JP5467336B2 - Compound needle for inhaling medicinal solution, medicinal solution container using the same, and medicinal solution inhaling method - Google Patents

Description

  The present invention relates to a medical solution inhalation compound needle used when a medical solution such as an injection is sucked into a syringe or the like and mixed in a medical field or the like, a chemical solution container using the same, and a chemical solution inhalation method.

  When applying medical solutions to hospitalized patients in hospitals, etc., it is often the case that several types of chemical solutions are taken out from chemical solution containers of different sizes and shapes and mixed. In addition, the operation of mixing such chemical solutions often relies on the hands of nurses, pharmacists and the like, and inserts an injection needle into a chemical solution container to inhale the chemical solution, which is a heavy work burden. In particular, when a chemical solution is inhaled from a chemical solution container such as a sealed vial container, it is necessary to adjust the internal pressure in the container. Therefore, it is necessary to perform an operation (hereinafter referred to as a pumping operation) in which the chemical solution in the chemical solution container and the air in the syringe (hereinafter referred to as a syringe) are alternately replaced, which further increases the work load. In addition, some chemicals used in hospitals should be handled with due consideration to safety, such as anti-cancer drugs. Use compound needles for inhaling chemicals that can be handled safely and reduce the work burden. Development of a chemical container that has been desired is desired.

  FIG. 13 shows an example where a radioisotope of a radiopharmaceutical solution is taken out from a mouthpiece of a vial container, which is a chemical solution container, using a chemical solution inhalation compound needle, and this chemical solution inhalation compound needle is inserted. FIG. As shown in FIG. 13, a vial container 2 containing a radioisotope chemical solution 1 of a radiopharmaceutical solution is placed in a guide tube in an inverted state, and the vial container 2 is sealed with a cap 4. Two long and short injection needles 5 disposed through the spigot 4 are inserted as a compound needle for inhaling a chemical solution, and the chemical solution is taken out by the lower elastic tube 6 (see, for example, Patent Document 1). Here, air is introduced into the vial container 2 from the tube 6a under the long needle 5a through the long needle 5a, and the drug solution 1 is taken out from the tube 6b through the short needle 5b using the pressure. . With such a configuration, a pumping operation for adjusting the internal pressure in the vial container 2 becomes unnecessary. Thereby, the danger of exposure (aerosol generation | occurrence | production) of the dangerous chemical | medical solution from the vial container by the poor internal pressure adjustment reduces, and the chemical | medical solution 1 can be taken out safely.

JP 59-51400 A

  However, in the conventional technique described above, as shown in FIG. 14, the tip of the long needle 5a that introduces a gas such as air is the liquid 1 that is separated from the liquid surface 1a of the liquid 1 at the start of liquid inhalation. Is placed inside. Therefore, if the amount of gas introduced into the vial container 2 is increased in an attempt to efficiently take out the drug solution 1 in a short time, depending on the type of the drug solution 1, foaming occurs and foaming occurs in the vicinity of the liquid surface 1a. That is, bubbles 7 are generated from the region 5 c including the tip of the long needle 5 a, and these bubbles 7 gather to remain in a bubbled state in the region 7 a near the liquid surface 1 a of the chemical solution 1. On the other hand, if the medicinal solution 1 to be taken out is inhaled slowly in order to avoid such foaming, there is a problem that the inhalation efficiency is lowered and it takes time. Further, if bubbles continue to occur without taking time, there is a problem that it becomes difficult to inhale the entire amount of the drug solution 1.

  The present invention solves the above-described conventional problems, and suppresses the bubbling of the chemical solution and can efficiently inhale the chemical solution in the chemical solution container without waste, a chemical solution container using the same, and a chemical solution container using the same It aims at providing the chemical | medical solution inhalation method.

  In order to achieve the above object, the compound needle for inhaling a drug solution of the present invention has a needle base portion through which the adjustment needle and the inhalation needle penetrate, and the side surface of the needle base portion of the adjustment needle is inhaled when the drug solution is inhaled. In a compound needle for inhaling a chemical solution that inhales gas from an end portion and inhales a chemical solution from one end portion of the inhalation needle, the needle base has a vial container holding port for holding an opening of the vial container at an upper portion thereof. A syringe holding port for holding a syringe tip at the lower portion thereof, and the inhalation needle is disposed through the needle base from the vial container holding port to the syringe holding port, and the adjustment needle is The needle base is disposed so as to penetrate from the side surface of the needle base to the vial container holding port, and the axial length of the adjustment needle is at least twice and 10 times the axial length of the inhalation needle. Consists of the following configuration .

  By adopting such a configuration, it is possible to efficiently inhale the chemical solution by preventing foaming of the chemical solution when inhaling the chemical solution.

  Moreover, it is good also as a structure by which the at least 1 hole was provided in the outer peripheral surface of the edge part vicinity of the said inhalation needle arrange | positioned at the said vial container holding | maintenance port side.

  By adopting such a configuration, not only can the chemical solution be inhaled from the tip of the inhalation needle during inhalation of the chemical solution, but also the chemical solution can be inhaled from the hole in the outer peripheral surface, so that the chemical solution can be inhaled more efficiently. Moreover, it can inhale, without leaving a chemical | medical solution in a chemical | medical solution container.

  The adjustment needle and the inhalation needle may be arranged adjacent to each other in the axial direction.

  By adopting such a configuration, positioning and insertion of the adjustment needle and the inhalation needle with respect to the chemical solution container can be further simplified.

  The adjustment needle and the inhalation needle may be formed integrally with the needle base as conduits penetrating through the resin material.

  By adopting such a configuration, it is possible to reduce a needle stick accident during a chemical solution inhaling operation, and it can be used as a safe integrated compound needle and can be easily discarded. In addition, since there is no heel part at the needle tip of the compound needle, it is possible to suppress the occurrence of so-called coring phenomenon in which a part of the rubber stopper fitted as a lid of the vial container is scraped off as a rubber piece. Can be realized.

  Moreover, it is good also as a structure by which the hydrophobic filter is arrange | positioned at the said side surface of the said needle base part which makes the said adjustment needle inhale gas.

  By adopting such a configuration, it is possible to prevent the backflow of the chemical solution through the adjustment needle and the inflow of contaminants from the outside, and it is possible to inhale the chemical solution more safely.

