It may be a method of compressing and then cooling the heat-sealed part. Thermoplastic materials including, but not limited to, any one or more of polypropylene, polyethylene, polyvinyl chloride, ABS resin, polybutylene terephthalate (PBT), and polyethylene terephthalate (PET). material can be

In one embodiment, the first magnetic field generator 20 and the nasogastric tube 10 may be bonded with an adhesive. Adhesives are harmless to the human body, such as hot-melt adhesives, polyurethane-based adhesives, and epoxy-based adhesives.

The first magnetic field generator 20 may include a permanent magnet or an electromagnet capable of forming a magnetic field. The permanent magnet may include at least one of a neodymium magnet, a ferrite magnet, a samarium cobalt magnet, an Alico magnet, and a rubber magnet. The magnet may be formed in a thin wire shape, a flat or curved plate, a ring shape, or a coil shape.

When the magnets included in the first magnetic field generator 20 are formed in a thin wire shape, a plurality of magnets may be provided along the longitudinal direction or the circumferential direction of the nasogastric tube 10, and when formed in a plate shape, a curved surface forming an arc. can be formed as

The first magnetic field generating unit 20 may be disposed on one side of the distal end of the nasogastric tube 10 and attached and coupled thereto.

Since the second magnetic field generator 30 is disposed at a certain distance from the first magnetic field generator 20 in the nasogastric tube 10 to continuously generate a magnetic field, the magnetic field detector 40 is detected outside the patient's body. You can figure out its location.

Referring to FIGS. 2 and 3, in one embodiment, the second magnetic field generator 30 has a sharp needle-shaped second coupling protrusion 31 formed on a surface in contact with the nasogastric tube 10. The second coupling protrusion 31 can penetrate the outer surface of the nasogastric tube 10 to couple the second magnetic field generator 30 and the nasogastric tube 10, and the second coupling protrusion 31 has The second fixing protrusion 32 in the form of a hook may be formed to improve the bonding force between the nasogastric tube 10 and the second magnetic field generator 30 . The hook shape of the second fixing protrusion 32 is formed in the opposite direction to the direction in which the second coupling protrusion 31 penetrates the nasogastric tube 10 and is coupled, so that the second coupling protrusion 31 is attached to the nasogastric tube 10 It is easy to insert the distal end of the nasogastric tube 10, but it is difficult to separate the second coupling protrusion 31 from the nasogastric tube 10, so that the second magnetic field generator 30 can be fixed to the nasogastric tube 10.

As one embodiment, the second magnetic field generating unit 30 may be provided with a heat-sealing part coated with a heat-sealing material on a surface in contact with the nasogastric tube 10 . The method of attaching and fixing the second magnetic field generator 30 to the nasogastric tube 10 is a thermal fusion method, which heats and melts the thermal fusion material provided in the thermal fusion unit, and then attaches it to the end of the nasogastric tube 10. , It may be a method of compressing and then cooling the heat-sealed part. Thermoplastic materials including, but not limited to, any one or more of polypropylene, polyethylene, polyvinyl chloride, ABS resin, polybutylene terephthalate (PBT), and polyethylene terephthalate (PET). material can be

The second magnetic field generator 30 may include a permanent magnet or an electromagnet capable of forming a magnetic field. The permanent magnet may include at least one of a neodymium magnet, a ferrite magnet, a samarium cobalt magnet, an Alico magnet, and a rubber magnet. The magnet may be formed in the shape of a thin wire, a flat or curved plate, a ring, or a coil.

When the magnet included in the second magnetic field generator 30 is formed in a thin wire shape, a plurality of magnets may be provided along the longitudinal direction or circumferential direction of the nasogastric tube 10, and when formed in a plate shape, a curved surface forming an arc. can be formed as

The second magnetic field generator 30 may be disposed on one side spaced a certain distance from the distal end of the nasogastric tube 10 and attached and coupled thereto.

