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WO2013094643A1 - Subcutaneously implanted device for injecting drug solution - Google Patents

Subcutaneously implanted device for injecting drug solution

Info

Publication number
WO2013094643A1
WO2013094643A1 PCT/JP2012/082948 JP2012082948W WO2013094643A1 WO 2013094643 A1 WO2013094643 A1 WO 2013094643A1 JP 2012082948 W JP2012082948 W JP 2012082948W WO 2013094643 A1 WO2013094643 A1 WO 2013094643A1
Authority
WO
WIPO (PCT)
Prior art keywords
drug solution
seal member
implantable drug
annular
solution injector
Prior art date
Application number
PCT/JP2012/082948
Other languages
French (fr)
Japanese (ja)
Inventor
重義 長尾
之生 廣田
宗和 西川
Original Assignee
テルモ・クリニカルサプライ株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by テルモ・クリニカルサプライ株式会社 filed Critical テルモ・クリニカルサプライ株式会社
Publication of WO2013094643A1 publication Critical patent/WO2013094643A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M39/00Tubes, tube connectors, tube couplings, valves, access sites or the like, specially adapted for medical use
    • A61M39/02Access sites
    • A61M39/0208Subcutaneous access sites for injecting or removing fluids
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M39/00Tubes, tube connectors, tube couplings, valves, access sites or the like, specially adapted for medical use
    • A61M39/02Access sites
    • A61M39/0208Subcutaneous access sites for injecting or removing fluids
    • A61M2039/0232Subcutaneous access sites for injecting or removing fluids having means for facilitating the insertion into the body
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M39/00Tubes, tube connectors, tube couplings, valves, access sites or the like, specially adapted for medical use
    • A61M39/02Access sites
    • A61M39/0208Subcutaneous access sites for injecting or removing fluids
    • A61M2039/0238Subcutaneous access sites for injecting or removing fluids having means for locating the implanted device to insure proper injection, e.g. radio-emitter, protuberances, radio-opaque markers

Definitions

  • the present invention relates to a drug solution injector for injecting a drug solution into a patient's body, and more particularly to a subcutaneously implantable drug solution injector used for treatment such as chemotherapy.
  • a chemical solution injection therapy in which a chemical solution is injected into the body is performed.
  • a subcutaneous implantable drug injector is used.
  • the chemical solution injector include, for example, Patent Document 1 (Japanese Patent Publication No. 4-10832, USP 4,929,236), Patent Document 2 (WO 2009/35582), and Patent Document 3 (Patent Document 3) proposed by the applicant of the present application. No. 2004-350937).
  • These chemical injection devices include a main body composed of a ring-shaped upper member and a bottom member, and a seal member (septum) housed in the main body in a state where the peripheral edge is pressed between the upper member and the bottom member.
  • An inner space for injecting medicine is formed by the lower surface of the seal member (septum) and the inner surface of the main body, and the main body is provided with a flow path for outflow of the chemical liquid communicating with this space.
  • the seal member (septum) is a rubber stopper and can be punctured a plurality of times with a drug injection needle.
  • the object of the present invention is that the side of the drug solution injector can be easily grasped, the drug solution injector is handled well in the subcutaneous implantation procedure, and it can be easily inserted into the incision, thereby facilitating the implantation procedure.
  • it is easy to recognize the central part of the seal member (septum) by grasping the side part of the drug injection device implanted under the skin, and the puncture operation of the drug injection needle is quickly performed. It is intended to provide a subcutaneously implantable drug solution injector (access port) that can be used.
  • An injection tool main body comprising a ring-shaped upper member and a bottom member closing the bottom surface of the upper member; and being accommodated between the upper member and the bottom member, closing an opening of the upper member; and the injection tool A subcutaneously implantable chemical solution injector comprising a seal member that forms a chemical solution inflow space in the body and a discharge port that communicates with the chemical solution inflow space, wherein the ring-shaped upper member has a central portion of the seal member A main body portion that stores the seal member in an exposed state, an annular protrusion portion that protrudes inward from an upper opening portion of the main body portion, and presses a peripheral edge portion of the seal member, and both sides of a tip portion of the upper member A side bulging portion provided in a portion, a rear end portion which is provided at a position facing the discharge port and becomes thinner toward the rear end side, and formed between the rear end portion and the side bulging portion.
  • FIG. 1 is a perspective view of a chemical liquid injector of the present invention.
  • FIG. 2 is a plan view of the chemical liquid injector of the present invention.
  • FIG. 3 is a front view of the chemical solution injector shown in FIG. 4 is a cross-sectional view taken along line AA in FIG. 5 is a cross-sectional view taken along the line BB in FIG.
  • FIG. 6 is a front view of a seal member (septum) used in the chemical liquid injector of the present invention.
  • FIG. 9 is a plan view of a bottom member used in the chemical liquid injector of the present invention.
  • FIG. 10 is a cross-sectional view taken along the line DD of FIG.
  • FIG. 11 is an external view of the drug solution injector of the present invention with a catheter attached.
  • FIG. 12 is a plan view of a drug solution injector according to another embodiment of the present invention.
  • 13 is a cross-sectional view taken along the line EE of FIG.
  • FIG. 14 is a bottom view of the chemical liquid injector shown in FIG.
  • the subcutaneously implantable drug solution injector of the present invention will be described with reference to the illustrated embodiment.
  • the subcutaneous implantable drug solution injector 1 of the present invention is accommodated between an upper body 3 and a bottom member 2, an infusion tool body composed of a ring-shaped upper member 3 and a bottom member 2 that closes the bottom surface of the upper member 3,
  • a seal member 4 that closes the opening of the upper member 3 and forms a chemical solution inflow space 10 in the injection tool main body, and a discharge port 5 that communicates with the chemical solution inflow space 10 are provided.
  • the ring-shaped upper member 3 protrudes inward from the main body 31 that houses the seal member 4 in a state where the central portion of the seal member 4 is exposed, and the upper opening of the main body 31, and the peripheral portion of the seal member 4 is In order to press, it is provided at a position facing the annular projecting portion 32 and the discharge port 5, and the side bulge portions 34 and 35 provided on both sides of the top end portion of the upper member 3, and thin toward the rear end side.
  • a rear end portion 33 and two opposing grips formed between the rear end portion 33 and the side bulge portions 34 and 35, which are substantially standing surfaces and are largely curved in the vicinity of the side bulge portions 34 and 35.
  • the subcutaneous implantable drug injector 1 of this embodiment is composed of an injector main body and a seal member 4 as shown in FIGS. And the injection tool main body was attached to the bottom part 2 which has the recessed part which forms the chemical
  • the seal member 4 is disposed between the bottom member 2 and the upper member 3, and the flange portion 42 is clamped by the bottom member 2 and the upper member 3, so that the bottom member 2 and the upper member 3 are liquid-tight. It is sealed.
  • the ring-shaped upper member 3 includes a ring-shaped main body 31 that accommodates the seal member 4 in a state where the central portion of the seal member 4 is exposed, and an inner portion (center direction) of the opening from the upper opening of the main body 31. ) Projecting annular projection 32.
  • the annular projecting portion 32 is for pressing the upper surface of the peripheral edge portion (flange portion) 42 of the seal member 4 at its lower surface.
  • the annular protrusion 32 is formed on the inner edge side portion of the lower surface of the annular protrusion 32, protrudes downward, and has an annular inclined surface having an annular inclined surface whose inner diameter expands downward. 39 is provided.
