KR20130039784A - Jection equipment - Google Patents

Abstract

The present invention is the body is formed integrally with a plurality of storage unit is filled with different cell therapeutics and drugs, and the lower portion of the body is integrally communicated through the inlet and the inlet passage of a predetermined length communicated by the inlet hole By forming a cell therapy and drugs of the storage unit to be sequentially injected into the spinal cord, cell therapy and drugs of various functions can be injected by a single incision and suture surgery to greatly improve the efficiency and productivity of the procedure In this regard, the present invention is to provide a spinal intracellular therapeutic agent and a drug injection device to shorten the treatment period of the spinal cord patient, thereby reducing the cost of the procedure and improving the economics as well as minimizing the pain of the patient.

Description

Spinal intracellular therapy and drug injection device {Jection equipment}

The present invention relates to a device for injecting a cell therapy agent and a drug into the spinal cord formed inside the spine, and more particularly, the body is formed integrally with a plurality of storage units filled with different cell therapies and drugs, the lower portion of the body The injection tube of a predetermined length is integrally formed in communication with the storage unit and the inflow path so that the cell treatment agent and the drug of the storage unit can be sequentially injected into the spinal cord, and thus, the cell treatment agent and the drug having various functions are treated in one operation. It can be injected by the injection can greatly improve the productivity and efficiency, thereby reducing the treatment period of spinal cord patients by reducing the cost of the procedure to improve the economics as well as to minimize the pain caused by the intravertebral cell therapy and It relates to a drug injection device.

As is well known, the spinal cord extends below the medulla in the bottom of the brain. It is white in color, thick at the top, and thinner at the bottom. In the cross section, the central part is composed of H-shaped gray matter, and its outer surface is surrounded by a round white matter. Because of this, the spinal cord is white when viewed from the outside. The spinal cord is protected by the spine and the spine also supports the spinal cord. Because of the similarities in pronunciation, spinal cord and spine are often indistinguishable, but the spine is the bone and the spinal cord is the nerve cells in the bone.

The function of the spinal cord is the most important function of the spinal cord is to connect the brain and the nervous system of the body. The stimuli accepted by the peripheral nervous system are collected through the spinal cord and go up to the brain. Similarly, the movement signals from the brain come down to the spinal cord and are sent to the peripheral nervous system. The presence of the spinal cord can transmit signals from the brain much faster than those without the spinal cord, so vertebrates have a much greater central nervous system than invertebrates. Some vertebrates and invertebrates have primitive spines that are not protected by the spine. In vertebrates, spinal cords appear during development and then disappear and are replaced by the spinal cord. The spinal cord plays a role in controlling reflexes, as well as connecting the brain and the peripheral nervous system. Many reflexes are directly related to the survival of the animal, and therefore require a fast response rate so that the spinal cord is directly controlled without going through the brain. For example, tapping the knee with a hammer will cause the muscles to move by creating a muscle reflection that raises the leg from the spinal cord after the stimulus reaches the spinal cord. The spinal cord is also involved in the reflexive function of the autonomic nervous system, and acts on both the sympathetic and parasympathetic nervous system to regulate visceral function.

As such, when cancer or other diseases occur in the spinal cord, which is a main part of the body, surgery or injecting drugs is performed. The conventional drug injecting device is one drug as shown in FIG. 1. The injection tube 20 is integrally formed to communicate with the lower part of the body 10 to be stored, and then the incision part is cut by the procedure. Then, the end of the injection tube 20 is fixed between the vertebrae and then the incision part. By suturing and pressing the body 10 from the outside according to the patient's condition to inject one drug into the spinal cord to observe the therapeutic effect, and incision and suture surgery to inject other drugs according to the patient's progress Because of the large number of repetitive treatments, the patient's treatment time is prolonged by the multiple incisions and sutures due to the injection of drugs. And, it has also been accompanied by a problem in that the frequency of treatment and the efficiency greatly decrease considerably when the drug discharged from the body 10, which is reverse to the motion of the patient.

Therefore, in order to solve the above problems, the present invention provides a body formed with a plurality of storage units which are filled with different cell therapeutic agents and drugs, and an injection tube having a predetermined length communicated by an inlet at the bottom of the body. By forming integrally in communication with the storage unit and the inflow passage, the cell therapeutic agent and the drug of the storage unit can be sequentially injected into the spinal cord, thereby injecting the cell therapeutic agent and the drug having various functions by a single incision and suture surgery. This can greatly improve the efficiency and productivity of the procedure, which reduces the duration of treatment for spinal cord patients, improves the economics by reducing the cost of the procedure, and minimizes the pain of patients due to the procedure. And it is aimed to provide a drug injection device.

In order to achieve the above object, the present invention comprises a body formed with a plurality of storage unit is filled with different cell therapy and drugs; The lower portion of the body is integrally formed with an injection tube of a predetermined length communicated by the inlet hole, the storage unit and the injection tube is integrally formed to communicate with each other by each inlet path to the cell therapy and drug of the storage unit Characterized in that it can be sequentially injected into the spinal cord.

Each inflow path formed between the storage unit and the injection tube is characterized in that the blocking plate and the blocking jaw are formed integrally to prevent the reverse flow of the cell therapy drug and drugs.

By providing the intravertebral cell therapy and drug injection device of the present invention as described above, the cell therapy and drug of various functions can be sequentially injected by one incision and suture surgery, the cell therapy by the reflux blocking plate And by blocking the backflow of the drug can greatly improve the efficiency and productivity of the procedure, and also to prevent the case where the storage unit is arbitrarily compressed by the protective cover can achieve the stability of the procedure, thereby treating the spinal cord patient It is a useful invention that can shorten the period and improve the economics by reducing the cost of the procedure as well as to minimize the pain of the patient due to the procedure.

