KR20110033610A - Directly operating intravascular medical device, and method of testing blood and treating diseases using the same - Google Patents

Abstract

PURPOSE: An intravascular medical device and a method for testing blood and treating diseases using the same are provided to perform inspection and treatment on blood inside a blood vessel using intravenous injection. CONSTITUTION: An intravascular medical device comprises: an intravenous syringe needle(100) which injects Ringers solution into the human body blood vessel; a body(200) which locates between the intravenous syringe needle and Ringer tube and in which the inside thereof is hollow; a moving body(300) which includes a flow path unit equipped with a flow path for passing an optical fiber part and Ringers solution and is formed to be movable forward and backward; and an optical device which is optically connected to the optical fiber part.

Description

Medical device directly acting inside the blood vessel, blood test and disease treatment method using the same {DIRECTLY OPERATING INTRAVASCULAR MEDICAL DEVICE, AND METHOD OF TESTING BLOOD AND TREATING DISEASES USING THE SAME}

The present invention relates to a medical device using light, and more particularly to a medical device directly acting inside the blood vessel.

Recently, interest in optical sensor equipment and phototherapy equipment that combines optical equipment using visible light, infrared light or ultraviolet light with medical devices has increased.

In particular, optical sensor equipment has been greatly developed mainly in the field of blood glucose measurement for diabetics. Recently, the method of measuring blood glucose using an optical sensor has been actively studied for a non-invasive blood glucose measurement method without collecting blood, but the blood glucose measurement through blood collection is still being made since it has not been put into practical use.

On the other hand, clinical trials and data analysis showed that the mortality rate of critically ill patients and the duration of treatment were greatly reduced when blood glucose levels were controlled within a certain range. Is increasing, and TGC (Tight Glucose Control) is in the spotlight. However, due to the time and cost problems that occur when measuring blood glucose through blood collection each time and problems that occur to patients due to frequent blood collection, the situation is applied only limited.

Therefore, there is an increasing need for a new device and method capable of accurate blood tests such as blood glucose measurement of patients without a blood collection process.

The present invention has been invented to solve the above problems, and an object of the present invention is to provide a medical device capable of directly testing and treating blood inside a blood vessel using an intravenous injection inserted into a human body.

Medical device that directly acts inside the blood vessel of the present invention for achieving the above object, the needle for injecting the ringer fluid introduced through the ringer tube into the human blood vessel; A body located between the intravenous needle and the ringer tube and having an empty interior; A moving body positioned inside the body and including a flow path portion in which an optical fiber is positioned and an optical fiber portion arranged in a longitudinal direction at the rear of the intravenous needle and a flow path through which a ringer fluid passes; And optical equipment optically connected to the optical fiber unit, wherein the optical fiber unit is inserted into the intravenous needle when the moving body moves forward.

The medical device of the present invention performs a direct medical action on the blood inside the blood vessel using an intravenous needle which is fastened to the body of the patient.

In this case, a stopper having a shape corresponding to the shape of one end of the flow path part is formed, and when the movable body moves to the end, one end of the flow path part contacts the stopper, and at the same time, the movement of the moving body stops and the ringer liquid is It is characterized in that it does not flow into the needle.

The medical device of the present invention preferably further includes a control unit for controlling the movement of the moving object and the optical equipment. Particularly, the medical device further includes a metal part formed on the moving object and a magnet located outside the body to control the movement of the magnet with the control part, and It is preferable to finally control the movement of the moving body by the magnetic force between the metal parts. In addition, it is better to include a timer function in the control unit to automatically operate.

In addition, the optical equipment is preferably an optical sensor equipment or phototherapy equipment.

And a method for testing blood using the medical device of the present invention, the step of adjusting the optical sensor equipment according to the purpose to be tested; Moving the moving body to block the inflow of Ringer's fluid into the intravenous needle and to move the optical fiber part into the intravenous needle so that one end of the optical fiber part faces the inside of the blood vessel at the end of the intravenous needle; And operating the optical sensor device optically connected to the optical fiber unit, and irradiating light directly to the blood inside the blood vessel and absorbing light to examine the blood.