  • the annular edge portion 39 can be inserted into the upper surface of the flange portion of the seal member 4.
  • the annular protrusion 32 has a seal member peripheral portion pressing portion 32 a formed on the outer side of the annular edge portion 39 and having an annular and flat surface.
  • the seal member peripheral edge pressing portion 32 a presses (compresses) the flange portion 42 of the seal member 4.
  • the upper member 3 has a rear end portion 33 that extends to the opposite side of the discharge port 5 from the outer edge of the annular protrusion at a position facing the discharge port 5.
  • the rear end portion 33 becomes thinner toward the rear end side and has a width.
  • the rear end 33 has a crescent shape that is slightly collapsed, as shown in FIG.
  • the upper member 3 includes side bulging portions 34 and 35 provided on both sides of the tip portion of the upper member 3.
  • the discharge port 5 is located between the side bulging portions 34 and 35.
  • the upper member 3 is formed between the rear end portion 33 and the side bulging portions 34 and 35 as shown in FIGS.
  • the center of the seal member 4 is located between the two gripping standing side surfaces 37 and 38 facing each other.
  • the central portion of the seal member 4 is located between the portions that are largely curved in the vicinity of the side bulging portions 34 and 35 of the two opposing standing side surfaces 37 and 38 for gripping. Yes.
  • the standing side surface portions 37 and 38 extend from the rear end portion 33 toward the side bulging portions 34 and 35, and the height of the standing side surface portion gradually increases. The height is higher, and the vicinity of the central side portion of the annular projecting portion 32 is the highest, and rapidly decreases toward the side bulging portions 34 and 35. As described above, since the gripping standing side surface portions 37 and 38 are the highest in the vicinity of the central side portion of the annular projecting portion 32, the central side portion of the annular projecting portion 32 can be easily gripped.
  • the fingertip when grasping, feels a portion that is largely curved in the vicinity of the side bulging portions 34 and 35, so that the central portion of the annular protrusion 32 (in other words, the central portion of the seal member 4) is between the gripping portions. You can easily recognize that there is.
  • Providing such standing side surfaces 37 and 38 for gripping facilitates the puncturing operation of the drug injection needle after being implanted subcutaneously, and facilitates handling in the subcutaneous implantation procedure.
  • the upper member 3 includes standing side surface portions 37 and 38 and a cylindrical portion 36 formed between the upper ends of the upper member 3 and having a substantially cylindrical shape or a diameter that is slightly reduced toward the upper end direction.
  • the cylindrical portion 36 is gradually reduced in diameter toward the upper side.
  • the side bulging portions 34, 35 become thinner toward the ends of the side bulging portions 34, 35 and penetrate from the upper surface to the lower surface.
  • a through-hole is provided, and elastic members 8 and 9 that can be pierced by a suture needle are embedded in the through-hole, and the side bulging portions 34 and 35 are sewn portions to a living body.
  • the elastic members 8 and 9 are made of an elastic material.
  • various rubbers such as silicone rubber, isoprene rubber and natural rubber, various resins such as polyurethane, polyamide elastomer, polybutadiene and soft vinyl chloride, or a combination of two or more of these Of these, silicone rubber that is inert to the living body and has relatively little change in physical properties is particularly preferable.
  • the bottom surface form of the upper member in this embodiment is a semi-elliptical shape in which both sides of the proximal end swell, and the upper surface is centered on the proximal end side of the bottom surface form. It has a round shape.
  • the bottom member 2 includes a bottom plate portion 21, an annular wall portion 22 that protrudes from the bottom plate portion 21, and a rear end portion 23.
  • the annular wall portion 22 is substantially cylindrical and includes a recess 26 for forming the chemical solution inflow space 10 therein. Further, the annular wall portion 22 includes a discharge port mounting portion 24 that communicates with the concave portion 26 at a lower portion of the side surface.
  • the discharge port mounting portion 24 is a cylindrical portion that protrudes from the annular wall portion 22 of the bottom member 2, and includes a lumen portion into which the proximal end portion of the discharge port 5 can be inserted.
  • the bottom plate portion 21 has a semi-elliptical shape in which both sides of the base end are cut off, and the annular wall portion is provided at a position whose center is based on the base end side of the bottom surface form. ing.
  • the bottom member 2 has a seal member peripheral portion pressing portion 22 a formed by the outer edge side portion of the upper surface of the annular wall portion 22. Further, an annular edge formed on an inner edge side portion (in other words, inside the seal member peripheral edge pressing portion 22a) on the upper surface of the annular wall portion 22 and having an annular inclined surface that protrudes upward and whose inner diameter increases upward.
  • the unit 25 is provided. The annular edge portion 25 can be inserted into the lower surface of the flange portion 42 of the seal member 4.
  • the seal member 4 has a cylindrical main body 41 and an annular flange 42 formed on the peripheral edge of the main body 41 so as to protrude from the main body.
  • the flange portion 42 is a portion to be pressed by the lower surface of the annular projecting portion 32 of the upper member 3 and the upper surface of the annular wall portion 22 of the lower member. Further, the seal member 4 of this embodiment is formed below the flange portion 42, has an outer diameter smaller than that of the flange portion, and a bottom member insertion portion 41b that is substantially equal to the inner diameter of the annular wall portion described above, and the flange portion.
  • the upper member insertion portion 41a is formed above 42, has an outer diameter smaller than that of the flange portion, and is substantially equal to or slightly smaller than the inner diameter of the annular protrusion of the upper member 3 described above.
  • the seal member 4 is provided with a skirt-like protrusion 43 that is formed on the peripheral edge of the lower surface 44 of the bottom member inner insertion portion 41b and becomes thinner toward the end.
  • the upper member insert portion 41a of the seal member 4 is inserted into the opening of the upper member 3, and its upper end protrudes from the upper surface of the upper member 3 as shown in FIGS.
  • the bottom member internal insertion portion 41b of the seal member 4 is accommodated and entered into the annular wall portion 22 of the bottom member 2 as shown in FIGS.
  • medical solution inflow space 10 is formed between the lower surface 44 of the bottom part member insertion part 41b of the sealing member 4, and the inner surface of the recessed part 26 of the bottom member 2.
  • the injection tool main body bottom member 2, upper member 3
  • a material having chemical resistance and biocompatibility is preferable, and polysulfone, polyethersulfone, epoxy resin, polyacetal and the like are used.
  • the seal member 4 can be pierced by a needle for injecting a chemical liquid, and the piercing portion is sealed after the needle for injecting a chemical liquid is removed.
  • the seal member 4 is made of an elastic material.
  • various rubbers such as silicone rubber, isoprene rubber and natural rubber, various resins such as polyurethane, polyamide elastomer, polybutadiene, and soft vinyl chloride, or a combination of two or more of these may be used.
  • silicone rubber which is inert to the living body and has relatively little change in physical properties.
  • the sealing member 4 is such that the upper surface side 42 a of the flange portion 42 is pressed by the annular protrusion 32 of the upper member 3, and the lower surface side of the flange portion 42.
  • the outer edge portion of 42 b is pressed by the seal member peripheral portion pressing portion 22 a on the upper surface of the annular wall portion 22 of the bottom member 2, and the annular portion of the annular wall portion 22 of the bottom member 2 is connected to the inner edge portion on the lower surface side of the flange portion 42.
  • Edge portion 25 is inserted.
