JP6726512B2 - Micro needle applicator - Google Patents

Description

The present invention relates to an applicator for administering a microneedle patch to the skin.

Oral administration and transdermal administration are often used as a method for administering a drug into the human body. Injection is a typical transdermal administration method, but it is an unwelcome method that is cumbersome, painful, and may cause infection. In the case of transdermal administration, the stratum corneum of the skin acts as a barrier for drug permeation, and merely coating the drug on the skin surface does not necessarily have sufficient permeability. On the other hand, by piercing the stratum corneum with fine needles, that is, microneedles, the drug permeation efficiency can be significantly improved as compared with the coating method. A microneedle array is formed by accumulating a large number of these microneedles on a substrate. In addition, an adhesive sheet for attaching the microneedle array to the skin and a protective release sheet for protecting the adhesive sheet and supporting the microneedle array on the skin are added to make the product easy to use. What was done is called a microneedle patch.

When administering the microneedle array to the skin, it is not easy to insert the microneedle into the skin simply by pressing the microneedle array with a finger. This is because the skin is generally a soft and elastic tissue, so even if the pointed tip of the microneedle is pressed against the skin, the skin absorbs the impact and deforms to prevent the microneedle from entering the skin. Is.

To administer the microneedle array to the skin capable of absorbing shock, it is appropriate to impact the microneedle array toward the skin. As a concrete method of this, a microneedle administration device (microneedle applicator) using a spring (Patent Documents 1 to 6 and 8), air pressure (Patent Document 5), magnetic force (Patent Document 7), etc. has been proposed so far. Came. In order to make the spring easy to use for women and children, it is necessary to devise a spring compression method and a trigger method. Also, the use of air pressure or magnetic force is not always simple. The conventional microneedle array administration device has a problem in practical use, and the user has demanded a device that is simpler and can surely realize the insertion.

Microneedles made of water-soluble material dissolve in the moisture in the skin after puncture, but this takes a considerable amount of time, and this is convenient for the recipient especially for cosmetic purposes. Remarkably impairs sex. When a microneedle array is made of a water-soluble material, water is supplied from the back surface after the microneedle is inserted into the skin, the microneedles are rapidly dissolved (Patent Document 9). However, there has not been an applicator capable of supplying water while the microneedle patch is administered to the skin and accelerating dissolution of the microneedle in the skin, which can perform both administration and water supply.

Japanese Patent Publication No. 2004-510530 (Patent No. 4198985) Japanese Patent Publication No. 2004-510534 (Patent No. 4104975) Japanese Patent Publication No. 2004-510535 (Patent No. 4659332) Japanese Patent Publication No. 2005-533625 Japanese Patent Publication No. 2006-500973 Japanese Patent Publication No. 2007-509706 (Patent No. 4682144) JP, 2011-078711, A JP, 2014-42788, A JP 2011-194189 A (Patent 5408592)

The problem to be solved by the present invention is that the microneedle patch can be taken out from the microneedle patch storage container by an extremely simple and hygienic operation, and the microneedle patch can be reliably administered to the skin having a shock absorbing ability, It is to provide a simple and easy-to-use microneedle applicator that can supply water from the back surface of a needle array.

The microneedle applicator according to the present invention made to solve the above-mentioned problems is characterized by including a cylinder having a piston, a spring, a latch, and a patch holding portion, and a liquid container.

The applicator of the present invention includes a piston and a spring in the cylinder, and further includes a latch for controlling the movement of the piston. The piston can maintain the airtightness inside the cylinder. The tip of the cylinder is provided with a patch holding portion for holding the microneedle patch.

The liquid container is attached to the outside or the inside of the cylinder, and stores sterilized water or lotion to be injected into the microneedle patch after insertion. The liquid container and the tip of the cylinder are connected by a thin tube that conveys liquid.This thin tube passes through the inside of the piston, the outside of the piston, or the outside of the cylinder. Any one can be used as long as it can guide the lotion to the tip of the cylinder without leakage.
Further, it is desirable to have a valve for controlling the supply of the liquid from the liquid container.

The first function of the applicator of the present invention is that the microneedle patch is sucked from the storage container using reduced pressure and held at the tip of the applicator, and the microneedle patch can be directly attached to the skin. That is, when the microneedle patch is taken out from the container, and when the microneedle patch is attached to the skin surface, it is not necessary to directly touch the microneedle patch, and the microneedle patch can be handled safely and sanitarily. Further, the applicator does not come into contact with the skin of the recipient during this operation, which is safe and hygienic.

The second function of the applicator of the present invention is that the microneedle patch held at the tip portion is pressed against the skin surface with a uniform force so that the microneedle can be inserted into the skin or into the corneum.
When the microneedle is inserted, the back surface of the microneedle patch can be impacted with a piston using a spring.