  Moreover, it is good also as a structure by which the hydrophilic filter is arrange | positioned at the said holding | maintenance port which flows out a chemical | medical solution from the said needle for inhalation.

  By adopting such a configuration, it is possible to remove impurities in the chemical solution and to inhale the chemical solution more safely.

  In addition, the hydrophobic filter may be disposed on the side surface of the needle base portion that allows gas to flow into the adjustment needle, and the hydrophilic filter may be disposed on the holding port that causes the liquid medicine to flow out from the inhalation needle. Good.

  By adopting such a configuration, it is possible to prevent backflow of the chemical solution through the adjustment needle, prevent inflow of contaminants from the outside, remove impurities in the chemical solution, and more safely and reliably. Can be inhaled.

  In addition, the needle base portion may include a mechanism that adjusts the amount of protrusion of the adjustment needle from the needle base portion.

  By adopting such a configuration, it can be applied to a plurality of chemical liquid containers having different shapes and sizes, and the chemical liquid inhalation compound needle can efficiently inhale the chemical liquid.

  Further, a drug solution container of the present invention includes the above-described compound solution inhalation compound needle, and a vial container having an opening held in the vial container holding port of the compound solution inhalation compound needle. In the state where the compound solution inhalation compound needle is inserted into the vial container from the bottom with the opening as the upper part, the inclined tip portion of the adjustment needle is arranged so as to protrude from the liquid surface of the drug solution .

  By adopting such a configuration, it is not necessary to insert a needle into the vial container, and it is only necessary to insert a syringe. Therefore, the liquid medicine can be inhaled while preventing the liquid medicine from foaming more safely and efficiently.

  The holding port may have a recess, and the recess may be covered with a seal member.

  By adopting such a configuration, it is possible to realize a safer chemical solution container that can ensure the cleanliness and sealing property of the holding port and prevent backflow of the chemical solution and contamination from the outside.

  Further, the medicinal solution inhalation method of the present invention comprises a step of inserting and holding a syringe into the syringe holding port of the medicinal solution inhaling compound needle described above, and a vial container in which the medicinal solution inhaling compound needle is sealed. Inverting the step of configuring the chemical container by inserting it into the upper rubber stopper, reversing the chemical container holding the syringe 180 degrees and reversing the vertical positional relationship between the syringe and the vial container, A confirmation step for confirming that the inclined tip of the adjustment needle of the compound needle for inhaling the drug solution protrudes from the liquid surface of the drug solution inside the vial container in the vial container; and inhalation of the compound needle for inhalation of the drug solution Inhaling a drug solution into the syringe with a needle and inhaling gas into the vial container from the inclined tip of the adjustment needle; Consisting example was the method.

  By setting it as such a method, a chemical | medical solution can be inhaled efficiently and safely, preventing foaming of a chemical | medical solution.

  Moreover, it is good also as a method further provided with the adjustment step which adjusts the protrusion amount of the said adjustment needle from the said liquid level of the said chemical | medical solution.

  By adopting such a method, it can be applied to a plurality of chemical liquid containers having different shapes and sizes, and the chemical liquid inhalation compound needle can efficiently and safely inhale the chemical liquid.

  In the adjustment step, the protruding amount of the adjustment needle may be adjusted after pressing the inclined tip of the adjustment needle against the bottom of the vial container.

  By adopting such a method, the adjustment amount of the adjustment needle can be easily adjusted, and the inclined tip portion of the adjustment needle can be disposed so as to reliably protrude from the liquid surface.

  Further, in the inserting step, the compound needle for inhalation of the adjustment liquid is inserted from the liquid surface by inserting the compound needle for inhaling the drug solution in a state where the inclined tip portion of the adjustment needle is pressed against the bottom of the vial container. It is good also as the method of determining the amount of protrusions.

  By adopting such a method, it is possible to arrange the inclined tip of the adjustment needle so as to reliably protrude from the liquid level without being particularly aware of the adjustment of the protruding amount of the adjustment needle.

  According to the compound needle for inhaling medicinal solution, the medicinal solution container using the compound needle, and the medicinal solution inhaling method of the present invention, the medicinal solution can be efficiently and safely inhaled by preventing foaming of the medicinal solution.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows schematic structure of the compound needle for chemical | medical solution inhalation concerning Embodiment 1 of this invention, and a chemical | medical solution container using the same, (a) Cross-sectional view of compound needle for chemical | medical solution inhalation, (b) Cross-sectional view of chemical | medical solution container (A) Cross-sectional view of another compound solution inhalation compound needle according to the first embodiment of the present invention, (b) Cross-sectional view of another compound solution inhalation compound needle according to the first embodiment of the present invention. FIG. 6 is a cross-sectional view of still another compound solution inhalation needle according to the first embodiment of the present invention, wherein (a) a cross-sectional view of an adjustment needle and an inhalation needle arranged adjacent to each other in the axial direction; ) Cross-sectional view of the needle base integrated with the adjusting needle and the inhalation needle as a conduit penetrating each other. Sectional drawing of another compound needle for chemical | medical solution inhalation concerning Embodiment 1 of this invention Flowchart for inhaling drug solution in a vial container with a conventional injection needle (A) Schematic showing a first state in which a liquid medicine in a vial container is sucked by a conventional injection needle, (b) Outline showing a second state in which a liquid medicine in a vial container is sucked by a conventional injection needle. FIG. 4C is a schematic diagram showing a third state in which a liquid medicine in a vial container is sucked by a conventional injection needle, and FIG. 4D shows a fourth state in which a liquid medicine in a vial container is sucked by a conventional injection needle. Schematic diagram showing, (e) a schematic diagram showing a fifth state in which a drug solution in a vial container is inhaled by a conventional injection needle, and (f) a sixth model in which a drug solution in a vial container is inhaled by a conventional injection needle. Schematic diagram showing the state, (g) Schematic diagram showing a seventh state in which the drug solution in the vial container is inhaled by the conventional injection needle, (h) No. 1 in which the drug solution in the vial container is inhaled by the conventional injection needle FIG. 8 is a schematic view showing the state of FIG. Schematic diagram showing a ninth state of inhaling the drug solution in the Al container, (j) Schematic diagram showing the tenth state of inhaling the drug solution in the vial container with a conventional injection needle, (k) Conventional injection Schematic which shows the 11th state which inhales the chemical | medical solution in a vial container with a needle | hook The flowchart which inhales a chemical | medical solution by the chemical | medical solution inhalation method concerning Embodiment 1 of this invention The flowchart which inhales a chemical | medical solution by the chemical | medical solution inhalation method concerning Embodiment 1 of this invention (A) Cross-sectional view showing a first state in which a chemical solution is inhaled by the chemical solution inhalation method according to the first embodiment of the present invention, (b) First inhalation of a chemical solution by the chemical solution inhalation method according to the first embodiment of the present invention. Sectional drawing which shows the state of 2 (A) Cross-sectional view showing a third state in which a chemical solution is inhaled by the chemical solution inhalation method according to the first embodiment of the present invention, (b) First inhalation of the chemical solution by the chemical solution inhalation method according to the first embodiment of the present invention. Sectional drawing which shows the state of 4 Sectional drawing which shows schematic structure of the compound needle for chemical | medical solution inhalation concerning Embodiment 2 of this invention, and a chemical | medical solution container using the same It is a figure which shows schematic structure of the chemical | medical solution container concerning Embodiment 3 of this invention, (a) Sectional drawing which shows an erect state at the time of normal, (b) Sectional drawing which shows the inverted state when inhaling chemical | medical solution Cross-sectional view of a conventional compound solution inhalation needle and a solution container using the same Sectional view of a conventional chemical container containing a chemical solution with a foamed surface

