KR100784848B1 - microneedle for injection molding - Google Patents

Abstract

The present invention relates to a microneedle that is easy to injection molding, the object is to provide a microneedle is configured to have a shape suitable for the injection mold is possible mass production using the injection mold. The present invention for this purpose is made of a block portion; A chamber formed to have a predetermined depth from an upper surface of the body part to provide a space for storing a drug or collected body fluids; A needle portion extending in parallel with the body from one side of the body portion, the tip portion of which is pointed to be injected into the human body; A channel formed to have a predetermined depth from an upper surface of the needle portion, the one end of which is connected to the chamber, and the other end of which extends to the side of the needle to provide a passage through which drugs or body fluids pass; And a cover part attached to an upper portion of the body part to cover the chamber. The technical gist of the present invention relates to a microneedle for easy injection molding.

Fine needle, injection mold, body, needle, chamber, channel

Description

Microneedle for easy injection molding

1 is a perspective view of a fine needle according to an embodiment of the present invention,

2 is a plan view of FIG.

3 is a side view of FIG. 1;

4 is a detailed view 'A' part of FIG.

5 to 8 are cross-sectional views showing the structure of the channel shown in FIG.

<Description of the symbols for the main parts of the drawings>

100: fine needle 110: body portion

120: chamber 130: needle portion

140: Channel 150: Cover

The present invention relates to a microneedle, and in particular, for medical use, for drug delivery or blood collection, and relates to a microneedle having a structure advantageous for injection molding.

Methods for delivering various drugs for treatment or prevention to the human body include oral drug delivery, inhalation drug delivery, injection drug delivery, transdermal drug delivery and transmucosal drug delivery. .

One of the obstacles to drug delivery by the transdermal is the stratum corneum. The stratum corneum is composed of dead cells of non-nucleated layers. In order to penetrate the stratum corneum and increase the efficiency of transdermal drug delivery, a mechanical scratch or a chemical accelerator (softener) is applied to the skin. It is considered to be an undesirable side effect. In addition, since the stratum corneum itself acts as an obstacle to effective skin permeation of the drug, there was a limit to increase the efficiency of the simple drug delivery system.

The drug delivery by injection has the advantage of delivering the drug to the subcutaneous tissue without being affected by the stratum corneum, but the pain is delivered when the drug is delivered because the needle penetrates through the dermis and into the subcutaneous tissue. Patients who need to measure blood glucose frequently and take insulin daily suffer from physical and mental pain.

Accordingly, microneedles having intermediate properties of drug delivery by transdermal and drug delivery by injection have been proposed. These microneedles physically penetrate the stratum corneum to secure an effective drug delivery route, and the diameter of the inner and outer diameters of about 100㎛ and the depth of penetration can be adjusted as needed, thereby reducing pain close to painlessness. Has the advantage.

Such microneedles are often processed as single products through the latest micromachining methods such as laser processing, MEMS (Micro Electro Mechanical System), silicon processing, and deep reactive ion etching (DRIE). Since the processing cost is high, in view of the fact that the patch of the microneedle type is consumable for one-time use, it is difficult to commercialize due to the high production cost.

The present invention has been made in consideration of the above problems, and an object of the present invention is to provide a fine needle having a shape suitable for an injection mold.

Another object of the present invention is to provide a microneedle that is easy to injection molding to lower the production cost of the microneedle to facilitate the mass production using a mold to accelerate the commercialization of the microneedle.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional drawbacks are made of a block portion body; A chamber formed to have a predetermined depth from an upper surface of the body part to provide a space for storing a drug or collected body fluids; A needle portion extending in parallel with the body from one side of the body portion and having an end thereof pointed to be injected into the human body; A channel having one end connected to the chamber and another end thereof extended to the needle part to provide a passage through which the drug or body fluid passes; And a cover part attached to an upper portion of the body part to cover the chamber.
The needle portion is provided with left and right side surfaces extending in parallel with each other from the front of the body portion,
The channel is formed to have the same depth as the chamber from the upper surface of the needle portion, and the end is formed to extend to the side of the needle portion is characterized by easy injection molding fine needle.

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Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 to 3 show a fine needle 100 according to a preferred embodiment of the present invention. 1 to 3, the microneedles 100 according to an exemplary embodiment of the present invention may include a body part 110, a chamber 120, a needle part 130, a channel 140, and a cover. It is composed of a portion (150). The microneedle 100 has a structure suitable for injection molding, which enables mass production, and is configured to implement a unique function of the microneedle such as drug delivery and body fluid collection.

The body 110 has a block shape having an upper surface 110a and a lower surface 110b and front / rear / left / right side surfaces 110c, 110d, 110e, and 110f.

The chamber 120 forms a space in which drugs and body fluids are stored, and is formed to have a predetermined depth from the upper surface 110a of the body part 110. Preferably, the chamber 120 is formed to have a uniform depth as a whole.