The third function of the applicator of the present invention is that water can be supplied from the back surface of the inserted microneedle patch. It is already known that the microneedles made of a water-soluble polymer can be rapidly dissolved by supplying water from the back surface of the inserted applicator (Patent Document 9). If it can be dissolved quickly, the treatment of the recipient will proceed rapidly and the convenience for both the recipient and the recipient will be improved. As the water supplied from the back surface, lotion can be preferably used.

INDUSTRIAL APPLICABILITY The applicator of the present invention can sequentially perform the three functions of taking out a microneedle patch, puncturing, and water supply, and has a function more than that of a known applicator (patent document 7) that only punctures a microneedle patch. Are substantial. As a result, the microneedle patch can be handled only by the applicator, which simplifies the method of use, which is beneficial to both the administrator and the recipient.

The applicator of the present invention does not use a disposable microneedle patch holder for puncturing, but does not directly handle the microneedle array by hand, and since the applicator does not contact the skin of the recipient, Safe and hygienic handling of microneedle patches. As a result, it is not necessary to sterilize the applicator each time when continuously administering to a plurality of recipients, and the administration becomes easy. This is a convenient feature when using the microneedle applicator in a beauty salon or the like.

It is convenient to use because it can supply water to the inserted microneedle patch and quickly dissolve it. In particular, when administered at a beauty salon, it is not necessary to spend a long time on one recipient, which is convenient.

There is no known applicator capable of sequentially performing the three functions of taking out the microneedle patch, inserting, and supplying water. In particular, a mechanism for sucking the microneedle patch into the applicator by using reduced pressure, taking it out from the container, and bringing it into close contact with the skin has not been known.

Example of manufacturing process of microneedle array Example of cross-sectional view of microneedle array Diagram of the initial state of the applicator of the first embodiment The figure of the state where the applicator of 1st Example hold|maintains a microneedle patch. Drawing of the applicator of the second embodiment Drawing of the applicator of the third embodiment

Hereinafter, embodiments of the present invention will be described based on examples. However, the present invention is not limited to the contents of the embodiments.

(Manufacture of microneedle array)
After irradiating the photosensitive resin with light by a lithographic method to form a microneedle pattern of a predetermined shape, electrocasting was performed to manufacture a mold 10 in which a microneedle forming recess was formed by transferring the microneedle pattern of the predetermined shape. FIG. 1 shows the mold 10 and an aqueous solution 12 of the microneedle material (water-soluble polymer) poured on the upper surface of the mold 10.
The microneedle forming recess 11, 0.2 mm entrance diameter, bottom diameter 0.04 mm, a conical shape of depth 0.8 mm, they are arranged in a lattice pattern on 0.6mm interval, per 1 cm ² 250 are formed.

The microneedle array formed by this mold 10 is composed of microneedles 14 and a substrate 13, as shown in the sectional view of FIG. The microneedles are provided on one surface of the substrate. In this figure, each microneedle has a truncated cone shape having a needle base diameter (b) of 0.2 mm, a tip diameter (c) of 0.04 mm, and a height (a) of 0.8 mm, and a distance (d) of 0. It is arranged in a lattice shape with a length of 6 mm. When this microneedle array is formed into a circular shape, about 250 microneedles are included in 1 cm ² .
In the following test, a circular microneedle patch having a diameter of 1.5 cm and made of hyaluronic acid, which is a water-soluble polymer, was used.

The applicator of Example 1 of the present invention is shown in FIG. In this figure, the cylinder 20 is shown in cross section.
The applicator includes a piston 21, a spring 22 and a latch 23 inside a cylinder 20. At the tip of the lower part of the applicator, there is provided a patch holding portion 24 having a flat shape with a slightly widened tip.
For convenience of the following description, the side closer to the skin (lower side in FIG. 3) when using this applicator is defined as the lower side, and the opposite direction (upper side in FIG. 3) is defined as the upper side. Further, in the microneedle patch, the side with the microneedles is defined as the front surface, and the opposite surface is defined as the back surface.

A liquid container 30, a valve 31, and a knob 32 for opening and closing the valve are connected to the upper part of the applicator. A thin tube 33 extends from the valve 31 through the inside of the cylinder and continues to the patch holding portion 24. You may put sterilized water in the liquid container, but usually you should put lotion.

When the piston 21 is pulled below the cylinder 20 by using the puller, the spring 22 is compressed, but if it is continuously pulled as it is, it is held in a compressed state by the latch 23. The patch holding portion 24 is brought into close contact with the back surface of the microneedle patch 40 in the microneedle patch storage container, and the latch 23 is pushed. Then, the piston jumps upward, the pressure inside the cylinder 20 is reduced, and the microneedle patch 40 is sucked and held by the patch holding portion 24. Therefore, the cylinder 20 needs to maintain a reduced pressure, and is manufactured airtight. This state is shown in FIG. FIG. 4 is shown in cross section.
Although four microneedles are shown in FIG. 4, this is an enlarged drawing of the microneedles for the sake of clarity. In reality, the height of the microneedles is 0.8 mm, and the number is several. It is a hundred.