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, the same code | symbol is attached | subjected to the same component and description may be abbreviate | omitted. In addition, the drawings schematically show each component as a main component for easy understanding.

(Embodiment 1)
FIG. 1 is a diagram showing a schematic configuration of a chemical solution inhalation compound needle 10 and a drug solution container 20 using the same according to Embodiment 1 of the present invention. FIG. ) Shows a cross-sectional view of the chemical container 20.

  As shown in FIGS. 1 (a) and 1 (b), the compound needle 10 for inhaling a liquid medicine according to the first embodiment penetrates the needle base 13 and the needle base 13 from the vial container holding port 11a to the syringe holding port 12a. And the adjustment needle disposed in parallel with the suction needle 14 through the needle base 13 from the side surface 13a of the needle base 13 to the vial container holding port 11a and up to the upper side of the vial container holding port 11a. Needle 15. The needle base 13 has a vial container holding port 11a for holding the opening of the vial container 11 at the upper part thereof, and a syringe holding port 12a for holding the tip of the syringe 12 at the lower part thereof. The length 15b of the adjustment needle 15 in the axial direction 15a is set to be not less than twice and not more than 10 times the length 14b of the inhalation needle 14 in the axial direction 14a. Then, the gas 11b is inhaled from the end portion 15c on the side surface 13a side of the needle base 13 of the adjustment needle 15, and the medicinal solution 17 is inhaled from the end portion 14c on the vial holding port 11a side of the inhalation needle 14.

  In this way, the liquid 17 is sucked by the suction needle 14 and guided to the syringe 12, and the gas 11 b is sucked into the vial container 11 from the end 15 c of the adjustment needle 15 to adjust the pressure inside the vial container 11. doing. The adjustment needle 15 has a length 15b longer than the length 14b of the inhalation needle 14, and the inclined tip of the adjustment needle 15 in a state where the vial container 11 is inverted when inhaling the drug solution 17. The portion 15 d is configured to protrude from the liquid surface 17 a of the chemical solution 17.

  By adopting such a configuration, even if the gas 11b flows from the outside of the vial container 11 into the vial container 11 in which the chemical liquid 17 has entered, the gas 11b is not directly mixed with the chemical liquid 17. Therefore, foaming due to the release of the gas 11b from the adjustment needle 15 into the drug solution 17 can be prevented, and the drug solution 17 in the vial container 11 can be efficiently inhaled. Further, since the inhalation needle 14 has an inclined tip portion 14c in the vicinity of the rubber stopper 17b fitted as a lid of the vial container 11, when the vial container 11 is inverted and the drug solution 17 is inhaled, the vial container is finally 11 can be efficiently inhaled without substantially leaving the drug solution 17 that accumulates at the bottom.

  The drug solution container 20 of the first embodiment includes a vial container 11 containing a drug solution 17 therein, the above-described compound needle 10 for inhaling the drug solution, and a syringe holding port 12a for holding a syringe 12 for inhaling the drug solution 17. A chemical container provided. In the state where the compound solution inhalation needle 10 is inserted into the vial container 11 from the bottom with the vial container 11 as the upper part, the drug solution 17 is inhaled from the inhalation needle 14 into the syringe 12 and the tip end of the adjustment needle 15 is inclined. The gas 11 b is sucked into the vial container 11 by projecting 15 d from the liquid surface 17 a of the chemical liquid 17.

  That is, the drug solution container 20 has a configuration in which the suction needle 14 is inserted into the vial container 11 containing the drug solution 17 sealed by the rubber stopper 17b and the syringe holding port 12a for holding the syringe 12 is formed. .

  In addition, as shown in FIG.1 (b), the syringe holding | maintenance port 12a is good also as a structure integrally formed with the needle base part 13 of the compound needle 10 for chemical | medical solution inhalation, and uses what was formed separately. May be. That is, by constructing such a syringe holding port 12a and the needle base portion 13 in an integrated manner, the syringe 12 can be placed at a position where it is desired to be placed simply by inserting the syringe 12 into the concave portion of the syringe holding port 12a. Can be realized.

  With the configuration as described above, it is not necessary to insert a needle into the vial container 11 as shown in FIG. 1B, and the chemical solution in the vial container 11 can be obtained by only fitting the syringe 12 into the chemical solution container 20. 17 can be inhaled. That is, the tip of the needle such as the inclined tip 15d of the adjustment needle 15 is arranged in advance in the vial container 11 so as not to touch a human hand or the like. Accidents can be prevented, and chemicals can be inhaled safely and efficiently. Further, since the inclined tip portion 15d of the adjustment needle 15 protrudes from the liquid surface 17a of the chemical liquid 17, the gas 11b flowing from the outside does not directly mix with the chemical liquid 17, and thus foaming can be prevented. Can be inhaled efficiently.