1 is an exemplary view showing a conventional injection device.
Figure 2 is a perspective view of the intravertebral cell therapy and drug injection device according to the present invention.
Figure 3 is a plan view of the spinal intracellular therapeutic agent and drug injection device according to the present invention.
Figure 4 is a front sectional view of the intravertebral cell therapy and drug injection device according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in the spinal intracellular therapy and drug injection device of the present invention is injected, molded and bonded using a soft or hard synthetic resin material, the body 100 and the storage unit 200 and the injection tube 300 It is largely composed.

The body 100 is formed in the form of a circle or a plurality of petals having a predetermined thickness, the injection tube 300 is integrally formed in the lower center, the injection tube 300 and the inlet hole 110 Will be communicated by).

The storage unit 200 is a space in which cell therapeutic agents and drugs of various functions are filled and stored, respectively, a plurality of which are integrally formed on the upper portion of the body 100 and each inflow path on one side of the storage unit 200. To form (210), the inlet passage 210 is in communication with the inlet hole 110 and the injection tube 300 of the body 100 is injected with the cell therapy and drug filled in the storage unit 200 What is necessary is to be able to be sequentially injected into the spinal cord as needed through the tube (300).

At this time, each of the inlet path 210 formed between the storage unit 200 and the injection tube 300, the blocking plate 220 and the blocking jaw 230 are integrally formed so as to prevent the reverse flow of the cell therapy drug and drugs. It is preferable to form.

In addition, the storage unit 200 is integrally formed or bonded to the protective cover 240, which is injection-molded with a hard synthetic resin material on the outer periphery of the storage unit 200 is compressed by the external pressure to discharge the cell therapeutic agent and drug It is preferably protected so as to form a hollow 242 in the center of the protective cover 240, it is preferable that only the cell therapy and drug can be discharged when the storage unit 200 is compressed with a ballpoint pen.

That is, by using a synthetic resin of a rigid material in the storage unit 200 is provided with a protective cover 240 of the hemispheric shape in which the hollow 242 is in the center separately, by adhering or by injection molding integrally, the patient lies down By preventing the storage unit 200 from being compressed by the action of leaning against the wall or the like, it is possible to prevent the introduction of unnecessary cell therapy drugs and drugs, thereby stably injecting cell therapy drugs and drugs.

On the other hand, in the center of the outer periphery of the storage unit 200 to display through the X-rays (X-ray), respectively, the metal points 250 to display the information of the cell therapeutic agent and drug filled in each storage unit 200 It is preferable that the doctor directly checks and compresses the storage unit 200 filled with the necessary cell therapy and drugs according to the patient's condition.

That is, the metal points 250 are respectively formed according to the number of the storage parts 200 in the center of the surface of the storage part 200, and the types of cell therapeutic agents and drugs filled in the storage parts 200, for example, antibiotics. Alternatively, after confirming directly by an X-ray whether the stem cell is filled in the storage unit 200, the storage cell 200 filled with the necessary cell therapy and drugs may be compressed according to the patient's condition. .

The injection tube 300 is provided in the form of a pipe having a predetermined diameter and length formed integrally to communicate with the inlet hole 110 in the lower portion of the body 100 and the cell therapeutic agent filled in the storage unit 200 and The drug can be easily reached to the spinal cord.

As described above, the action of the intracavitary cell therapeutic agent and the drug injection device, which is composed of a plurality of configurations, first, incise the patient's back, and then insert and fix the end of the injection tube 300 to the spinal cord in the spine, and then the incision part. After resealing the X-rays according to the condition of the patient to check the location of the cell therapy and the drug required by the metal point 250, and then press the storage unit 200 of the position identified by the end of the ballpoint pen when the storage Cell therapy and drug filled in the part 200 is discharged to the inlet 210, and is injected into the spinal cord via the injection tube 300 in communication with the inlet 110 through the inlet 210 will be.

At this time, the cell therapeutic agent and the drug injected into the injection tube 300 is blocked by the blocking plate 220 and the blocking jaw 230 formed in the inflow path 210 to flow back to the storage unit 200 or other storage Since backflow does not occur in the unit 200, the stability and efficiency of the procedure may be greatly improved.

In addition, the outside of the storage unit 200 is a rigid protective cover 240 is integrally formed so that the case where the storage unit 200 is not squeezed by the patient lying down or leaning on the back of the cell stable Therapeutic and drug infusions are possible.

Subsequently, after the passage of time, the patient's condition is checked to sequentially compress the storage unit 200 filled with the cell therapy and drugs necessary for the patient, thereby enabling short-term treatment of the spinal cord, thereby remarkably reducing the economic burden on the patient. Will be able to reduce

100: body 110: inlet hole
200: storage 210: inflow path
220: blocking plate 230: blocking jaw
240: protective cover 242: hollow
250: metal point 300: injection tube

Claims (2)

Body 100 is formed integrally with a plurality of storage unit 200 is filled with different cell therapy and drugs;
In the lower portion of the body 100 is integrally formed with an injection tube 300 of a predetermined length communicated by the inlet hole 110,
The storage unit 200 and the injection tube 300 are integrally formed to communicate with each other by the respective inflow passages 210 so as to sequentially inject the cell therapeutic agent and the drug of the storage unit 200 into the spinal cord. Spinal intracellular therapy and drug injection device, characterized in that. According to claim 1, Each inlet 210 formed between the storage unit 200 and the injection tube 300, the blocking plate 220 and the blocking jaw (respectively) to prevent the reverse flow of the cell therapy and drug ( Intracoccal cell therapy and drug injection device, characterized in that the 230 is formed integrally.

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