KR20210098771A - Catheter with temperature sensor - Google Patents

Abstract

Provided is a catheter with a temperature sensor, comprising: a base tube that extends along a curve; a first balloon disposed adjacent to one end portion of the base tube, and contracting and expanding; a second balloon disposed adjacent to the one end portion of the base tube, covering the first balloon, and contracting and expanding in conjunction with the first balloon according to the contraction and expansion of the first balloon; a temperature sensor disposed between the first balloon and the second balloon and, when the first balloon expands, fixed between the expanded first balloon and the expanded second balloon; and a supply module which supplies a fluid for contraction and expansion of the first balloon.

Description

Catheter with temperature sensor

The present invention relates to a catheter having a temperature sensor, and more particularly, to a catheter having a temperature sensor in which a balloon is disposed at one end of a base tube.

Medical devices refer to instruments, machines, devices, materials, or similar products used alone or in combination with humans or animals. From a technical point of view, the medical device industry is an interdisciplinary knowledge industry in which medicine, electricity, electronics, materials, optics, and biotechnology are converged and applied.

The main field of medical devices is the diagnostic device field that researches and develops products used for the purpose of diagnosing diseases, injuries or disorders, and therapeutic devices that research and develop machines and instruments used for the purpose of treatment and treatment of diseases, injuries or disorders In the field of medical supplies, which researches and develops medical materials and supplies used for the treatment and treatment of diseases, injuries, or disorders using metal, plastic, ceramic, or composite materials, There is a field of dental materials that researches and develops products used for filling or applying damaged teeth.

Among various medical devices, technologies related to catheters are increasing. For example, in Korean Patent Publication No. 10-2016-0035507 (Application No.: 10-2014-0127194, Applicant: Handok Co., Ltd.), a hollow cylinder member, a plurality of electrodes mounted on the cylinder member, and one end of the electrode is connected to a plurality of power supply lines for supplying power to each of the plurality of electrodes, and the other end of at least two or more power supply lines among the plurality of power supply lines is connected, and one or more power input lines are connected, one Disclosed is a catheter comprising a distribution unit for distributing and outputting the power supplied from the power input line of the two or more power supply lines. In addition, technologies related to catheters are continuously being researched and developed.

Korean Patent Publication No. 10-2016-0035507

One technical problem to be solved by the present invention is to provide a catheter having a temperature sensor with improved temperature sensing efficiency.

Another technical problem to be solved by the present invention is to provide a catheter having a temperature sensor with improved durability.

Another technical problem to be solved by the present invention is to provide a catheter having a temperature sensor in which problems occurring during the insertion process are resolved.

The technical problem to be solved by the present invention is not limited to the above.

In order to solve the above technical problems, the present invention provides a catheter having a temperature sensor.

According to one embodiment, the catheter having the temperature sensor is a curved and extended base tube (tube), disposed adjacent to one end of the base tube, a first balloon that contracts and expands, the one end of the base tube A second balloon disposed adjacent to the first balloon, covering the first balloon, and contracted and expanded together according to the contraction and expansion of the first balloon, and disposed between the first balloon and the second balloon, the first balloon In the case of expansion, a temperature sensor fixed between the inflated first balloon and the inflated second balloon, and a supply module supplying a fluid for contracting and expanding the first balloon may be included.

According to an embodiment, the base tube is spaced apart from the first guide channel and the first guide channel penetrating the sidewall of the base tube in the direction in which the base tube extends, and the sidewall of the base tube and a second guide channel penetrating in a direction in which the base tube extends, wherein the first guide channel is disposed at one end of the first guide channel to communicate the first guide channel and the outside of the base tube a first guide channel inlet, and a first guide channel outlet disposed at the other end of the first guide channel to communicate with the outside of the first guide channel and the base tube, wherein the second guide channel comprises: A second guide channel inlet disposed at one end of the second guide channel and communicating with the outside of the second guide channel and the base tube, and disposed at the other end of the second guide channel, the second guide channel and the second guide channel and a second guide channel outlet communicating with the inside of the first balloon, wherein the fluid supplied from the supply module is injected at the second guide channel inlet, passes through the second guide channel, and then passes through the second guide channel Through the outlet, the first guide channel outlet is provided to the first balloon, and the first guide channel outlet is not covered by the first balloon, but is covered by the second balloon, and is blocked from being exposed to the outside of the base tube, The second guide channel outlet may be covered with both the first balloon and the second balloon to block exposure to the outside of the base tube.