  Usually, the syringe 12 has a receiving portion 12f into which an injection needle or the like is fitted, which is firmly frictionally held by the syringe holding port 12a of the chemical solution container 20. And the chemical | medical solution 17 from the chemical | medical solution container 20 to the inside of the syringe 12 is pulled by pulling the gasket 12c which can be closely_contact | adhered to the inner peripheral surface of the barrel 12b which is an outer cylinder with the plunger 12d in the direction of the arrow 12e. Can be inhaled. At this time, as the amount of the chemical solution 17 inside the sealed vial container 11 decreases, the pressure of the space 11c in the vial container 11 in FIG. Is difficult to inhale into the syringe 12. However, in the chemical solution container 20 of the first embodiment, the space 11c is directly coupled to the outside of the vial container 11 via the adjustment needle 15, and the external gas is changed in accordance with the change in the atmospheric pressure inside the vial container 11. Since 11b can be directly inhaled, the pressure inside the vial container 11 can always be kept substantially equal to the atmospheric pressure. This eliminates the need for a pumping operation of a syringe that has been conventionally required for adjusting the internal pressure in the vial container, so that the medicinal solution 17 can be efficiently inhaled. Further, the risk of exposure (aerosol generation) of the drug solution 17 from the vial container 11 due to poor internal pressure adjustment is reduced, and the drug solution 17 can be sucked out of the vial container 11 safely.

  FIGS. 2A and 2B are cross-sectional views of other compound solution inhalation needles 30 and 35 according to the first embodiment of the present invention. 1 (a) and 1 (b) is formed with a hole 32 such as a slit or a punching mesh in the outer peripheral surface 31 of the end portion 14d of the inhalation needle 14 or the vicinity thereof. However, it is different. In other words, one or a plurality of holes 32 are formed in the outer peripheral surface 31 in the vicinity of the end portion 14d on the vial container holding port 11a side of the inhalation needle 14.

  By adopting such a configuration, not only can the chemical solution 17 (not shown) be inhaled from the tip of the inhalation needle 14, but also the chemical solution 17 can be inhaled from the hole 32 of the outer peripheral surface 31, so that the chemical solution 17 can be more efficiently performed. Can be inhaled. Therefore, the chemical solution 17 can be inhaled without leaving it in the chemical solution container 20 (not shown).

  In addition, the directions of the bevel cut surfaces of the inclined tip portions 15d and 14f of the adjustment needle 15 and the inhalation needle 14 are cut in an arbitrary direction depending on the application to be used. Further, the rib 33 for fixing the container base is attached to the needle base 13 so that the vial container 11 (see FIG. 1B) and the like are stably supported together with the syringe 12 (see FIG. 1B) without being detached. You may form in part. In this way, when the drug solution 17 is inhaled from the vial container 11, the vial container 11 can be stably held together with the compound solution inhalation compound needles 30 and 35, so that a nurse or pharmacist can perform a syringe inhalation operation with both hands. I can concentrate on it. As a result, it is possible to realize an efficient inhaling operation with less human burden.

  FIG. 3 is a cross-sectional view of still another compound solution inhalation needle 40, 45 according to the first embodiment of the present invention. FIG. 3 (a) shows that the adjustment needle 15 and the inhalation needle 14 are arranged adjacent to each other. Sectional view (b) is a sectional view of an adjustment needle 15 and an inhalation needle 14 integrated with a needle base.

  As shown in FIG. 3A, in the compound solution inhalation needle 40, the adjustment needle 15 and the inhalation needle 14 are adjacent to each other along the axial directions 15a and 14a (see FIG. 1A). The arrangement is arranged. In a region 41 indicated by a broken line, a short inhalation needle 14 having a length 14b is disposed so that the upper part of the bevel cut surface is adjacent to a position close to the long adjustment needle 15 having a length 15b. The adjustment needle 15 is integrated.

  With such a configuration, the two needles can be inserted into the vial container 11 as one body, so that the positioning needle 15 and the inhalation needle 14 are positioned and inserted into the vial container 11 containing the drug solution 17. Even easier.

  The compound solution inhalation needle 45 shown in FIG. 3B is configured such that the adjustment needle 15 and the inhalation needle 14 are integrally formed with the needle base 13 as a conduit 18 through which the resin material 46 penetrates. It is said. In this way, the mold can be used to integrally form the needle base 13, the adjustment needle 15 and the inhalation needle 14 using a mold, which can be easily manufactured and disposed of, and has almost the same shape due to mass production effects. Can be manufactured in large quantities at low cost. In addition, a syringe holding port 12 a that receives the syringe 12 can be formed integrally with the needle base 13. In FIG. 3B, the conduit 18 that is a hole-shaped space in the resin material 46 is formed as the adjustment needle 15 and the suction needle 14. In this way, by integrally molding the two needles with the resin material 46, it is possible to prevent a needle stick accident or the like that has occurred with the metal needle during the chemical solution inhaling operation. 3B, since the tip 47 does not have a heel portion in the shape of the compound needle 45 for inhaling a liquid medicine, when the rubber stopper 17b of the vial container 11 is punctured with a normal injection needle, the heel portion of the injection needle A so-called coring phenomenon in which a part of the rubber plug 17b is scraped off as a rubber piece does not occur. As a result, it is possible to prevent impurities such as rubber pieces from being mixed into the chemical liquid 17. In addition, it is easy to form a plurality of pressure adjusting ports 15g of the adjusting needle 15 in the tip portion 47 instead of one because the resin material 46 is integrally formed. Similarly, a plurality of suction ports 14g of the suction needle 14 can be easily formed.

  By adopting such a configuration, it can be used as a safer integrated compound liquid inhalation needle. In addition, since the distal end portion 47 of the compound solution inhalation needle 45 has no heel portion, the generation of the coring phenomenon can be suppressed and the solution 17 can be inhaled more safely.

  FIG. 4 is a sectional view of still another compound solution inhalation needle 50 according to the first embodiment of the present invention.

  4 is different from the compound solution inhalation needles 30 and 35 in FIGS. 2 (a) and 2 (b), and is in the vicinity of the side surface 13a of the needle base 13 that causes the adjustment needle 15 to inhale the gas 11b. It is set as the structure by which the hydrophobic filter 51 is arrange | positioned. In addition, a hydrophilic filter 52 is disposed in the vicinity of the syringe holding port 12a through which the drug solution 17 flows out from the inhalation needle 14.