Furthermore, the method for treating a disease using the medical device of the present invention comprises the steps of adjusting the phototherapy equipment to the disease to be treated; Moving the moving body to block the inflow of Ringer's fluid into the intravenous needle and to move the optical fiber part into the intravenous needle so that one end of the optical fiber part faces the inside of the blood vessel at the end of the intravenous needle; And operating the optical therapy device optically connected to the optical fiber unit, and treating the disease by irradiating light directly to blood inside the blood vessel.

According to the present invention, the optical fiber bundle is directed directly to the blood inside the blood vessel through the intravenous needle previously inserted into the human body, thereby effectively performing blood tests such as blood glucose measurement using a light beam without a blood collection process. .

In particular, since there is no problem of frequent blood collection, it is possible to measure frequently, and automatically measure blood sugar at regular intervals, thus having a very excellent effect on the management of blood sugar of the intensive care unit.

In addition, by using the medical device of the present invention, by directly irradiating the blood inside the blood vessel with infrared rays or ultraviolet rays, there is an effect that can kill pathogens or weaken the function of weak ultraviolet rays present in the blood and increase the temperature of the blood.

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram showing a cross section of a medical device according to an embodiment of the present invention, Figure 2 is a view showing the overall structure of a medical device according to an embodiment of the present invention.

Medical device according to an embodiment of the present invention is configured to include an intravenous needle 100, the body 200, the moving body 300, the optical equipment 400 and the control unit 500.

Intravenous needle 100 is inserted into one end of the vein in the blood vessels of the human body, and directly injects the ringer fluid introduced through the Ringer's bottle 900 and the Ringer tube 800 into the blood vessel.

When injecting Ringer's fluid through the needle 100, the effect is fast and can be injected in a large amount because it is used in most patients, the present invention is directly used in the blood by using the needle 100 Provide medical devices in action.

Body 200 is located between the intravenous needle 100 and the ringer tube 800, the body 200 has a wider cross-section than the intravenous needle (100). And by accommodating the movable body 300 therein, the case where the ringer liquid is injected and the case where the operation of the medical device is a medium for switching.

The moving body 300 is located inside the body 200 and can move back and forth. The moving body 300 includes an optical fiber part 310 and a flow path part 320.

The optical fiber unit 310 is arranged in the longitudinal direction at the rear of the intravenous needle 100 inside the body 200, has a cross-sectional area that can be inserted into the intravenous needle 100, the moving body 300 is forward When moved, one end is inserted into the intravenous needle (100).

And the optical fiber unit 310 is located inside the optical fiber 312, one end is located toward the venous injection needle 100, the other end using the optical equipment 400 and optical by using an optical fiber (not shown), etc. Is connected.

The flow path part 320 is formed on the side surface of the optical fiber part 310, and a flow path 322 which is an empty space in which the ringer liquid can move is formed therein. While the medical device of the present embodiment does not operate, the Ringer's solution moves along the flow path 322 of the flow path part 320 and is injected into the blood vessel of the human body through the intravenous needle 100.

When the medical device of the present embodiment is operated, since the optical fiber unit 310 is inserted into the intravenous needle 100, it is difficult for Ringer's solution to flow into the intravenous needle 100. However, it is more preferable to prevent the Ringer's solution from flowing into the intravenous needle (100).

Therefore, in the present embodiment, a stopper 202 having a shape corresponding to the front end face 324 of the flow path part 320 is formed inside the body 200, so that the flow path part (when the moving body 300 moves forward) The front end surface 324 of the 320 and the stopper 202 are configured to abut.

3 is a schematic diagram showing a cross section when the movable body moves to the front.