According to an embodiment, the catheter having the temperature sensor further includes a temperature sensing wire to which the temperature sensor is connected to one end, and a fluid supply tube to which the supply module is connected to one end, wherein the temperature sensing wire is It is disposed in the first guide channel so as to pass through the first guide channel inlet and the first guide channel outlet, and the one end of the temperature sensing wire is disposed between the first and second balloons, a temperature sensor is disposed between the first and second balloons, the fluid supply tube is disposed in the second guide channel so as to pass through the second guide channel inlet and the second guide channel outlet; The other end of the tube may include being disposed at the outlet of the second guide channel and communicating with the first balloon.

According to an embodiment, the side wall of the base tube extending to be curved includes a first area defined as a convex area and a second area defined as a concave area, wherein the first guide channel is the penetrating a first region, the second guide channel penetrating the second region of the base tube, and the temperature sensor, the first and second balloons disposed on the first region of the base tube It may include being in contact with.

According to an embodiment, the thickness of the second balloon may include a thickness smaller than that of the first balloon.

The catheter having a temperature sensor according to an embodiment of the present invention includes a curved and extended base tube, a first balloon that is disposed adjacent to one end of the base tube to contract and expand, and adjacent to the one end of the base tube. a second balloon that covers the first balloon and contracts and expands together according to the contraction and expansion of the first balloon, and is disposed between the first balloon and the second balloon, wherein the first balloon is inflated In this case, the temperature sensor fixed between the inflated first balloon and the inflated second balloon, and the supply module for supplying a fluid for contracting and expanding the first balloon may be included. Accordingly, problems occurring in the process of inserting the temperature sensor into the body (eg, getting caught in body tissues during the insertion process, damage to body tissues, etc.) can be solved.

1 is a perspective view of a catheter according to an embodiment of the present invention.
2 is a view specifically showing the base tube included in the catheter according to an embodiment of the present invention.
FIG. 3 is a cross-sectional view TT′ of FIG. 1 .
4 is a view showing various types of temperature sensors included in the catheter according to an embodiment of the present invention.
5 is a view showing a state in which the syringe is connected to the supply module included in the catheter according to the embodiment of the present invention.
6 is a diagram specifically illustrating a balloon included in a catheter according to an embodiment of the present invention.
7 is a cross-sectional view of a balloon included in the catheter according to an embodiment of the present invention.
8 and 9 are views illustrating an inflated state of the balloon included in the catheter according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the technical spirit of the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed content may be thorough and complete, and the spirit of the present invention may be sufficiently conveyed to those skilled in the art.

In this specification, when a component is referred to as being on another component, it may be directly formed on the other component or a third component may be interposed therebetween. In addition, in the drawings, thicknesses of films and regions are exaggerated for effective description of technical content.

In addition, in various embodiments of the present specification, terms such as first, second, third, etc. are used to describe various components, but these components should not be limited by these terms. Accordingly, what is referred to as a first component in one embodiment may be referred to as a second component in another embodiment.

Each embodiment described and illustrated herein also includes a complementary embodiment thereof. In addition, in the present specification, 'and/or' is used to mean including at least one of the elements listed before and after.

In the specification, the singular expression includes the plural expression unless the context clearly dictates otherwise. In addition, terms such as "comprise" or "have" are intended to designate that a feature, number, step, element, or a combination thereof described in the specification is present, and one or more other features, numbers, steps, configuration It should not be construed as excluding the possibility of the presence or addition of elements or combinations thereof.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a perspective view of a catheter according to an embodiment of the present invention, FIG. 2 is a view specifically showing a base tube included in a catheter according to an embodiment of the present invention, and FIG. 3 is a TT' cross-sectional view of FIG. 4 is a view showing various types of temperature sensors included in the catheter according to an embodiment of the present invention, and FIG. 5 is a view showing a state in which a syringe is connected to the supply module included in the catheter according to an embodiment of the present invention, 6 is a view specifically showing the balloon included in the catheter according to the embodiment of the present invention, Figure 7 is a cross-sectional view of the balloon included in the catheter according to the embodiment of the present invention, Figures 8 and 9 of the present invention It is a view showing a state in which the balloon included in the catheter according to the embodiment is inflated.

1 to 3 , the catheter according to an embodiment of the present invention includes a base tube 100 , a first balloon 210 , a second balloon 220 , a temperature sensor 300 , and a supply module 400 . , a temperature sensing wire 500 , and a fluid supply tube 600 . Hereinafter, each configuration will be described.