The needle portion 130 is injected into the human body, is located on the same plane as the body portion 110 and formed in a structure protruding forward from the front surface (110c) of the body portion 110 to penetrate the stratum corneum layer It is configured to be inserted into the skin tissue, the tip of which is pointed for ease of insertion. Referring to FIG. 4, the left and right side surfaces 130a and 130b of the needle portion 130 extend in parallel with each other from the front surface 110c of the body portion 110 and then the needle portion 130. It is formed to be inclined to cross each other at the ends of the. At this time, the end of the needle 130 is formed to have an angle of approximately 30 degrees. On the other hand, the inclined portion 131 may be further formed at the lower end of the needle portion 130 for easier insertion of the needle portion 130. The inclined portion 131 is formed to be inclined downward toward the body portion 110 from the upper end of the needle portion 130. Since the needle portion 130 is formed to have a width of 0.1 to 0.2 mm, the pain of the user can be reduced, and the pain can be further reduced by forming the inclined portion 131 at the end thereof.

On the other hand, the front portion 110c of the body portion 110 to which the needle portion 130 is connected is inclined to have a structure that protrudes further toward the front toward the needle portion 130 for ease of use of the microneedle 100. Is formed.

The channel 140 forms a passage for delivery of the drug and the collection of body fluid through the needle part 130, and is formed to have a predetermined depth from an upper surface of the needle part 130, and one side thereof is a chamber 120. ), And the other side thereof is formed in a structure extending to the side of the needle portion (130). Meanwhile, the channel 140 is formed to have the same depth as the chamber 120, which helps simplify the mold structure for forming the fine needle 100. In addition, the channel 140 is formed in a structure extending to the left and right sides (130a, 130b) of the needle portion 130, when the needle portion 130 is inserted into the human body, the channel 140 by the skin tissue It is configured to prevent the blockage. That is, when the channel 140 is formed in a straight shape from the chamber 120 to the end of the needle portion 130, the scanning direction of the needle portion 130 and the direction of the channel 140 is the same, so that the skin tissue channel Blocking the inlet side of the 140 may interfere with the delivery of the drug or the collection of body fluids may occur, but the channel 140 extends to the left and right sides of the needle unit 130 to the scanning direction and the channel ( By not making the same direction of 140, it is possible to prevent the blockage of the channel 140 by the skin tissue.

5 to 8 show the cross-sectional structure of the channel. 5 to 8, the channel 140 is formed to have a cross-sectional structure selected from an inverted triangle shape, a square shape, a trapezoidal shape, or a semi-circle shape. The cross-sectional structure of the channel may be selected and applied in consideration of ease of mold processing and smooth flow of drugs or body fluids.

The cover part 150 is to form a space for storing the drug or body fluid while the chamber 120 is isolated from the outside, it is configured to be attached to the upper surface of the body portion 110 to cover the chamber 120 do. In this case, the cover part 150 may be attached to the body part 110 by an adhesive method using heat or a chemical adhesive or electric or ultrasonic waves. Such a bonding method is a well-known processing method, and a detailed description thereof will be omitted.

The body portion 110 and the needle portion 130 are formed at the same height to be located on the same plane, the structure 120 and the channel 140 for the storage and flow of drugs and body fluids are formed in the same depth, That is, except for the upper surface and the bottom surface of the fine needle 100, since there is only one intermediate layer, the structure of the mold can be simplified as much as possible to facilitate the processing of the mold having the molding space in micro units.

Body portion 110 and the needle portion 130 and the cover portion 150 is made of a resin for ease of molding, the body portion 110 and the needle portion 130, the chamber 120 and the channel ( Each side edge formed at 140 is rounded and configured to prevent concentration of stress at the edge portion.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The present invention enables the mass production of fine needles by injection molding by simplifying the structure of the microneedle as described above and having an advantageous structure for injection molding, thereby enabling commercialization by reducing the production cost.

Claims (9)

delete Body portion made of a block shape; A chamber formed to have a predetermined depth from an upper surface of the body part to provide a space for storing a drug or collected body fluids; A needle portion extending in parallel with the body from one side of the body portion and having an end thereof pointed to be injected into the human body; A channel having one end connected to the chamber and another end thereof extended to the needle part to provide a passage through which the drug or body fluid passes; And a cover part attached to an upper portion of the body part to cover the chamber. The needle portion is provided with left and right side surfaces extending in parallel with each other from the front of the body portion, The channel is formed to have the same depth as the chamber from the upper surface of the needle portion, and the end is formed to extend to the side of the needle portion easy to injection molding microneedle. The method of claim 2, The channel is easy to injection molding microneedle, characterized in that formed to extend from the chamber to the left / right sides of the needle. The method of claim 2, Each side edge formed in the body portion, the needle portion, the chamber and the channel is easy to injection molding microneedle, characterized in that formed rounded to prevent stress concentration. The method of claim 2, The front surface of the body portion connected to the needle portion, the needle closer to the injection molding, characterized in that formed inclined so as to protrude further toward the front closer to the needle portion. The method of claim 2, The channel has an inverted triangular cross-sectional structure, it is easy injection molding fine needle. The method of claim 2, The channel has a rectangular cross-sectional structure, it is easy to injection molding fine needle. The method of claim 2, The channel has a trapezoidal cross-sectional structure, it is easy to injection molding fine needle. The method of claim 2, The channel has a semicircular cross-sectional structure, it is easy to injection molding fine needle.

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