  • the seal member 4 is compressed between the upper member 3 and the bottom member 2 (specifically, pressed by the seal member peripheral portion pressing portion 22a of the bottom member 2 and the seal member peripheral portion pressing portion 32a of the upper member 3). Compression) and the insertion of the annular edge portion 25 of the bottom member 2 is deformed, and the skirt-like projecting portion 43 of the seal member 4 is reduced, and the lower end outer peripheral surface of the bottom member insertion portion 41b is the annular shape of the bottom member 2
  • the wall 22 is in close contact with the inner surface.
  • the outer edge portion on the upper surface side of the flange portion 42 is pressed by the seal member peripheral portion pressing portion 32a on the lower surface of the annular projecting portion 32 of the upper member 3, and the inner edge on the upper surface side of the flange portion 42.
  • An annular edge 39 of the annular protrusion 32 of the upper member 3 is inserted into the part.
  • the seal member 4 is formed by the compression between the upper member 3 and the bottom member 2 and the deformation due to the insertion of the annular edge portion 25 of the bottom member 2 so that the skirt-like protrusion 43 of the seal member 4 is formed. Has almost disappeared. Further, due to the above deformation, the bottom portion of the bottom member insertion portion 41b of the seal member 4 has a slightly depressed central portion.
  • the chemical solution inflow space 10 has a predetermined height formed by the inner surface of the seal member 4 and the inner surface of the recess 26 (the inner surface of the annular wall portion 22 and the upper surface of the bottom plate portion 21). It is a cylindrical space having a thickness.
  • a discharge port 5 is attached to the chemical solution injector 1 of this embodiment.
  • the discharge port 5 is a cylindrical body, and includes a catheter proximal end mounting portion 53 provided on the distal end side, a bottom member mounting portion 52 provided on the proximal end side, and a flow passage 51 provided inside. I have.
  • the proximal end opening 50 is the proximal end of the flow passage 51 and is located at the proximal end of the bottom member mounting portion 24.
  • An annular protrusion for preventing the catheter from coming off is provided on the outer surface of the catheter proximal end mounting portion 53.
  • the bottom member mounting portion 52 is inserted into the discharge port mounting portion 24 of the bottom member 2 and is liquid-tightly fixed.
  • titanium, titanium alloy, stainless steel, or the like can be used, and titanium or titanium alloy is particularly preferable.
  • the catheter 7 and the protector 6 as shown in FIG. 11 are connected to the chemical injection device 1 of the present invention when in use.
  • the proximal end portion 71 of the catheter 7 is attached to the discharge port 5 so as to encapsulate the catheter proximal end attachment portion 53, and the protector 6 is attached to the proximal end portion of the catheter 7 attached to the catheter proximal end attachment portion 53. 71 is fitted and pressed to prevent the catheter from being detached.
  • a catheter that can be inserted into the body specifically, blood vessels (veins or arteries), bile ducts, vasculature and other vessels, epidural, subarachnoid, abdominal cavity.
  • the catheter 7 is a tube body having a distal end side opening and an internal lumen, and has the same outer diameter and the same inner diameter throughout the entire body.
  • the outer diameter of the catheter is preferably 0.3 to 5 mm, and particularly preferably 0.9 to 2.8 mm.
  • the inner diameter of the catheter is preferably 0.1 to 2.6 mm, particularly preferably 0.6 to 1.8 mm.
  • the catheter 7 is flexible and preferably has some elasticity.
  • catheter forming material examples include olefin-based elastomers (for example, polyethylene elastomers and polypropylene elastomers), polyesters such as polyethylene terephthalate, soft polyvinyl chloride, polyurethane and urethane-based elastomers, polyamides and amide-based elastomers (for example, polyamide elastomers). And a flexible polymer material such as a fluororesin elastomer, an ethylene-vinyl acetate copolymer, and silicone rubber.
  • olefin-based elastomers for example, polyethylene elastomers and polypropylene elastomers
  • polyesters such as polyethylene terephthalate, soft polyvinyl chloride, polyurethane and urethane-based elastomers, polyamides and amide-based elastomers (for example, polyamide elastomers).
  • a flexible polymer material such as a fluor
  • the drug injection device of the present invention may have an X-ray contrast function like the drug injection device 1a shown in FIGS.
  • FIG. 12 is a plan view of a chemical liquid injector 1a according to another embodiment of the present invention.
  • 13 is a cross-sectional view taken along the line EE of FIG.
  • FIG. 14 is a bottom view of the chemical liquid injector shown in FIG.
  • the subcutaneous implantable drug injector 1a of this embodiment is similar to the subcutaneous implantable drug injector 1 described above, and includes an injector main body comprising a ring-shaped upper member 3 and a bottom member 2 that closes the bottom surface of the upper member 3.
  • a seal member 4 that is housed between the upper member 3 and the bottom member 2, closes the opening of the upper member 3, and forms the chemical solution inflow space 10 in the injection tool body, and a discharge that communicates with the chemical solution inflow space 10. Port 5.
  • a ring-shaped contrast member 15 is provided in the injection tool main body, specifically, in a gap formed between the ring-shaped upper member 3 and the bottom member 2.
  • the contrast member 15 has an X-ray contrast function.
  • the ring-shaped upper member 3, the bottom member 2, the seal member 4 and the discharge port 5 are the same as described above.
  • the contrast member 15 is a thin plate ring-shaped member having a defect on the discharge port 5 side.
  • the contrast member 15 has a substantially elliptic outer edge and a substantially perfect inner edge as shown in FIG. It has a part.
  • the contrast member 15 surrounds the outer periphery of the lower portion of the annular wall portion 22 from which the bottom member 2 protrudes, and the seal member 4 is located above the central portion. Therefore, it is possible to confirm the seal member 4 (punctureable portion) by X-ray contrast.
  • medical solution injection tool 1a of this invention is provided with the rear-end part 33 which becomes thin toward the rear-end side.
  • the contrast member 15 has a wide central portion on the rear side. For this reason, the position of the rear end part of the chemical liquid injector 1a, that is, the indwelling state of the chemical liquid injector 1a can be confirmed by X-ray contrast.
  • the contrast member 15 of this embodiment gradually increases in width from both sides toward the rear center, and is widest at the center.
  • the central portion on the wide rear side faces the missing portion (discharge port 5).
  • the contrast member 15 is a thin plate ring-shaped member having a defect on the discharge port 5 side. It is merely housed in a gap formed between the ring-shaped upper member 3 and the bottom member 2, but is not limited to this, for example, embedded in the upper surface of the bottom member 2 It may be embedded in the lower surface of the bottom member or embedded in the bottom surface of the upper member. Furthermore, in the chemical solution injector 1a of this embodiment, the contrast member 15 has an inversion recognition function. Specifically, the contrast member 15 includes a left-right asymmetric cutout portion 15a formed in a wide portion. The cutout portion 15a has a “C” shape in this embodiment.
  • a metal plate having a high X-ray contrast metal plating such as gold, platinum, tungsten, titanium, titanium alloy, stainless steel, gold, platinum, or the like, a contrast material (gold, platinum, tungsten)
  • a resin plate to which a metal powder such as barium sulfate or contrast medium such as bismuth carbonate is added can be used.
  • a metal plate made of gold, platinum, tungsten, titanium, or a titanium alloy, or a metal plate having gold or platinum plating is preferable.