  With such a configuration, it is possible to prevent the backflow of the chemical liquid 17 through the adjustment needle 15, prevent the inflow of contaminants from the outside, remove impurities in the chemical liquid 17, etc. The chemical solution 17 can be surely inhaled.

  That is, as shown in FIG. 4, the hydrophobic filter 51 is disposed in the vicinity of the side surface 13 a of the needle base portion 13 that allows the gas 11 b to flow into the adjustment needle 15, and the hydrophilic filter 52 flows out of the medicinal solution 17 from the inhalation needle 14. It is set as the structure arrange | positioned in the vicinity of the syringe holding port 12a to be made.

  Since the compound needle 50 for medicinal solution inhalation is inserted into the vial container 11 containing the medicinal solution 17 as shown in FIG. 1 (b), the compound needle 50 is arranged on the inflow side of the adjusting needle 15 used to allow the gas 11 b to flow into the vial container 11. The hydrophobic filter 51 is arranged, and contaminants such as impurities carried along with the gas 11b introduced from the outside are trapped by the hydrophobic filter 51 to prevent contamination of the drug solution 17 in the vial container 11. Yes. The hydrophobic filter 51 also prevents backflow of the drug solution 17 in the vial container 11 to the outside when the compound solution inhalation compound needle 50 is inserted or used incorrectly. As a result, it is possible to prevent the chemical liquid 17 from leaking to the outside from being desirably leaked to the outside.

  On the other hand, the hydrophilic filter 52 is placed on, for example, a needle base 53 on the syringe 12 (not shown) side, and is disposed on the side of the inhalation needle 14 from which the drug solution 17 flows out, and sucks the drug solution 17 into the syringe 12. ing. Thus, impurities and the like in the chemical solution 17 can be removed by the hydrophilic filter 52, and the chemical solution 17 can be inhaled into the syringe 12 more safely.

  With such a configuration, it is possible to prevent the backflow of the chemical liquid 17 through the preparation needle 15, prevent the inflow of contaminants from the outside, remove impurities in the chemical liquid 17, etc. The chemical solution 17 can be surely inhaled.

  In addition, the impurities in the chemical solution 17 are removed using the entirety of the hydrophilic filter 52 by forming a plurality of pores 53a in a region adjacent to the hydrophilic filter 52 of the needle base 53 on the syringe 12 side. be able to.

  FIG. 5 is a flowchart showing a state in which the drug solution 8 in the vial container 2 is inhaled by the conventional injection needle 5, and FIGS. 6 (a) to 6 (k) show the inside of the vial container 2 by the conventional injection needle 5. It is the schematic which shows a mode that the chemical | medical solution 8 is inhaled.

  In step S1 shown in FIG. 5, first, air to be exchanged for the drug solution 8 in the vial container 2 is sucked into the syringe 12 through the injection needle 5 (FIG. 6A). In step S2, the injection needle 5 is inserted into the vial container 2 (FIG. 6B). In step S3, the syringe 12 and the vial container 2 are inverted 180 degrees with the injection needle 5 in between so that the vial container 2 is inverted and positioned at the top and the syringe 12 at the bottom. (FIG. 6C). In step S4, the plunger 9 is pushed down to suck the drug solution 8 in the vial container 2 into the syringe 12 (FIG. 6D). After inhaling a predetermined amount of the drug solution 8, in step S5, air previously sucked into the syringe 12 is caused to flow into the vial container 2 to exchange air between the syringe 12 and the vial container 2 (FIG. 6 ( e)).

  Normally, when the chemical solution 8 is inhaled from a sealed container such as the vial container 2, if the chemical solution 8 is inhaled at once, the pressure inside the sealed container becomes too low, and a large force for pulling the plunger 9 is required. There is a problem that 8 cannot be sucked out. Therefore, every time a predetermined amount of the chemical solution 8 is inhaled, the air pressure inside the sealed container is kept constant by exchanging the air with the chemical solution 8 and the plunger 9 is pulled within a normal force range. The inhalation of the drug solution 8 in the vial container 2 can be completed. Therefore, the air exchange between the syringe 12 and the vial container 2 may be repeated as shown in FIGS. 6D to 6G, and is performed as many times as necessary.

  In step S6 where the amount of the drug solution 8 in the vial container 2 is reduced and the inserted injection needle 5 comes out of the surface of the drug solution 8, it is determined whether the needle position is corrected. If it is necessary to correct the needle position, in step S7, the position of the tip of the injection needle 5 is lowered downward so that the injection needle 5 is positioned in the drug solution 8 (FIG. 6 (h)). Returning to steps S4 and S5, air exchange and inhalation of the chemical solution 8 are performed again (FIGS. 6 (i) and 6 (j)). This correction of the needle position is a necessary operation from the viewpoint of suppressing the foaming of the chemical solution 8 when the chemical solution 8 is inhaled.

  If it is not necessary to correct the needle position in step S6, the process proceeds to step S8. In step S8, it is determined whether or not the inhalation of the chemical solution 8 has been completed. If not, the process returns to step S4. If completed, in step S9, for example, after the air in the vial container 2 is slightly sucked into the syringe 12, the pressure of the gas in the vial container 2 is adjusted to a negative pressure, and then the vial container 2 in step S10. The injection needle 5 is pulled out from (Fig. 6 (k)). Here, the inside of the vial container 2 is set to a negative pressure in order to ensure safety when the injection needle 5 is extracted from the vial container 2 so that the drug solution 8 does not leak from the inside of the vial container 2.

  As described above, the series of operations for inhaling the drug solution 8 in the sealed container such as the vial container 2 by the conventional injection needle 5 has many steps and is complicated and places a heavy burden on the pharmacist or nurse. There are many operations that require skill in handling the 5 and the syringe 12.

  FIGS. 7 and 8 are flowcharts for inhaling the chemical liquid 17 by the chemical liquid inhalation compound needle 10 and the chemical liquid container 20 in the chemical liquid inhalation method according to the first embodiment of the present invention, and FIGS. FIGS. 10A and 10B are views showing a state in which the chemical liquid 17 is inhaled by the chemical liquid inhalation compound needle 10 and the chemical liquid container 20 in the chemical liquid inhalation method according to the first embodiment of the present invention. Specifically, FIG. 7 and FIG. 8 show an overall flowchart of the chemical solution inhalation method of the first embodiment. FIGS. 9 (a) and 9 (b) are diagrams showing the first half of the flow of specific contents of the chemical solution inhalation method of the first embodiment shown in cross-sectional views, and FIGS. 10 (a) and 10 (b) are diagrams. It is a figure which shows the state of the latter half which shows the flow of the concrete content of the chemical | medical solution inhalation method of this Embodiment 1 with sectional drawing.