As shown in the figure, when the moving body 300 moves forward, the front end face 324 of the flow path part 320 and the stopper 202 abut, preventing movement of the moving body 300 and simultaneously blocking the flow path 322. Ringer's solution is prevented from entering the needle 100. At this time, the end of the optical fiber portion 310 inserted into the intravenous needle 100 and the end of the intravenous needle 100 is matched.

In addition, a metal part 326 in which a metal material is inserted is formed in the flow path part 320 of the present embodiment, and a magnet 600 is provided outside the body 200. The metal part 326 is formed at a position close to the body 200 and is affected by the attraction force of the magnet 600 located outside the body 200. Therefore, when the magnet 600 moves, the metal part 326 may move to move the whole moving body 300. Using this, it is possible to control the movement of the movable body 300 from the outside of the body 200.

The optical device 400 is a device including a means for emitting light or detecting light having a wavelength corresponding to infrared light, visible light, or ultraviolet light, and specifically, an optical sensor device or a light therapy device.

The optical sensor device illuminates light of a wavelength that is sensitive to the specific material to be detected and has little effect on other materials, and the presence and amount of the specific material through the degree of reflection, transmission, spectroscopy, scattering or absorption of the light. It is the equipment to grasp. Optical sensor equipment representing a blood glucose meter has already been developed an analysis method for a variety of substances, the optical sensor equipment used in the present invention is not limited to a specific technology can be applied to blood among the conventionally developed methods Any technology can be used.

Phototherapy equipment is a device that sterilizes germs that are weak to specific wavelengths, for example, ultraviolet rays, or raises the temperature of blood through infrared rays. The techniques used may be applied to the present invention.

The optical device 400 is optically connected to the optical fiber 312 positioned inside the optical fiber unit 310 through an optical fiber (not shown), such that the light generated by the optical equipment 400 is transmitted through the optical fiber 312. Irradiation into the blood or light in the blood may be detected by the optical device 400.

The control unit 500 is a part for controlling the operation of the optical equipment 400 and the movement of the moving body 300. Although not shown in the drawing, the present embodiment may control the movement of the magnet 600 using the control unit 500. It has a structure that can be.

In particular, the control unit 500 of the present embodiment includes a timer function so that the medical device of the present embodiment operates at a predetermined time or at regular intervals.

Figure 4 is a schematic diagram showing a longitudinal section of the medical device according to the embodiment of the present invention.

In this embodiment, the longitudinal section is shown in the case of a semi-circular shape, but is not limited to this form can be produced in a variety of cross-section.

In this embodiment, the optical fiber 312 positioned inside the optical fiber unit 310 is illustrated as including three bundles, but is not limited thereto and may include one or more.

In the present embodiment, although the plurality of flow paths 322 are illustrated as being separately formed, the present invention is not limited thereto and may have various structures.

In the present embodiment, the metal part 326 and the magnet 600 are formed in an arc shape to increase the area on which magnetic force acts.

Referring to Figures 1 to 3, the operation of the medical device according to the present embodiment will be described.

The medical device according to the present embodiment is maintained as shown in FIG. 1 before the operation. The moving body 300 is located back, the optical fiber portion 310 is not inserted into the intravenous needle (100). Therefore, the Ringer's solution is injected into the human body through the intravenous needle 100 through the flow path 322 as indicated by the arrow.

The medical device of the present embodiment can be used for various purposes according to the optical equipment 400 is applied, and adjust the optical equipment 400 according to the purpose of use. Control at this time includes both the case of adjusting the wavelength of the irradiated light and the like and the case of replacing the optical equipment itself. The medical device of this embodiment can be used by replacing the optical equipment specialized for a specific purpose.

Next, when the medical device according to the present embodiment is manually operated through the control unit 500 or automatically operated by the timer function, the medical device is in a state as shown in FIG. 2.

As shown in FIG. 2, when the control unit 500 moves the magnet 600, the metal part 326 connected to the magnet 600 by magnetic force moves the moving body 300 forward.