  • the subcutaneous implantable drug solution injector of the present invention is as follows. (1) An injection tool body composed of a ring-shaped upper member and a bottom member that closes the bottom surface of the upper member, and is housed between the upper member and the bottom member, closes the opening of the upper member, and A subcutaneously implantable drug solution injector comprising a seal member that forms a drug solution inflow space in the injection device main body, and a discharge port that communicates with the drug solution inflow space,
  • the ring-shaped upper member protrudes inward from a main body portion that houses the seal member in a state where the central portion of the seal member is exposed, and presses a peripheral edge portion of the seal member
  • the subcutaneous implantable drug solution is formed between the rear end portion and the side bulging portion, and has two standing standing side surfaces for gripping which are substantially standing surfaces and are largely curved in the vicinity of the side bulging portions.
  • the gripping standing side surface portion is greatly curved in the vicinity of the side bulge portion, and the seal portion is located between the two gripping standing side surface portions.
  • the ring-shaped upper member is provided with a cylindrical portion formed between the standing side surface portion and the upper end of the upper member, or a cylindrical portion that is slightly reduced in diameter toward the upper end.
  • the subcutaneously implantable drug solution injector described in 1.
  • the height of the holding side surface portion for gripping is the highest in the vicinity of the side portion of the center portion of the annular projecting portion.
  • the side bulge portion is thinner toward the end of the side bulge portion, and includes a through hole penetrating from the upper surface to the lower surface, and an elastic member embedded in the through hole.
  • the subcutaneously implantable drug solution injector according to any one of (1) to (5) above.
  • the bottom member includes a bottom plate portion and an annular wall portion that protrudes from the bottom plate portion, and the seal member is formed at a peripheral portion of the main body portion and the main body portion,
  • the subcutaneously implantable drug solution injector according to any one of (1) to (6), further comprising a lower surface of the annular protrusion and a flange portion to be pressed by the upper surface of the annular wall portion of the bottom member.
  • the bottom member is formed on a seal member peripheral portion pressing portion formed by an outer edge side portion of the upper surface of the annular wall portion and an inner edge side portion of the upper surface of the annular wall portion, and protrudes upward, and has an inner diameter.
  • the subcutaneously implantable drug solution injector according to the above (7) which has an annular inclined surface that expands in diameter upward and includes an annular edge portion that can be inserted into the seal member.
  • the upper member is formed on an inner edge side portion of the lower surface of the annular projecting portion, has an annular inclined surface that projects downward and has an inner diameter that expands downward, and can be inserted into the seal member.
  • the subcutaneous implantable drug solution injector includes a contrast member disposed in the injector body, and the contrast member is a ring-shaped member having a defect, and a central portion on the rear side.
  • the subcutaneous implantable drug solution injector according to any one of the above (1) to (9), wherein the width of the drug is wide.

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  • Health & Medical Sciences (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Pulmonology (AREA)
  • Engineering & Computer Science (AREA)
  • Anesthesiology (AREA)
  • Biomedical Technology (AREA)
  • Hematology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Media Introduction/Drainage Providing Device (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)

Abstract

A device (1) for injecting a drug solution is provided with an upper member (3), a bottom member (2), and a sealing member (4) that is accommodated therebetween. The upper member (3) is provided with: a main body (31) for accommodating the sealing member (4) in such a manner that the central section thereof is exposed; side bulges (34, 35) that are provided to both side sections; a rear end section (33) that is provided to a position opposite a discharge port (5); two upright side-surface sections (37,38) for gripping which are approximately upright surfaces formed between the rear end section and the side-section bulge sections so as to face one another, and which have a significant curvature in the vicinity of the side bulges; and a tubular section (36) that is formed between the upright side-surface sections and the top end of the upper member.

Description

皮下埋め込み型薬液注入具Subcutaneous implantable drug injector
 本発明は、薬液を患者の体内に注入する薬液注入具に関するものであり、詳しくは、化学療法等の治療に際して用いる皮下埋め込み型の薬液注入具に関するものである。 The present invention relates to a drug solution injector for injecting a drug solution into a patient's body, and more particularly to a subcutaneously implantable drug solution injector used for treatment such as chemotherapy.
 癌などの治療で、体内に薬液を注入する薬液注入療法が行われている。そして、このような薬液注入療法に用いるため皮下埋め込み型薬液注入具が利用されている。薬液注入具としては、例えば、特許文献1(特公平4-10832号公報、USP4,929,236)、特許文献2(WO2009/35582)、さらには、本願出願人が提案する特許文献3(特開2004-350937号公報)などがある。
 これら薬液注入具は、リング状上部部材と底部部材とからなる本体と、上部部材と底部部材間により周縁部が押圧された状態にて、本体内収納されたシール部材(セプタム)とを備える。そして、シール部材(セプタム)の下面と本体内面により、薬剤注入用の内部空間が形成され、本体には、この空間に連通する薬液流出用の流路が設けられている。そして、シール部材(セプタム)は、ゴム製の栓体であり、薬剤注入用針による複数回の穿刺が可能となっている。
In the treatment of cancer and the like, a chemical solution injection therapy in which a chemical solution is injected into the body is performed. In order to use such a drug injection therapy, a subcutaneous implantable drug injector is used. Examples of the chemical solution injector include, for example, Patent Document 1 (Japanese Patent Publication No. 4-10832, USP 4,929,236), Patent Document 2 (WO 2009/35582), and Patent Document 3 (Patent Document 3) proposed by the applicant of the present application. No. 2004-350937).
These chemical injection devices include a main body composed of a ring-shaped upper member and a bottom member, and a seal member (septum) housed in the main body in a state where the peripheral edge is pressed between the upper member and the bottom member. An inner space for injecting medicine is formed by the lower surface of the seal member (septum) and the inner surface of the main body, and the main body is provided with a flow path for outflow of the chemical liquid communicating with this space. The seal member (septum) is a rubber stopper and can be punctured a plurality of times with a drug injection needle.
特公平4-10832号公報(USP4,929,236)Japanese Examined Patent Publication No. 4-10832 (USP 4,929,236) WO2009/35582WO2009 / 35582 特開2004-350937号公報JP 2004-350937 A
 上記特許文献1のものでは、側面全体が傾斜しており、特許文献3のものでは、下端全周に肉薄の周縁部を有し、側面は、その周縁部の上面とつながる湾曲面となっているため、把持が必ずしも容易ではなく、埋設部となる切開部への挿入も容易なものではない。特許文献2の図10ないし図12に示すものでは、ほぼ円形の穿刺部外観と、非円形の底面部形状を持っており、皮下に埋め込まれた薬液注入具の認識が容易なものとなっている。さらに、特許文献2のものは、下面部に肉薄の周縁部を持たないため、把持も容易となっている。しかし、特許文献2のものでは、側部の形状に変化がなく、側部を把持した状態では、穿刺部位(セプタムの上面部位)を認識することは困難であり、薬液注入具の上部のリング状部分を把持し確認する必要があった。 In the thing of the said patent document 1, the whole side surface inclines, and in the thing of patent document 3, it has a thin peripheral part in the perimeter of a lower end, and a side surface turns into a curved surface connected with the upper surface of the peripheral part. Therefore, it is not always easy to grasp, and it is not easy to insert into an incision portion that becomes an embedded portion. 10 to 12 of Patent Document 2 have a substantially circular puncture portion appearance and a non-circular bottom surface shape, which makes it easy to recognize a drug injection device implanted under the skin. Yes. Furthermore, since the thing of patent document 2 does not have a thin peripheral part in a lower surface part, it is easy to hold | grip. However, in the thing of patent document 2, there is no change in the shape of a side part, and it is difficult to recognize a puncture site | part (upper surface part of a septum) in the state which hold | gripped the side part, and the ring of the upper part of a chemical | medical solution injection tool It was necessary to grasp and confirm the shaped part.