The base tube 100 may be curved and extended. According to an embodiment, the base tube 100 may have a tubular tube shape with both ends open. Accordingly, one end and the other end of the base tube 100 may each have an opening. According to an embodiment, the base tube 100 may contain a material harmless to the human body. For example, the base tube 100 may include at least one of polyvinylchloride (PVC), urethane, and silicon (Si). The material of the base tube 100 is not limited thereto and may be variously changed.

The base tube 100 may be inserted into the body. Accordingly, the target material may be easily introduced into the body through the base tube 100 . For example, the target material may be a drug or the like. Specifically, as described above, as both ends of the base tube 100 are opened, the target material is injected through one end of the base tube 100, and the injected target material is It may be introduced into the body through the other end of the base tube 100 .

The base tube 100 may include a first guide channel 110 and a second guide channel 120 . The first guide channel 110 may penetrate the sidewall of the base tube 100 in a direction in which the base tube 100 extends. The second guide channel 120 may also penetrate the sidewall of the base tube 100 in a direction in which the base tube 100 extends. However, the first guide channel 110 and the second guide channel 120 may be disposed to be spaced apart from each other.

The base tube 100 may include a first region 100a and a second region 100b. The first region 100a may be defined as a convex region of the base tube 100 . On the other hand, the second region 100b may be defined as a concave region of the base tube 100 . In this case, the first guide channel 110 may penetrate the first region 100a of the base tube. On the other hand, the second guide channel 120 may penetrate the second region 100b of the base tube.

The first guide channel 110 may include a first guide channel inlet 110a and a first guide channel outlet 110b. The first guide channel inlet 110a may be disposed at one end of the first guide channel 110 . The first guide channel inlet 110a may communicate with the first guide channel 110 and the outside of the base tube 100 . On the other hand, the first guide channel outlet 110b may be disposed at the other end of the first guide channel 110 . The first guide channel outlet 110b may communicate with the first guide channel 110 and the outside of the base tube 100 .

The second guide channel 120 may include a second guide channel inlet 120a and a second guide channel outlet 120b. The second guide channel inlet 120a may be disposed at one end of the second guide channel 110 . The second guide channel inlet 120a may communicate with the second guide channel 120 and the outside of the base tube 100 . On the other hand, the second guide channel outlet 120b may be disposed at the other end of the second guide channel 120 . The second guide channel outlet 120b may communicate with the second guide channel 120 and the inside of a first balloon 210 to be described later.

The temperature sensing wire 500 may be disposed in the first guide channel 110 . Specifically, the temperature sensing wire 500 may be disposed in the first guide channel 110 to pass through the first guide channel inlet 110a and the first guide channel outlet 110b.

Accordingly, one end of the temperature sensing wire 500 is to be exposed from the inside of the first guide channel 110 to the outside of the guide channel 110 through the first guide channel outlet 110b. can The one end of the first guide channel 110 exposed to the outside of the guide channel 110 may be disposed between a first balloon 210 and a second balloon 220 to be described later.

On the other hand, the other end of the temperature sensing wire 500 is exposed from the inside of the first guide channel 110 to the outside of the first guide channel 110 through the first guide channel inlet 110a. can be

The temperature sensor 300 may be connected to the one end of the temperature sensing wire 500 . Alternatively, a device (not shown) for supplying power to the temperature sensor 300 may be connected to the other end of the temperature sensing wire 500 .

As described above, as the one end of the temperature sensing wire 500 is disposed between a first balloon 210 and a second balloon 220 to be described later, the temperature sensor 300 is also a first balloon to be described later. It may be disposed between the 210 and the second balloon 220 .

According to an embodiment, when the base tube 100 is inserted into the body, the temperature sensor 300 may also be inserted into the body. That is, the temperature sensor 300 , a first balloon 210 , and a second balloon 220 to be described later are disposed at one end of the base tube 100 , and one end of the base tube 100 is It can be inserted into the body. Accordingly, the temperature sensor 300 may measure the body temperature.

According to an embodiment, the temperature sensor 300 may have various shapes. For example, as shown in (a) of FIG. 4 , the temperature sensor 300 may have a cylindrical shape. Alternatively, as shown in (b) of FIG. 4 , the temperature sensor 300 may have a tape shape. The shape of the temperature sensor 300 is not limited thereto and may be variously changed.

The fluid supply tube 600 may be disposed in the second guide channel 120 . Specifically, the fluid supply tube 600 may be disposed in the second guide channel 120 to pass through the second guide channel inlet 120a and the second guide channel outlet 120b.