When the moving body 300 moves forward, the optical fiber unit 310 is inserted into the intravenous needle 100 to move. When the front end face 324 of the flow path part 320 touches the stopper 202 inside the body 200, since the moving body 300 stops and the flow path 322 is blocked, the flow of the ringer liquid as indicated by the arrow is indicated. This stops.

 And when the optical equipment 400 is adjusted according to the inspection or treatment purpose is operated, the light of various wavelengths through the optical fiber unit 310 which is connected to the optical device 400 and the optical fiber and directly directed the blood in the blood vessel or By detecting light, direct examination or treatment of blood in the blood vessels is performed.

In the above, the present invention has been shown and described with respect to certain preferred embodiments. However, the present invention is not limited only to the above-described embodiment, and those skilled in the art to which the present invention pertains can make various changes without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the specific embodiments, but should be construed as defined by the appended claims.

1 is a schematic diagram showing a cross section of a medical device according to an embodiment of the present invention.

2 is a view showing the overall structure of a medical device according to an embodiment of the present invention.

3 is a schematic diagram showing a cross section when the movable body moves to the front.

Figure 4 is a schematic diagram showing a longitudinal section of the medical device according to the embodiment of the present invention.

Description of the Related Art

100: intravenous needle 200: body

202: stopper 300: moving object

310: optical fiber unit 312: optical fiber

320: euro part 322: euro

326: metal part 400: optical equipment

500: control unit 600: magnet

800: ringer tube 900: ringer bottle

Claims (9)

Intravenous needle for injecting Ringer's fluid introduced through the Ringer tube into the human blood vessel; A body located between the intravenous needle and the ringer tube and having an empty interior; A moving body positioned inside the body and including a flow path portion in which an optical fiber is positioned and an optical fiber portion arranged in a longitudinal direction at the rear of the intravenous needle and a flow path through which a ringer fluid passes; And It includes optical equipment optically connected to the optical fiber unit, And the optical fiber part is inserted into the intravenous needle when the moving body moves forward. The method according to claim 1, A stopper having a shape corresponding to the shape of one end of the flow path part is formed in the body, and when the movable body moves to the end, one end of the flow path part contacts the stopper to stop the movement of the movable body and at the same time, the ringer fluid is injected into the vein. Medical devices that work directly inside the blood vessel, characterized in that the needle does not flow. The method according to claim 2, The medical device directly acting on the vessel, characterized in that further comprising a control unit for controlling the movement of the moving object and the optical equipment. The method of claim 3, And a magnet positioned outside the body and the metal part formed in the movable body, wherein the controller controls the movement of the magnet to control the movement of the movable body by a magnetic force between the magnet and the metal portion. Medical devices that act directly inside the blood vessels. The method according to claim 4, The medical device directly operates inside the blood vessel, characterized in that the control unit automatically includes a timer function. The method according to any one of claims 1 to 5, A medical device that operates directly inside a blood vessel, characterized in that the optical device is an optical sensor device. The method according to any one of claims 1 to 5, A medical device that operates directly inside the blood vessel, characterized in that the optical device is a light therapy device. Using the medical device of claim 6, Adjusting the optical sensor equipment according to the purpose to be examined; Moving the moving body to block the inflow of Ringer's fluid into the intravenous needle and to move the optical fiber part into the intravenous needle so that one end of the optical fiber part faces the inside of the blood vessel at the end of the intravenous needle; And Operating the optical sensor device optically connected to the optical fiber unit, the blood test method directly acting on the inside of the blood vessel, characterized in that the blood directly irradiating the blood inside the blood vessel and absorbing light to test the blood; . Using the medical device of claim 7, Adjusting the phototherapy device according to the disease to be treated; Moving the moving body to block the inflow of Ringer's fluid into the intravenous needle and to move the optical fiber part into the intravenous needle so that one end of the optical fiber part faces the inside of the blood vessel at the end of the intravenous needle; And Operating the optical therapy device optically connected to the optical fiber unit, the disease treatment method directly acting on the inside of the blood vessel, characterized in that for treating the disease by directly irradiating the blood directly inside the blood vessel.

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