 本発明の目的は、薬液注入具の側部の把持が容易であり、皮下埋込手技における薬液注入具の取扱が良好であり、かつ、切開部への挿入も容易で、埋設手技を容易に行うことができるとともに、皮下に埋め込まれた薬液注入具の側部を把持することにより、シール部材(セプタム)の中央部を認識することが容易であり、薬剤注入針の穿刺操作を迅速に行うことができる皮下埋め込み型薬液注入具(アクセスポート)を提供するものである。 The object of the present invention is that the side of the drug solution injector can be easily grasped, the drug solution injector is handled well in the subcutaneous implantation procedure, and it can be easily inserted into the incision, thereby facilitating the implantation procedure. In addition, it is easy to recognize the central part of the seal member (septum) by grasping the side part of the drug injection device implanted under the skin, and the puncture operation of the drug injection needle is quickly performed. It is intended to provide a subcutaneously implantable drug solution injector (access port) that can be used.
 上記目的を達成するものは、以下のものである。
 リング状の上部部材と前記上部部材の底面を閉塞する底部部材とからなる注入具本体と、前記上部部材と前記底部部材間に収納され、前記上部部材の開口を閉塞し、かつ、前記注入具本体内に薬液流入空間を形成するシール部材と、前記薬液流入空間と連通する排出ポートとを備える皮下埋め込み型薬液注入具であって、前記リング状の上部部材は、前記シール部材の中央部が露出する状態にて前記シール部材を収納する本体部と、前記本体部の上部開口部より内部に突出し、前記シール部材の周縁部を押圧するため環状突出部と、前記上部部材の先端部の両側部に設けられた側部膨出部と、前記排出ポートと向かい合う位置に設けられ、後端側に向かって肉薄となる後端部と、前記後端部と前記側部膨出部間に形成され、ほぼ起立面でありかつ、前記側部膨出部付近にて大きく湾曲する向かい合う2つの把持用起立側面部を備える皮下埋め込み型薬液注入具。
What achieves the above object is as follows.
An injection tool main body comprising a ring-shaped upper member and a bottom member closing the bottom surface of the upper member; and being accommodated between the upper member and the bottom member, closing an opening of the upper member; and the injection tool A subcutaneously implantable chemical solution injector comprising a seal member that forms a chemical solution inflow space in the body and a discharge port that communicates with the chemical solution inflow space, wherein the ring-shaped upper member has a central portion of the seal member A main body portion that stores the seal member in an exposed state, an annular protrusion portion that protrudes inward from an upper opening portion of the main body portion, and presses a peripheral edge portion of the seal member, and both sides of a tip portion of the upper member A side bulging portion provided in a portion, a rear end portion which is provided at a position facing the discharge port and becomes thinner toward the rear end side, and formed between the rear end portion and the side bulging portion. Is almost upright One, subcutaneous implantable drug fluid injecting device comprising two gripping upright side portion opposite to largely curved at the side bulging portion around.
図1は、本発明の薬液注入具の斜視図である。FIG. 1 is a perspective view of a chemical liquid injector of the present invention. 図2は、本発明の薬液注入具の平面図である。FIG. 2 is a plan view of the chemical liquid injector of the present invention. 図3は、図2に示した薬液注入具の正面図である。FIG. 3 is a front view of the chemical solution injector shown in FIG. 図4は、図2のA-A線断面図である。4 is a cross-sectional view taken along line AA in FIG. 図5は、図3のB-B断面図である。5 is a cross-sectional view taken along the line BB in FIG. 図6は、本発明の薬液注入具に用いられるシール部材(セプタム)の正面図である。FIG. 6 is a front view of a seal member (septum) used in the chemical liquid injector of the present invention. 図7は、図6に示したシール部材の底面図である。FIG. 7 is a bottom view of the sealing member shown in FIG. 図8は、図6のC-C線断面図である。8 is a cross-sectional view taken along the line CC of FIG. 図9は、本発明の薬液注入具に用いられる底部部材の平面図である。FIG. 9 is a plan view of a bottom member used in the chemical liquid injector of the present invention. 図10は、図9のD-D線断面図である。10 is a cross-sectional view taken along the line DD of FIG. 図11は、カテーテルを装着した状態の本発明の薬液注入具の外観図である。FIG. 11 is an external view of the drug solution injector of the present invention with a catheter attached. 図12は、本発明の他の実施例の薬液注入具の平面図である。FIG. 12 is a plan view of a drug solution injector according to another embodiment of the present invention. 図13は、図12のE-E線断面図である。13 is a cross-sectional view taken along the line EE of FIG. 図14は、図12に示した薬液注入具の底面図である。FIG. 14 is a bottom view of the chemical liquid injector shown in FIG.
 本発明の皮下埋め込み型薬液注入具を図示する実施例を用いて説明する。
 本発明の皮下埋め込み型薬液注入具1は、リング状の上部部材3と上部部材3の底面を閉塞する底部部材2とからなる注入具本体と、上部部材3と底部部材2間に収納され、上部部材3の開口を閉塞し、かつ、注入具本体内に薬液流入空間10を形成するシール部材4と、薬液流入空間10と連通する排出ポート5とを備える。
The subcutaneously implantable drug solution injector of the present invention will be described with reference to the illustrated embodiment.
The subcutaneous implantable drug solution injector 1 of the present invention is accommodated between an upper body 3 and a bottom member 2, an infusion tool body composed of a ring-shaped upper member 3 and a bottom member 2 that closes the bottom surface of the upper member 3, A seal member 4 that closes the opening of the upper member 3 and forms a chemical solution inflow space 10 in the injection tool main body, and a discharge port 5 that communicates with the chemical solution inflow space 10 are provided.
 リング状の上部部材3は、シール部材4の中央部が露出する状態にてシール部材4を収納する本体部31と、本体部31の上部開口部より内部に突出し、シール部材4の周縁部を押圧するため環状突出部32と、排出ポート5と向かい合う位置に設けられ、上部部材3の先端部の両側部に設けられた側部膨出部34,35と、後端側に向かって肉薄となる後端部33と、後端部33と側部膨出部34,35間に形成され、ほぼ起立面でありかつ、側部膨出部34,35付近にて大きく湾曲する向かい合う2つの把持用起立側面部37,38と、起立側面部37,38と上部部材3の上端間に形成されたほぼ円筒状もしくは若干上端方向に向かって縮径する筒状部36とを備えている。 The ring-shaped upper member 3 protrudes inward from the main body 31 that houses the seal member 4 in a state where the central portion of the seal member 4 is exposed, and the upper opening of the main body 31, and the peripheral portion of the seal member 4 is In order to press, it is provided at a position facing the annular projecting portion 32 and the discharge port 5, and the side bulge portions 34 and 35 provided on both sides of the top end portion of the upper member 3, and thin toward the rear end side. A rear end portion 33 and two opposing grips formed between the rear end portion 33 and the side bulge portions 34 and 35, which are substantially standing surfaces and are largely curved in the vicinity of the side bulge portions 34 and 35. There are provided standing side surface portions 37 and 38, and a cylindrical portion 36 formed between the standing side surface portions 37 and 38 and the upper end of the upper member 3 and having a substantially cylindrical shape or a slightly reduced diameter toward the upper end direction.