  As shown in FIG. 7, when the chemical solution inhalation compound needle 10 and the chemical solution container 20 according to Embodiment 1 of the present invention are used, the number of steps related to 10 chemical solution inhalation required when the conventional injection needle 5 is used. Can be realized with about half the number of steps. The flowchart will be specifically described below.

  In step S11 of FIG. 7 (corresponding to step S2 of FIG. 5), the compound solution inhalation compound needle 10 engaged with the syringe 12 is inserted into a sealed container such as the vial container 11 (FIG. 9A), It is fitted and fixed in the concave portion of the needle base portion 13 of the compound needle 10 for inhaling a liquid medicine (FIG. 9B). In step S12 (corresponding to step S3 in FIG. 5), both the syringe 12 and the vial container 11 are inverted 180 degrees so that the vial container 11 is in an inverted state and the syringe 12 is positioned in the upper part thereof (FIG. 10). (A)). Then, in the inverted vial container 11 shown in FIG. 10, it is confirmed that the inclined tip portion 15 d of the adjustment needle 15 protrudes from the liquid surface 17 a of the drug solution 17 inside the vial container 11. This confirmation step, step S13, is a newly added step. In step S14 (corresponding to step S4 in FIG. 5), the plunger 12d is pushed down to inhale the chemical solution 17 (FIG. 10A). When the chemical solution 17 is inhaled, the pressure of the gas at the top of the vial container 11 decreases, but the gas at the top is connected to the air outside the vial container 11 via the adjustment needle 15. Immediately, air flows from the outside into the upper portion of the vial container 11 through the adjustment needle 15. Therefore, it is not necessary to perform air exchange as in the conventional example shown in FIG. In this way, until the inhalation of the medicinal solution 17 is completed, the medicinal solution 17 is inhaled in step S14. In step S15 (corresponding to step S8), if it is determined that the inhalation of the medicinal solution 17 is completed, in step 16, the vial is The compound needle 10 for inhaling medicinal solution is extracted from the container 11 (FIG. 10B). In this way, the operation for inhaling the medicinal solution 17 is completed.

  Thus, the chemical solution inhalation method according to the first embodiment of the present invention includes the step of inserting and holding the syringe 12 in the syringe holding port 12a of the compound solution inhalation compound needle 10 described above, and the compound solution inhalation compound needle 10. The step of configuring the drug solution container 20 by inserting it into the rubber stopper 17a at the top of the vial container 11 sealed with the drug solution 17 inside, and the syringe 12 and the vial container 11 by reversing the drug solution container 20 holding the syringe 12 180 degrees. And reversing the positional relationship in the vertical direction. Furthermore, in the method for inhaling the chemical solution of the first embodiment, in the inverted vial container 11, the inclined tip 15 d of the adjustment needle 15 of the compound needle 10 for inhaling the chemical solution protrudes from the liquid surface 17 a of the chemical solution 17 inside the vial container 11. A confirmation step for confirming that the liquid is inhaled, and the inhalation needle 14 of the compound inhaler 10 for inhaling the medicinal liquid inhales the medicinal liquid 17 into the syringe 12 and inhales the gas 11b from the inclined tip 15d of the adjusting needle 15 into the vial container 11. And a step of causing.

  By setting it as such a method, foaming of the chemical | medical solution 17 can be prevented and the chemical | medical solution 17 can be inhaled efficiently and safely.

  Assuming that the inclined tip 15d of the adjustment needle 15 does not protrude from the liquid surface in the confirmation step S13, as shown in the flowchart of FIG. 8, the chemical solution 17 of the inclined tip 15d of the adjustment needle 15 is shown. It is good also as a method further equipped with adjustment step S13A which adjusts the protrusion amount from the liquid level 17a. That is, when the protruding amount of the inclined tip portion 15d from the liquid surface 17a is not within the predetermined range, the adjustment needle 15 is moved and adjusted in the axial direction 15a in step S13, and then the drug solution 17 is applied to the syringe 12 in step S14. Can be inhaled. In addition, the adjustment method of the protrusion amount from the liquid level 17a of the chemical | medical solution 17 of the adjustment needle 15 is mentioned later.

  By adopting such a method, the compound solution suction needle 10 can be applied to a plurality of vial containers 11 having different shapes and sizes, and the solution 17 can be efficiently and safely inhaled.

  Thus, by using the compound needle 10 for drug solution suction and the drug solution container 20 of the first embodiment, the drug solution 17 can be efficiently inhaled with about half the number of steps of the conventional step. Further, by setting or adjusting the length and positional relationship between the adjustment needle 15 and the inhalation needle 14 of the chemical liquid inhalation compound needle 10 in advance, foaming of the chemical liquid 17 during the suction of the chemical liquid 17 can be suppressed. It is not necessary to change the position of the needle via the syringe like the conventional injection needle 5. Further, in a sealed container such as a vial container containing the drug solution 17, it is not necessary to exchange the air in the syringe 12 and the drug solution 17 in the vial container 11 for adjusting the pressure inside the container. The chemical solution 17 can be inhaled in a state equal to Therefore, it is not necessary to perform a pumping operation that has a large physical and mental burden on the pharmacist or nurse in the inhaling operation of the medicinal solution 17, and the inhaling operation of the medicinal solution 17 can be performed easily and easily.

(Embodiment 2)
FIG. 11 is a cross-sectional view showing a schematic configuration of a chemical solution inhalation compound needle 60 and a chemical solution container 70 using the same according to Embodiment 2 of the present invention.