Accordingly, one end of the fluid supply tube 600 is to be exposed from the inside of the second guide channel 120 to the outside of the guide channel 120 through the second guide channel inlet 120a. can On the other hand, the other end of the fluid supply tube 600 is exposed from the inside of the second guide channel 120 to the outside of the second guide channel 120 through the second guide channel outlet 120b. can be

The supply module 400 may be connected to the one end of the fluid supply tube 600 . On the other hand, the other end of the fluid supply tube 600 may be disposed at the second guide channel outlet 120b to communicate with a first balloon 210 to be described later.

2 and 5 , a fluid injection device such as a syringe may be connected to the supply module 400 . Accordingly, the supply module 400 may supply the fluid to the fluid supply tube 600 or suck the fluid provided to the fluid supply tube 600 .

Specifically, when the fluid is injected through the supply module 400 , the fluid is injected from the second guide channel inlet 120a , passes through the second guide channel 120 , and then the second 2 may be discharged to the guide channel outlet (120b). The fluid discharged through the second guide channel outlet 120b may be provided into a first balloon 210 to be described later. That is, the supply module 400 may provide the fluid to the inside of the first balloon 210 to be described later through the fluid supply tube 600 . In this case, the first balloon 210 to be described later may be inflated.

On the other hand, when the fluid is sucked through the supply module 400 , the fluid flows from the inside of the first balloon 210 to be described later, the second guide channel outlet 120b and the second guide channel 120 . , and sequentially passing through the second guide channel inlet 120a, may be provided to the supply module 400 . That is, the supply module 400 may suck the fluid provided in the first balloon 210 , which will be described later, through the fluid supply tube 600 . In this case, the first balloon 210 to be described later may be contracted.

6 to 9 , the first balloon 210 may be disposed adjacent to one end of the base tube 100 . As described above, the first balloon 210 may be contracted and expanded. Accordingly, the first balloon 210 may be made of a material that is easy to contract and expand. For example, the first balloon 210 may include silicon (Si). The material of the first balloon 210 is not limited thereto and may be variously changed.

The second balloon 220 may also be disposed adjacent to one end of the base tube 100 . However, the second balloon 220 may cover the first balloon 210 . Accordingly, the second balloon 220 may contract and expand together as the first balloon 210 contracts and expands. The second balloon 220 may also be made of a material that is easy to contract and expand. For example, the second balloon 220 may include silicon (Si). The material of the second balloon 220 is not limited thereto and may be variously changed.

As described above, when the second balloon 220 is disposed to cover the first balloon 210, the first guide channel outlet 110b is not covered by the first balloon 210, The second balloon 220 may be covered. Accordingly, the temperature sensor 300 may be disposed between the first balloon 210 and the second balloon 220 .

Alternatively, the second guide channel outlet 120b may be covered by both the first balloon 210 and the second balloon 220 . Accordingly, the fluid provided from the supply module 400 may inflate the first balloon 210 , and the second balloon 220 may also be expanded by the expansion of the first balloon 210 .

According to an embodiment, as shown in (a) of FIG. 7 , a size of the first guide channel outlet 110b may be larger than a diameter of the temperature sensing wire (not shown). Accordingly, the length of the temperature sensing wire (not shown) exposed between the first balloon 210 and the second balloon 220 from the inside of the first guide channel 110 may be easily controlled. .

According to another embodiment, as shown in (b) of FIG. 7 , the size of the first guide channel outlet 110b may be the same as the diameter of the temperature sensing wire (not shown). Accordingly, the temperature sensing wire (not shown) exposed from the inside of the first guide channel 110 between the first balloon 210 and the second balloon 220 is the first balloon 210 . And it may be easily fixed between the second balloon 220 .

When the first balloon 210 and the second balloon 220 are inflated, the temperature sensor 300 is fixed between the inflated first balloon 210 and the inflated second balloon 220 . can be Accordingly, the temperature sensor 300 inserted into the body may be fixed without moving in the body. As a result, the body temperature can be easily measured through the temperature sensor 300 .

According to an embodiment, the thickness of the first balloon 210 and the thickness of the second balloon 220 may be different from each other. Specifically, the thickness of the second balloon 220 may be thinner than the thickness of the first balloon 210 . In this case, the temperature sensing efficiency of the temperature sensor 300 and the durability of the first and second balloons 210 and 220 may be improved. That is, it is possible to improve the temperature sensing efficiency by making the thickness of the second balloon 200 disposed adjacent to the body relatively thin. On the other hand, durability may be improved by relatively increasing the thickness of the directly inflated first balloon 210 .

According to an embodiment, the thermal conductivity of the first balloon 210 and the thermal conductivity of the second balloon 220 may be different from each other. Specifically, the thermal conductivity of the second balloon 220 may be higher than that of the first balloon 210 . In this case, the temperature sensing efficiency of the temperature sensor 300 may be improved. That is, it is possible to improve the temperature sensing efficiency by relatively increasing the thermal conductivity of the second balloon 200 disposed adjacent to the body.