 この実施例の皮下埋め込み型薬液注入具1は、図1ないし図5に示すように、注入具本体と、シール部材4とにより構成されている。そして、注入具本体は、薬液流入空間10を形成する凹部を有する底部部材2と、底部部材2の上面側に装着されるリング状の上部部材3と、上部部材3の側部に取り付けられた排出ポート5とを備える。そして、シール部材4は、底部部材2と上部部材3間に配置されており、フランジ部42が、底部部材2と上部部材3により挟圧され、底部部材2と上部部材3間を液密にシールしている。 The subcutaneous implantable drug injector 1 of this embodiment is composed of an injector main body and a seal member 4 as shown in FIGS. And the injection tool main body was attached to the bottom part 2 which has the recessed part which forms the chemical | medical solution inflow space 10, the ring-shaped upper member 3 with which the upper surface side of the bottom part 2 is mounted | worn, and the side part of the upper member 3 And a discharge port 5. The seal member 4 is disposed between the bottom member 2 and the upper member 3, and the flange portion 42 is clamped by the bottom member 2 and the upper member 3, so that the bottom member 2 and the upper member 3 are liquid-tight. It is sealed.
 リング状の上部部材3は、シール部材4の中央部が露出する状態にてシール部材4を収納するリング状の本体部31と、本体部31の上部開口部より、開口部の内部(中心方向)に突出する環状突出部32を有している。環状突出部32は、その下面にて、シール部材4の周縁部(フランジ部)42の上面を押圧するためのものである。さらに、この実施例のものでは、環状突出部32は、環状突出部32の下面の内縁側部分に形成され、下方に突出し、内径が下方に向かって拡径する環状傾斜面を有する環状エッジ部39を備えている。環状エッジ部39は、シール部材4のフランジ部の上面に刺入可能なものとなっている。そして、環状突出部32は、環状エッジ部39の外側に形成された環状かつ平坦面となったシール部材周縁部押圧部32aを有している。このシール部材周縁部押圧部32aが、シール部材4のフランジ部42を押圧(圧縮)する。 The ring-shaped upper member 3 includes a ring-shaped main body 31 that accommodates the seal member 4 in a state where the central portion of the seal member 4 is exposed, and an inner portion (center direction) of the opening from the upper opening of the main body 31. ) Projecting annular projection 32. The annular projecting portion 32 is for pressing the upper surface of the peripheral edge portion (flange portion) 42 of the seal member 4 at its lower surface. Further, in this embodiment, the annular protrusion 32 is formed on the inner edge side portion of the lower surface of the annular protrusion 32, protrudes downward, and has an annular inclined surface having an annular inclined surface whose inner diameter expands downward. 39 is provided. The annular edge portion 39 can be inserted into the upper surface of the flange portion of the seal member 4. The annular protrusion 32 has a seal member peripheral portion pressing portion 32 a formed on the outer side of the annular edge portion 39 and having an annular and flat surface. The seal member peripheral edge pressing portion 32 a presses (compresses) the flange portion 42 of the seal member 4.
 さらに、上部部材3は、排出ポート5と向かい合う位置に、言い換えれば、環状突出部の外縁より、排出ポート5と反対側に延びる後端部33を有している。後端部33は、後端側に向かって肉薄となるとともに、幅も挟くなっている。この実施例のものでは、後端部33は、図2に示すように、少しつぶれた三日月状のものとなっている。 Furthermore, the upper member 3 has a rear end portion 33 that extends to the opposite side of the discharge port 5 from the outer edge of the annular protrusion at a position facing the discharge port 5. The rear end portion 33 becomes thinner toward the rear end side and has a width. In this embodiment, the rear end 33 has a crescent shape that is slightly collapsed, as shown in FIG.
 また、上部部材3は、図2、図3および図5に示すように、上部部材3の先端部の両側部に設けられた側部膨出部34,35を備えている。また、側部膨出部34,35間に排出ポート5が位置している。さらに、上部部材3は、図1ないし図3(特に、図1)に示すように、後端部33と側部膨出部34,35間に形成され、ほぼ起立面でありかつ、側部膨出部34,35付近にて、他の部分に比べて大きく湾曲する向かい合う2つの把持用起立側面部37,38を備えている。そして、向かい合う2つの把持用起立側面部37,38間に、シール部材4の中心が位置している。また、この実施例のものでは、向かい合う2つの把持用起立側面部37,38の側部膨出部34,35付近にて大きく湾曲する部分付近間に、シール部材4の中央部が位置している。 Further, as shown in FIGS. 2, 3 and 5, the upper member 3 includes side bulging portions 34 and 35 provided on both sides of the tip portion of the upper member 3. As shown in FIG. Further, the discharge port 5 is located between the side bulging portions 34 and 35. Further, the upper member 3 is formed between the rear end portion 33 and the side bulging portions 34 and 35 as shown in FIGS. In the vicinity of the bulging portions 34 and 35, there are two standing upright side portions 37 and 38 for gripping that are greatly curved as compared with other portions. The center of the seal member 4 is located between the two gripping standing side surfaces 37 and 38 facing each other. Further, in this embodiment, the central portion of the seal member 4 is located between the portions that are largely curved in the vicinity of the side bulging portions 34 and 35 of the two opposing standing side surfaces 37 and 38 for gripping. Yes.
 さらに、この起立側面部37,38は、図1および図3に示すように、後端部33より側部膨出部34,35に向かって延び、かつ、起立側面部の高さが徐々に高くなり、環状突出部32の中央部側部付近が、最も高く、側部膨出部34,35に向かって急激に低くなるものとなっている。このように、把持用起立側面部37,38は、環状突出部32の中央部側部付近が最も高いため、環状突出部32の中央部側部を容易に把持することができる。さらに、把持したとき、側部膨出部34,35付近にて大きく湾曲する部分を指先に感じるため、把持部分間に、環状突出部32の中央部(言い換えれば、シール部材4の中央部)があることを容易に認識できる。このような把持用起立側面部37,38を設けることにより、皮下に埋設した後の薬剤注入用針の穿刺作業が容易になるとともに、皮下への埋め込み手技における取り扱いも容易なものとなる。 Further, as shown in FIGS. 1 and 3, the standing side surface portions 37 and 38 extend from the rear end portion 33 toward the side bulging portions 34 and 35, and the height of the standing side surface portion gradually increases. The height is higher, and the vicinity of the central side portion of the annular projecting portion 32 is the highest, and rapidly decreases toward the side bulging portions 34 and 35. As described above, since the gripping standing side surface portions 37 and 38 are the highest in the vicinity of the central side portion of the annular projecting portion 32, the central side portion of the annular projecting portion 32 can be easily gripped. Furthermore, when grasping, the fingertip feels a portion that is largely curved in the vicinity of the side bulging portions 34 and 35, so that the central portion of the annular protrusion 32 (in other words, the central portion of the seal member 4) is between the gripping portions. You can easily recognize that there is. Providing such standing side surfaces 37 and 38 for gripping facilitates the puncturing operation of the drug injection needle after being implanted subcutaneously, and facilitates handling in the subcutaneous implantation procedure.