  The compound solution inhalation needle 60 of FIG. 11 is similar to the case of the compound solution inhalation compound needle 10 of Embodiment 1 shown in FIG. 1 and the needle base 62 and the needle base from the vial container holding port 11a to the syringe holding port 12a. In parallel with the inhalation needle 14, the inhalation needle 14 is disposed through the needle base 62, passes through the needle base 62 from the side surface 62 a of the needle base 62 to the vial container holding port 11 a, and extends above the vial container holding port 11 a. The adjusting needle 61 is provided. The needle base 62 has a vial container holding port 11a for receiving the vial container 11 at an upper part thereof, and a syringe holding port 12a for holding the syringe 12 at a lower part thereof. The length 61b of the adjustment needle 61 in the axial direction 63 is set to be not less than 2 times and not more than 10 times the length 14b of the inhalation needle 14 in the axial direction 14a. Then, the gas 11b is inhaled from the end portion 61c on the side surface 62a side of the needle base 62 of the adjustment needle 61, and the medicinal solution 17 is inhaled from the end portion 14c on the vial container holding port 11a side of the inhalation needle 14.

  However, the compound solution inhalation needle 60 of the second embodiment can adjust the protruding amount of the adjustment needle 61 from the needle base 62, and the inclined tip 61a of the adjustment needle 61 from the liquid surface 17a of the drug solution 17 can be adjusted. The protrusion 61d can be adjusted, which is different from the chemical solution inhalation compound needle 10 of the first embodiment. That is, as shown in FIG. 11, the needle base 62 includes a mechanism for adjusting the protruding amount of the adjustment needle 61 from the needle base 62, and as a result, the inclined tip 61 a of the adjustment needle 61 from the liquid surface 17 a. The protrusion amount 61d can be adjusted. In the needle base portion 62, the position of the inclined tip portion 61a of the adjustment needle 61 can be adjusted in the vertical direction in the axial direction 63 in accordance with the size of the vial container 11 into which the compound solution inhaling compound needle 60 is inserted. . Therefore, no matter what size vial compound needle 60 is inserted into the vial container 11, by adjusting the amount of protrusion of the adjustment needle 61 from the needle base 62, the inclined tip 61 a It can adjust so that it may protrude from the liquid level 17a. The adjustment mechanism 64 is configured as a part of the needle base 62. As shown in FIG. 11, for example, a compression spring is provided between the bent portion 61f of the lower portion of the adjustment needle 61 and the bottom 62b of the needle base 62. An elastic body 65 such as is arranged. Then, an oil seal 66 is disposed in the area of the needle base 62 adjacent to the rubber stopper 17b of the vial container 11 so as to surround the adjustment needle 61. Then, the position of the adjustment needle 61 determined in this way is balanced and held by the elastic force in the pressing direction of the elastic body 65 and the contact friction force between the oil seal 66 and the rubber plug 17b and the adjustment needle 61. ing. The adjustment of the amount of protrusion of the adjustment needle 61 from the needle base 62 is not limited to this, and may be determined, for example, by manually moving the adjustment needle 61 up and down.

  In addition, in the adjustment step S13A in the flowchart (see FIG. 8) of the chemical solution inhalation method shown in the first embodiment, in the second embodiment, as shown in FIG. After the portion 61a is pressed against the bottom portion 11d of the vial container 11, the protruding amount 61d of the inclined tip portion 61a from the liquid surface 17a may be adjusted.

  By adopting such a method, it is easy to adjust the amount of protrusion of the inclined tip portion 61a of the adjustment needle 61 from the liquid surface 17a, and the inclined tip portion 61a can be reliably protruded from the liquid surface 17a. it can.

  Further, in the insertion step S11, by inserting the compound solution inhalation compound needle 60 in a state where the inclined tip portion 61a of the adjustment needle 61 is pressed against the bottom portion 11d of the vial container 11 indicated by the broken line in FIG. A method of determining the amount of protrusion 61d of the adjustment needle 61 from the liquid surface 17a may be used.

  By adopting such a method, the adjustment needle 61 can be disposed so as to reliably protrude from the liquid surface 17a without being particularly aware of the adjustment of the amount of protrusion of the inclined tip portion 61a from the liquid surface 17a. . Further, a sufficient amount of protrusion 61d from the liquid surface 17a can be secured.

  By adopting the above configuration, even if the gas 11b flows from the outside of the vial container 11 into the vial container 11 in which the chemical liquid 17 is sealed, the gas 11b is not directly mixed with the chemical liquid 17 and thus foamed. Therefore, the drug solution 17 in the vial container 11 can be efficiently inhaled. Further, since the inhalation needle 14 has an inclined tip portion 14c in the vicinity of the rubber stopper 17b fitted as a lid of the vial container 11, when the vial container 11 is inverted and the drug solution 17 is inhaled, the vial container is finally 11 can be efficiently inhaled without substantially leaving the drug solution 17 collected in the vicinity of the rubber plug 17b. In addition, since the adjustment mechanism 64 that can adjust the protruding amount of the adjusting needle 61 from the needle base 62, that is, the protruding amount of the inclined tip portion 61a from the liquid surface 17a of the liquid medicine 17 is provided, a plurality of shapes and sizes differ. In this case, the chemical solution 17 can be efficiently inhaled.

  Further, in the chemical solution container 70 including the compound solution inhalation needle 60, the vial container 11 and the syringe holding port 12a for holding the syringe 12, the vial container 11 is the upper part, and the compound solution inhalation compound needle 60 is from the lower part to the drug solution container. In the state inserted in 70, the drug solution 17 is sucked into the syringe 12 from the inhalation needle 14, and the inclined tip 61 a of the adjustment needle 61 is protruded from the liquid surface 17 a of the drug solution 17, so that gas is introduced into the vial container. It is configured to inhale.

  By setting it as such a structure, since it can arrange | position in the position which wants to arrange | position the syringe 12 only by inserting the syringe 12 in the recessed part of the syringe holding | maintenance port 12a, the chemical | medical solution container 70 which is further easy to assemble can be implement | achieved. Moreover, since the operation | work which inserts a needle | hook into a vial container is unnecessary, the foaming of a chemical | medical solution can be prevented further safely and efficiently, and a chemical | medical solution can be inhaled.

(Embodiment 3)
12A and 12B are diagrams showing a schematic configuration of a chemical solution container 80 according to the third embodiment of the present invention. FIG. 12A is a cross-sectional view showing an upright state in a normal state, and FIG. It is sectional drawing which shows a state.