Referring to FIGS. 4 and 7 , the first magnetic field generating unit 20 and the second magnetic field generating unit 30 may be spaced apart from each other by a predetermined distance and disposed on the nasogastric tube 10 . The first magnetic field generating unit 20 is disposed at the distal end of the tube 10 and is introduced into the stomach space of the human body. The first magnetic field generator 20 is placed at the end of the tube 10 so that nutrients such as food introduced through the tube 10 can reach the stomach well. It is important to check whether the magnetic field generator 20 is located inside the stomach. Therefore, the second magnetic field generator 30 is placed on the tube 10 at a predetermined distance from the first magnetic field generator 20 so that the tube is inserted into the human body so that the second magnetic field generator 30 enters the stomach entrance. After placing it in the artificial stomach, it can be checked whether the first magnetic field generating unit 20 is separated from the second magnetic field generating unit 30 by a predetermined distance through the magnetic field detection device 40 . The magnetic field detection device 40 determines whether the first magnetic field generating unit 20 is located closer than a certain distance to the second magnetic field generating unit 30 or passes through the second magnetic field generating unit 30 and advances to the airways or lungs of the human body. can be detected through

5 and 6, the first magnetic field generator 20 or the second magnetic field generator 30 may be attached along the circumference of the tube 10, and attached in a ring shape or arc shape along the circumference. It could be. When attached in a ring shape, a magnet or the like is included inside the ring-shaped first magnetic field generator 20 or the second magnetic field generator 30, and the first magnetic field generator 20 or the second magnetic field generator ( 30) may be equal to or substantially equal to the outer diameter of the nasogastric tube, so that the first magnetic field generating unit 20 or the second magnetic field generating unit 30 may be fitted and fixed to the nasogastric tube in an interference fit manner.

The strength of the magnetic field generated by the first magnetic field generator 20 may be stronger than that of the magnetic field generated by the second magnetic field generator 30 . If the magnetic field generated by the second magnetic field generator 30 is as strong as the strength of the magnetic field generated by the first magnetic field generator 20, the first magnetic field generator 20 and the second magnetic field generator 30 are It is preferable that the intensity of the magnetic field generated by the second magnetic field generating unit 30 is weaker than that of the first magnetic field generating unit 20 because it can be approached due to the influence.

In the nasogastric tube position detection device according to the present invention, the second magnetic field generator 30 is located in the stomach cardia and is only a reference for determining the relative position of the first magnetic field generator 20, so the first magnetic field generator ( 20) It is preferable that the strength of the magnetic field is weaker.

Since each patient has a different stomach size, the distance between the first magnetic field generator 20 and the second magnetic field generator 30 in the tube 10 may also be different. Therefore, the second coupling protrusion 31 and the second fixing protrusion 32 may be formed so that the second magnetic field generator 30 may be disposed at an arbitrary position in the tube 10 . The second coupling protrusion 31 and the second fixing protrusion 32 may be formed of a metal material so that they can be inserted into the tube 10 well.

Referring to FIG. 4 , the first magnetic field generator 20 and the second magnetic field generator 30 may arrange magnetic poles in the same direction along the length direction of the tube 10 .

Referring to FIG. 8 , the magnetic field detection device 40 is a device for detecting the magnetic field generated by the first magnetic field generator 20 and the magnetic field generated by the second magnetic field generator 30, and the magnetic sensor 41 may be provided. The magnetic sensor 41 detects the magnetic field strength and position of the first magnetic field generating unit 20 and the second magnetic field generating unit 30, respectively, and determines the position of the first magnetic field generating unit 20 and the second magnetic field generating unit 30. The separation distance can be calculated and expressed numerically. When the separation distance is shorter than the predetermined distance, the magnetic field detection device 40 may sound an alarm. The magnetic field detection device 40 may be a portable terminal. Since the portable terminal includes the magnetic sensor 41 , magnetic fields generated by the first magnetic field generator 20 and the second magnetic field generator 30 can be detected using the magnetic sensor 41 .