 さらに、上部部材3は、起立側面部37,38と上部部材3の上端間に形成されたほぼ円筒状もしくは若干上端方向に向かって縮径する筒状部36とを備えている。この実施例のものでは、図3に示すように、筒状部36は、上方に向かってなだらかに縮径するものとなっている。この筒状部36を有することにより、皮下埋設後において、皮膚面上からの筒状部36(言い換えれば、環状突出部32の中央部、シール部材4の中央部)の認識が可能となる。また、この筒状部36を有することにより、薬液注入具1の上部の把持も容易であり、上部の把持によっても、シール部を容易に認識することができるとともに、確実に把持できるため、薬剤注入針の穿刺操作を迅速に行うことができる。
 さらに、図1ないし図3および図5に示すように、側部膨出部34,35は、側部膨出部34,35の端部に向かって肉薄となるとともに、上面から下面まで貫通する貫通孔を備え、貫通孔には、縫合針による刺通可能な弾性部材8,9が埋め込まれており、側部膨出部34,35は、生体への縫着部となっている。弾性部材8,9は、弾性材料により形成されている。
 弾性部材8,9の形成材料としては、シリコーンゴム、イソプレンゴム、天然ゴム等の各種ゴム類、ポリウレタン、ポリアミドエラストマー、ポリブタジエン、軟質塩化ビニル等の各種樹脂、またはこれらのうち2以上を組み合わせたもの等が挙げられるが、そのなかでも特に、生体に対し不活性で、比較的物性変化の少ないシリコーンゴムが好ましい。
Furthermore, the upper member 3 includes standing side surface portions 37 and 38 and a cylindrical portion 36 formed between the upper ends of the upper member 3 and having a substantially cylindrical shape or a diameter that is slightly reduced toward the upper end direction. In this embodiment, as shown in FIG. 3, the cylindrical portion 36 is gradually reduced in diameter toward the upper side. By having this cylindrical portion 36, the cylindrical portion 36 (in other words, the central portion of the annular projecting portion 32 and the central portion of the seal member 4) from the skin surface can be recognized after being subcutaneously embedded. In addition, since the cylindrical portion 36 is provided, it is easy to grip the upper portion of the drug solution injector 1 and the seal portion can be easily recognized and reliably gripped by the upper portion. The puncture operation of the injection needle can be performed quickly.
Further, as shown in FIGS. 1 to 3 and 5, the side bulging portions 34, 35 become thinner toward the ends of the side bulging portions 34, 35 and penetrate from the upper surface to the lower surface. A through-hole is provided, and elastic members 8 and 9 that can be pierced by a suture needle are embedded in the through-hole, and the side bulging portions 34 and 35 are sewn portions to a living body. The elastic members 8 and 9 are made of an elastic material.
As the material for forming the elastic members 8 and 9, various rubbers such as silicone rubber, isoprene rubber and natural rubber, various resins such as polyurethane, polyamide elastomer, polybutadiene and soft vinyl chloride, or a combination of two or more of these Of these, silicone rubber that is inert to the living body and has relatively little change in physical properties is particularly preferable.
 そして、この実施例における上部部材の底面形態は、図2に示すように、基端両側部が膨らんだ半楕円状のものとなっており、上面は、中心が底面形態の基端側によった円形のものとなっている。
 底部部材2は、図3,図5、図9および図10に示すように、底板部21と、底板部21より、突出する環状壁部22と、後端部23を備える。環状壁部22は、ほぼ円筒状のものであり、内部に薬液流入空間10を形成するための凹部26を備えている。さらに、環状壁部22は、その側面下部に、凹部26と連通する排出ポート装着部24を備えている。排出ポート装着部24は、底部部材2の環状壁部22より突出する筒状部であり、排出ポート5の基端部が挿入可能な内腔部を備えている。底板部21は、図9に示すように、基端両側部が欠けた半楕円状のものとなっており、環状壁部は、その中心が底面形態の基端側によった位置に設けられている。
As shown in FIG. 2, the bottom surface form of the upper member in this embodiment is a semi-elliptical shape in which both sides of the proximal end swell, and the upper surface is centered on the proximal end side of the bottom surface form. It has a round shape.
As shown in FIGS. 3, 5, 9, and 10, the bottom member 2 includes a bottom plate portion 21, an annular wall portion 22 that protrudes from the bottom plate portion 21, and a rear end portion 23. The annular wall portion 22 is substantially cylindrical and includes a recess 26 for forming the chemical solution inflow space 10 therein. Further, the annular wall portion 22 includes a discharge port mounting portion 24 that communicates with the concave portion 26 at a lower portion of the side surface. The discharge port mounting portion 24 is a cylindrical portion that protrudes from the annular wall portion 22 of the bottom member 2, and includes a lumen portion into which the proximal end portion of the discharge port 5 can be inserted. As shown in FIG. 9, the bottom plate portion 21 has a semi-elliptical shape in which both sides of the base end are cut off, and the annular wall portion is provided at a position whose center is based on the base end side of the bottom surface form. ing.
 さらに、この実施例のものでは、底部部材2は、環状壁部22の上面の外縁側部分により形成されたシール部材周縁部押圧部22aを有する。さらに、環状壁部22の上面の内縁側部分(言い換えれば、シール部材周縁部押圧部22aの内側)に形成され、上方に突出し、内径が上方に向かって拡径する環状傾斜面を有する環状エッジ部25を備えている。環状エッジ部25は、シール部材4のフランジ部42の下面に刺入可能なものとなっている。
 シール部材4は、円柱状の本体部41と、本体部41の周縁部に、本体部より突出するように形成された環状のフランジ部42を有する。フランジ部42は、上部部材3の環状突出部32の下面と下部部材の環状壁部22の上面により押圧されるための部位である。さらに、この実施例のシール部材4は、フランジ部42より下部に形成され、外径がフランジ部より小さく、かつ、上述した環状壁部の内径とほぼ等しい底部部材内挿入部41bと、フランジ部42より上部に形成され、外径がフランジ部より小さく、かつ、上述した上部部材3の環状突出部の内径とほぼ等しいもしくは若干小さい上部部材内挿入部41aを備える。
Further, in this embodiment, the bottom member 2 has a seal member peripheral portion pressing portion 22 a formed by the outer edge side portion of the upper surface of the annular wall portion 22. Further, an annular edge formed on an inner edge side portion (in other words, inside the seal member peripheral edge pressing portion 22a) on the upper surface of the annular wall portion 22 and having an annular inclined surface that protrudes upward and whose inner diameter increases upward. The unit 25 is provided. The annular edge portion 25 can be inserted into the lower surface of the flange portion 42 of the seal member 4.
The seal member 4 has a cylindrical main body 41 and an annular flange 42 formed on the peripheral edge of the main body 41 so as to protrude from the main body. The flange portion 42 is a portion to be pressed by the lower surface of the annular projecting portion 32 of the upper member 3 and the upper surface of the annular wall portion 22 of the lower member. Further, the seal member 4 of this embodiment is formed below the flange portion 42, has an outer diameter smaller than that of the flange portion, and a bottom member insertion portion 41b that is substantially equal to the inner diameter of the annular wall portion described above, and the flange portion. The upper member insertion portion 41a is formed above 42, has an outer diameter smaller than that of the flange portion, and is substantially equal to or slightly smaller than the inner diameter of the annular protrusion of the upper member 3 described above.