  As shown in FIGS. 12A and 12B, the chemical solution container 80 includes a vial container 11 containing the chemical solution 17 therein, the above-described compound needle 50 for inhaling the chemical solution, and a syringe (not shown) for inhaling the chemical solution 17. And a syringe holding port 81 for holding a liquid medicine container. As shown in FIG. 12 (b), with the vial container 11 as the upper part, the medicinal liquid inhalation compound needle 50 is inserted into the vial container 11 from the lower part, and the medicinal liquid 17 is drawn from the inhalation needle 14 into the syringe 12 (not shown). In addition, the inclined tip 15d of the adjustment needle 15 protrudes from the liquid surface 17 of the drug solution 17 to suck the gas into the vial container. In addition to this configuration, the syringe holding port 81 of the chemical solution container 80 has a recess 82, and the recess 82 is covered with a seal member 83.

  By setting it as such a structure, since it can arrange | position in the position which wants to arrange | position the syringe 12 only by inserting the syringe 12 in the recessed part 82 of the syringe holding | maintenance port 81, the chemical | medical solution container 80 which is further easy to assemble can be implement | achieved. Moreover, since the operation | work which inserts a needle | hook into a vial container is unnecessary, the foaming of a chemical | medical solution can be prevented further safely and efficiently, and a chemical | medical solution can be inhaled. Further, since the recess 82 is kept clean by the seal member 83 until the syringe 12 is inserted, a safer chemical solution container can be realized. Since the compound solution suction needle 50 and the vial container 11 are held together, a retaining claw 85 may be formed on a part of the needle base 13 shown in FIG.

  Also, as shown in FIGS. 12A and 12B, by arranging the hydrophobic filter 51 and the hydrophilic filter 52 in the compound needle 50 for drug solution inhalation, the chemical solution 17 flows backward and contaminants from the outside are removed. Inflow can be prevented, impurities in the chemical liquid 17 can be removed, and the chemical liquid 17 can be inhaled safely and reliably. It should be noted that impurities in the chemical solution 17 can be removed using the entire hydrophilic filter 52 by forming a plurality of pores 84a in a region adjacent to the hydrophilic filter 52 of the needle base 84 on the syringe 12 side. .

  According to the medicinal solution inhalation needle of the present invention, the medicinal solution container using the medicinal solution, and the medicinal solution inhalation method, the medicinal solution can be efficiently inhaled by preventing foaming of the medicinal solution. This makes it possible to simplify and improve the efficiency of inhalation tasks that nurses and the like are bothersome and take care of, and can significantly reduce the physical and mental burden of nurses and pharmacists in hospitals.

10, 30, 35, 40, 45, 50, 60 Compound solution inhalation needle 11 Vial container 11a Vial container holding port 11b Gas 11c Space 11d, 62b Bottom 12 Syringe 12a, 81 Syringe holding port 12b Barrel 12c Gasket 12d Plunger 12e Arrow 12f Receiving portion 13, 53, 62, 84 Needle base portion 13a, 62a Side surface 14 Inhalation needle 14a, 15a, 63 Axial direction 14b, 15b, 61b Length 14d, 15c, 61c End portion 14c, 14f, 15d, 61a Inclined tip Portion 15g Pressure adjustment port 15, 61 Adjustment needle 17 Chemical liquid 17a Liquid surface 17b Rubber stopper 18 Conduit 20, 70, 80 Chemical liquid container 31 Outer peripheral surface 32 Hole 33 Rib 41 Area 46 Resin material 47 Tip portion 51 Hydrophobic filter 52 Hydrophilic Filter 53a, 84 a pore 61f bent portion 64 adjustment mechanism 65 elastic body 66 oil seal 82 recess 83 seal member 85 retaining claw

Claims (9)

The adjustment needle and the inhalation needle have a needle base that penetrates, and at the time of inhalation of the chemical solution, gas is inhaled from the end of the side surface of the needle base of the adjustment needle, and the medicinal solution is introduced from one end of the inhalation needle In the compound needle for inhaling drug solution,
The needle base has a vial container holding port for holding the opening of the vial container at the upper part thereof, and a syringe holding port for holding the tip of the syringe at the lower part thereof,
The inhalation needle is disposed through the needle base from the vial container holding port to the syringe holding port,
The adjustment needle is arranged from the side of the hub through said hub to said vial container holding port has a Rutotomoni bent portion,
The axial length of the adjusting needle Ri axial least twice and 10 times der less of the length of the suction needle,
The arranged elastic member between the bent portion and the bottom portion of the needle base of the preparation needle, chemical inhalation, wherein adjustable der Rukoto the projecting amount of the adjustment needle from the hub Compound needle. The compound needle for inhaling a medical solution according to claim 1 , wherein an oil seal is disposed in a region between the needle base and the preparation needle so as to surround the preparation needle. The compound needle for inhaling a drug solution according to claim 1 or 2, wherein the bent portion and the elastic body are arranged side by side with the syringe holding port . The compound needle for inhaling a medical solution according to any one of claims 1 to 3 , wherein a hydrophobic filter is disposed on the side surface of the needle base portion for inhaling gas into the adjustment needle. Chemical inhalation compound needle according to claim 1, any one of 4 to the holding hydrophilic filter port, characterized in that arranged the chemical from the suction needle flows out. Inserting and holding a syringe in the syringe holding port of the compound needle for inhaling a liquid medicine according to any one of claims 1 to 5 ; and
Inserting the compound needle for inhaling the medicinal solution into a rubber stopper on the upper part of the vial container in which the medicinal solution is sealed;
Reversing the chemical container holding the syringe 180 degrees to reverse the vertical positional relationship between the syringe and the vial container; and
A confirmation step for confirming that the tip end of the adjustment needle of the compound inhaling compound needle in the inverted vial container protrudes from the liquid surface of the drug solution inside the vial container; and the compound inhaling compound needle And a step of inhaling a chemical into the syringe with the inhalation needle and inhaling a gas from the inclined tip of the adjustment needle into the vial container. The chemical solution inhalation method according to claim 6 , further comprising an adjustment step of adjusting an amount of protrusion of the adjustment needle from the liquid surface of the chemical solution. 8. The method for inhaling a drug solution according to claim 7 , wherein the protruding amount of the adjustment needle is adjusted after the inclined tip portion of the adjustment needle is pressed against the bottom of the vial container in the adjustment step. . In the inserting step, the protrusion of the adjusting needle from the liquid surface is performed by inserting the compound needle for inhaling the liquid medicine while the inclined tip of the adjusting needle is pressed against the bottom of the vial container. The method according to claim 7 or 8 , wherein the amount is adjusted.