A plurality of magnetic sensors 41 may be provided to increase detection accuracy, and may be a three-axis magnetic sensor including an X-axis magnetic sensor, a Y-axis magnetic sensor, and a Z-axis magnetic sensor.

The magnetic sensor 41 may include any one or more of a magnetic hall sensor, a magnetic resistance sensor, and a reed switch.

Since the second magnetic field generating unit 30 is located in the stomach, the first magnetic field generating unit 20 determines whether the distance between the first magnetic field generating unit 20 and the second magnetic field generating unit 30 is closer to a certain distance or less while the tube 10 is bent. 2 It is possible to detect whether the gas passed through the magnetic field generator 30 and passed through the inside of the stomach and entered the esophagus.

An electromagnet 42 may be provided in the magnetic field detection device 40 . The electromagnet 42 moves the end of the nasogastric tube to an appropriate position inside the stomach by the attractive force between the electromagnet 42 and the first magnetic field generator 30 when the end of the nasogastric tube is out of the stomach and is positioned in an inappropriate position. can make it

9 shows a method of using the magnetic field location detection device according to the present invention.

Although the present technology has been described through the above embodiments, the present technology is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present technology, and those skilled in the art will understand that such modifications and changes also belong to the present technology.

10: nasogastric tube 20: first magnetic field generator
21: first coupling protrusion 22: first fixing protrusion
30: second magnetic field generator 31: second coupling protrusion
40: magnetic field detector 41: magnetic sensor
42: electromagnet

Claims (12)

nasogastric tube;
a first magnetic field generator disposed at an end of the nasogastric tube;
a second magnetic field generator disposed in the nasogastric tube and spaced apart from the first magnetic field generator; and
Including; magnetic field (磁气場) detector;
The first magnetic field generator is located inside the stomach,
The second magnetic field generating unit is located in the stomach cardia,
The magnetic field detection unit detects the magnetic field of the first magnetic field generator to determine the position of the end of the nasogastric tube,
The magnetic field detection unit detects the magnetic field of the first magnetic field generator and the magnetic field of the second magnetic field generator to determine the position of the end of the nasogastric tube
Nasogastric tube location detection device. delete According to claim 1,
The magnetic field detection unit is capable of detecting a relative position of the first magnetic field generator with respect to the second magnetic field generator. According to claim 1,
The first magnetic field generator and the second magnetic field generator include a wire, ring, or coil type magnet. According to claim 1,
The nasogastric tube position detection device in which the first magnetic field generating unit has a needle-shaped first coupling protrusion formed on a surface attached to the nasogastric tube. According to claim 5,
A nasogastric tube position detection device in which a hook-shaped first fixing protrusion is formed on the first coupling protrusion. According to claim 1,
A nasogastric tube position detection device in which a needle-shaped second coupling protrusion is formed on a surface attached to the nasogastric tube in the second magnetic field generating unit. According to claim 7,
A nasogastric tube position detection device in which a hook-shaped second fixing protrusion is formed on the second coupling protrusion. According to claim 1,
The arrangement direction of the magnetic poles of the first magnetic field generator and the arrangement direction of the magnetic poles of the second magnetic field generator are the same arrangement direction along the longitudinal direction of the main body. According to claim 1,
The strength of the magnetic force of the first magnetic field generating unit is stronger than the strength of the magnetic force of the second magnetic field generating unit. According to claim 1,
The first magnetic field generating unit or the second magnetic field generating unit has a heat fusion part provided on a surface in contact with the nasogastric tube,
The nasogastric tube position detection device is fixed to the nasogastric tube by a thermal fusion method. According to claim 11,
Nasogastric position detection, which is a material containing at least one of polypropylene, polyethylene, polyvinyl chloride, ABS resin, polybutylene terephthalate (PBT), and polyethylene terephthalate (PET) Device.

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