The microneedle patch sucked and held by the applicator is taken out from the container, and the applicator is pressed firmly against the skin of the recipient to insert the microneedle patch into the keratin, and if the needle is long, it passes through the keratin. Then it is inserted into the skin. During this time, the microneedle patch does not touch the human hand at all, so it is kept hygienic.

Take the microneedle patch out of the container, contact it with the skin, fix it to the skin with the adhesive tape attached to the microneedle patch, remove the applicator once, compress the piston again, and reverse it to place it on the back surface of the microneedle patch. It is also possible to place it on the back of the microneedle patch with the piston by pulling the latch and inserting it. In this case as well, the microneedle patch does not touch the human hand at all, and the applicator does not touch the body of the recipient, so that the microneedle patch is inserted hygienically.
In this case, the thin tube 33 cannot pass through the inside of the piston.

The applicator remains pressed against the microneedle patch after it has been inserted into the skin. In this state, if the knob 32 is operated to open the valve 31, the lotion from the liquid container 30 passes through the thin tube 33 and is poured onto the back surface of the microneedle array.
The water injection amount at this time is adjusted so as to be 0.05 to 0.1 mL when the valve 31 is momentarily opened. In many cases, this amount of water is sufficient, but if necessary, by extending the valve opening time, a larger amount of water can be injected.
Since the amount of lotion injected per time is not large, the liquid container may be small, but the larger one is convenient for continuous administration to a plurality of recipients.

Since hyaluronic acid is easily dissolved by adding water, the microneedle patch is rapidly dissolved by water injection, and the microneedle is dissolved and absorbed in the skin.
The applicator can be removed from the skin and the microneedle patch applied to the skin well massaged to further facilitate dissolution.
This applicator is extremely effective for accelerating dissolution of the microneedle patch after dermal administration and promoting percutaneous absorption.

5 shows another embodiment of the applicator of the present invention.
A cross-sectional view of the applicator of the second embodiment is shown in FIG. 5, which is characterized in that the thin tube 34 passes through the outside of the cylinder. The method of use is the same as in the first embodiment. The numbers of the same parts as those in the first embodiment are omitted.
In FIG. 5, the drawing on the left side is the drawing in the initial state, and the drawing on the right side is the drawing in which the microneedle patch is suction-held. The figure on the right is a state rotated by 90° with respect to the figure on the left.

3 shows a third embodiment of the applicator of the present invention.
A cross-sectional view of the applicator of Example 3 is shown in FIG. 6, which is characterized in that the liquid container 35 has a dropper shape that can be removed from the cylinder. The liquid container 35 is conveniently made of rubber. Other parts are the same as those in the first embodiment, and the description of the numbers is omitted in FIG. 6 is a diagram when the liquid container 35 is empty.

In order to fill the liquid container 35 with the lotion, the liquid container 35 is once removed, filled with the principle of a dropper, and the lotion is prevented from flowing out with a pinch cock or the like, and then it is attached to the cylinder again. The microneedle patch can be taken out and inserted in the same manner as in Example 1. When pouring the lotion into the microneedle patch, open the pinch cock and press the rubber part of the dropper to release the lotion from the cylinder tip 24. The applicator of the third embodiment has a simpler structure than the applicators of the first and second embodiments, and therefore can be manufactured at a lower cost, and is considered convenient for personal use, which is expected to be used once or twice a day. To be

Claims (5)

A cylinder having a piston, a spring, a latch and a patch holding portion,
The tip of the cylinder is provided with the patch holding portion for holding the microneedle patch,
The cylinder includes the piston, the spring, and the latch for controlling the movement of the piston,
When the piston is pulled below the cylinder, the spring is compressed, and when the piston is continued to be pulled, the spring is held in a compressed state by the latch, where the lower side indicates the direction of the cylinder tip,
Airtightness in the cylinder is maintained by the piston,
The inside of the cylinder has an airtight structure in which a microneedle patch is brought into close contact with the patch holding portion, and the pressure is reduced when the piston is pulled upward, the cylinder,
A microneedle applicator composed of a liquid container ,
The liquid container is attached to the outside or the inside of the cylinder, and stores the liquid to be injected into the microneedle patch after insertion,
A microneedle applicator in which the liquid container and the tip of the cylinder are connected by a thin tube that conveys the liquid, and the thin tube passes inside or outside the piston inside the cylinder or outside the cylinder. The microneedle applicator according to claim 1 , wherein the microneedle patch can be suction-held by depressurization. The microneedle applicator according to claim 1, wherein lotion is held in the liquid container. The microneedle applicator according to claim 1 , wherein the thin tube passes through the inside of the piston. The microneedle applicator according to any one of claims 1 to 4, wherein the liquid container has a dropper shape.

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