Unlike the catheter according to the above-described embodiment, in the case of a catheter having a temperature sensor disposed on a single balloon without the second balloon 220, the temperature sensor is easily caught in tissues in the body during insertion into the body. There may be a problem that it cannot be inserted properly. In addition, in the case of a catheter having a temperature sensor disposed on a single balloon, wounds may occur in body tissues by the temperature sensor during insertion into the body.

However, the catheter having a temperature sensor according to an embodiment of the present invention is disposed adjacent to the base tube 100 that extends to be curved, one end of the base tube 100, and the first balloon that contracts and expands. (210), disposed adjacent to the one end of the base tube 100, covering the first balloon 210, the first balloon 210 is contracted and expanded together according to the contraction and expansion of the first 2 balloons 220 , disposed between the first balloon 210 and the second balloon 220 , and when the first balloon 210 is inflated, the inflated first balloon 210 and the inflated The temperature sensor 300 fixed between the second balloons 220 and the supply module 400 supplying a fluid for contracting and expanding the first balloon 210 may be included. Accordingly, problems occurring in the process of inserting the temperature sensor 300 into the body (eg, getting caught in internal tissues during the insertion process, damage to internal tissues, etc.) can be solved.

As mentioned above, although the present invention has been described in detail using preferred embodiments, the scope of the present invention is not limited to specific embodiments and should be construed according to the appended claims. In addition, those skilled in the art will understand that many modifications and variations are possible without departing from the scope of the present invention.

100: base tube
110: first guide channel
120: second guide channel
210: first balloon
220: second balloon
300: temperature sensor
400: supply module
500: temperature sensing wire
600: fluid supply tube

Claims (5)

a curved extending base tube (tube);
a first balloon disposed adjacent to one end of the base tube to contract and expand;
a second balloon disposed adjacent to the one end of the base tube, covering the first balloon, and contracted and expanded together according to the contraction and expansion of the first balloon;
a temperature sensor disposed between the first balloon and the second balloon and fixed between the inflated first balloon and the inflated second balloon when the first balloon is inflated; and
A catheter having a temperature sensor, comprising a supply module for supplying a fluid for contracting and expanding the first balloon.
According to claim 1,
The base tube is
a first guide channel passing through the sidewall of the base tube in a direction in which the base tube extends; and
and a second guide channel spaced apart from the first guide channel and penetrating the sidewall of the base tube in a direction in which the base tube extends,
The first guide channel is disposed at one end of the first guide channel, a first guide channel inlet communicating the first guide channel and the outside of the base tube, and the other end of the first guide channel, and a first guide channel outlet communicating the first guide channel and the outside of the base tube,
The second guide channel is disposed at one end of the second guide channel, a second guide channel inlet that communicates with the outside of the second guide channel and the base tube, and the other end of the second guide channel, a second guide channel outlet communicating the second guide channel and the inside of the first balloon;
The fluid supplied from the supply module is injected at an inlet of a second guide channel, passes through the second guide channel, and then is provided to the first balloon through the outlet of the second guide channel,
The first guide channel outlet is not covered by the first balloon, but is covered by the second balloon, and is blocked from being exposed to the outside of the base tube,
The second guide channel outlet is covered with both the first balloon and the second balloon, and is blocked from being exposed to the outside of the base tube.
3. The method of claim 2,
a temperature sensing wire to which the temperature sensor is connected at one end; and
Further comprising a fluid supply tube to which the supply module is connected at one end,
The temperature sensing wire is disposed in the first guide channel to pass through the first guide channel inlet and the first guide channel outlet,
The one end of the temperature sensing wire is disposed between the first balloon and the second balloon, and the temperature sensor is disposed between the first balloon and the second balloon,
the fluid supply tube is disposed in the second guide channel to pass through the second guide channel inlet and the second guide channel outlet;
The other end of the fluid supply tube is disposed at the outlet of the second guide channel and is in communication with the first balloon.
4. The method of claim 3,
wherein the sidewall of the base tube extending in a curve includes a first region defined as a convex region and a second region defined as a concave region,
the first guide channel penetrates the first region of the base tube, the second guide channel penetrates the second region of the base tube,
wherein the temperature sensor is in contact with the first and second balloons disposed on the first region of the base tube.
According to claim 1,
The thickness of the second balloon, balloon catheter comprising a thinner than the thickness of the first balloon.

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