 さらに、このシール部材4では、底部部材内挿入部41bの下面44の周縁部に形成され、端部に向かって肉薄となるスカート状突出部43を備えている。そして、シール部材4の上部部材内挿入部41aは、上部部材3の開口部内に挿入され、その上端部は、図1ないし図5に示すように、上部部材3の上面より突出している。また、シール部材4の底部部材内挿入部41bは、図4および図5に示すように、底部部材2の環状壁部22内に収納され、進入している。そして、シール部材4の底部部材内挿入部41bの下面44と底部部材2の凹部26の内面間により、薬液流入空間10が形成されている。 Furthermore, the seal member 4 is provided with a skirt-like protrusion 43 that is formed on the peripheral edge of the lower surface 44 of the bottom member inner insertion portion 41b and becomes thinner toward the end. The upper member insert portion 41a of the seal member 4 is inserted into the opening of the upper member 3, and its upper end protrudes from the upper surface of the upper member 3 as shown in FIGS. Further, the bottom member internal insertion portion 41b of the seal member 4 is accommodated and entered into the annular wall portion 22 of the bottom member 2 as shown in FIGS. And the chemical | medical solution inflow space 10 is formed between the lower surface 44 of the bottom part member insertion part 41b of the sealing member 4, and the inner surface of the recessed part 26 of the bottom member 2. FIG.
 注入具本体(底部部材2,上部部材3)の形成材料としては、耐薬品性、生体適合性を有する材料が好ましく、ポリスルフォン、ポリエーテルスルフォン、エポキシ樹脂、ポリアセタールなどが用いられる。
 シール部材4は、薬液注入用針の刺通が可能であり、薬液注入用針の抜去後に刺通部がシールされるものとなっている。シール部材4は、弾性材料により形成されている。シール部材4の形成材料としては、シリコーンゴム、イソプレンゴム、天然ゴム等の各種ゴム類、ポリウレタン、ポリアミドエラストマー、ポリブタジエン、軟質塩化ビニル等の各種樹脂、またはこれらのうち2以上を組み合わせたもの等が挙げられるが、そのなかでも特に、生体に対し不活性で、比較的物性変化の少ないシリコーンゴムが好ましい。
As a material for forming the injection tool main body (bottom member 2, upper member 3), a material having chemical resistance and biocompatibility is preferable, and polysulfone, polyethersulfone, epoxy resin, polyacetal and the like are used.
The seal member 4 can be pierced by a needle for injecting a chemical liquid, and the piercing portion is sealed after the needle for injecting a chemical liquid is removed. The seal member 4 is made of an elastic material. As a material for forming the seal member 4, various rubbers such as silicone rubber, isoprene rubber and natural rubber, various resins such as polyurethane, polyamide elastomer, polybutadiene, and soft vinyl chloride, or a combination of two or more of these may be used. Among them, particularly preferred is silicone rubber which is inert to the living body and has relatively little change in physical properties.
 そして、この実施例のものでは、図6ないし図8に示すように、シール部材4は、フランジ部42の上面側42aが上部部材3の環状突出部32により押圧され、フランジ部42の下面側42bの外縁部が底部部材2の環状壁部22の上面のシール部材周縁部押圧部22aにより押圧されるとともに、フランジ部42の下面側の内縁部に、底部部材2の環状壁部22の環状エッジ部25が刺入している。このため、シール部材4は、上部部材3と底部部材2間による圧縮(具体的には、底部部材2のシール部材周縁部押圧部22aと上部部材3のシール部材周縁部押圧部32aによる押圧による圧縮)と、底部部材2の環状エッジ部25の刺入により変形し、シール部材4のスカート状突出部43が減少するとともに、底部部材内挿入部41bの下端外周面が、底部部材2の環状壁部22の内面に密着したものとなっている。さらに、この実施例のものでは、フランジ部42の上面側の外縁部は、上部部材3の環状突出部32の下面のシール部材周縁部押圧部32aにより押圧され、フランジ部42の上面側の内縁部に、上部部材3の環状突出部32の環状エッジ部39が刺入したものとなっている。 In this embodiment, as shown in FIGS. 6 to 8, the sealing member 4 is such that the upper surface side 42 a of the flange portion 42 is pressed by the annular protrusion 32 of the upper member 3, and the lower surface side of the flange portion 42. The outer edge portion of 42 b is pressed by the seal member peripheral portion pressing portion 22 a on the upper surface of the annular wall portion 22 of the bottom member 2, and the annular portion of the annular wall portion 22 of the bottom member 2 is connected to the inner edge portion on the lower surface side of the flange portion 42. Edge portion 25 is inserted. For this reason, the seal member 4 is compressed between the upper member 3 and the bottom member 2 (specifically, pressed by the seal member peripheral portion pressing portion 22a of the bottom member 2 and the seal member peripheral portion pressing portion 32a of the upper member 3). Compression) and the insertion of the annular edge portion 25 of the bottom member 2 is deformed, and the skirt-like projecting portion 43 of the seal member 4 is reduced, and the lower end outer peripheral surface of the bottom member insertion portion 41b is the annular shape of the bottom member 2 The wall 22 is in close contact with the inner surface. Further, in this embodiment, the outer edge portion on the upper surface side of the flange portion 42 is pressed by the seal member peripheral portion pressing portion 32a on the lower surface of the annular projecting portion 32 of the upper member 3, and the inner edge on the upper surface side of the flange portion 42. An annular edge 39 of the annular protrusion 32 of the upper member 3 is inserted into the part.
 さらに、この実施例のものでは、シール部材4は、上部部材3と底部部材2間による圧縮と、底部部材2の環状エッジ部25の刺入による変形により、シール部材4のスカート状突出部43がほぼ消失した状態となっている。また、上記変形に起因し、シール部材4の底部部材内挿入部41bの下端面は、中央部が、若干窪んだ状態となっている。
 そして、この実施例の薬液注入具1では、薬液流入空間10は、シール部材4の内面、凹部26の内面(環状壁部22の内面と底板部21の上面)により、形成された所定の高さを有する円柱状空間となっている。
Further, in this embodiment, the seal member 4 is formed by the compression between the upper member 3 and the bottom member 2 and the deformation due to the insertion of the annular edge portion 25 of the bottom member 2 so that the skirt-like protrusion 43 of the seal member 4 is formed. Has almost disappeared. Further, due to the above deformation, the bottom portion of the bottom member insertion portion 41b of the seal member 4 has a slightly depressed central portion.
In the chemical solution injector 1 of this embodiment, the chemical solution inflow space 10 has a predetermined height formed by the inner surface of the seal member 4 and the inner surface of the recess 26 (the inner surface of the annular wall portion 22 and the upper surface of the bottom plate portion 21). It is a cylindrical space having a thickness.
 さらに、この実施例の薬液注入具1には、図1ないし図5に示すように、排出ポート5が装着されている。排出ポート5は、筒状体であり、先端側に設けられたカテーテル基端部装着部53と、基端側に設けられた底部部材装着部52と、内部に設けられた流通路51とを備えている。また、基端開口50は、流通路51の基端であり、底部部材装着部24の基端に位置している。
 そして、カテーテル基端部装着部53の外面には、カテーテル抜け止め用の環状突出部が設けられている。底部部材装着部52は、底部部材2の排出ポート装着部24内に挿入され、液密に固定されている。
 排出ポート5の形成部材としては、チタン、チタン合金、ステンレス鋼などが使用でき、特に、チタン、チタン合金が好ましい。
Furthermore, as shown in FIGS. 1 to 5, a discharge port 5 is attached to the chemical solution injector 1 of this embodiment. The discharge port 5 is a cylindrical body, and includes a catheter proximal end mounting portion 53 provided on the distal end side, a bottom member mounting portion 52 provided on the proximal end side, and a flow passage 51 provided inside. I have. The proximal end opening 50 is the proximal end of the flow passage 51 and is located at the proximal end of the bottom member mounting portion 24.
An annular protrusion for preventing the catheter from coming off is provided on the outer surface of the catheter proximal end mounting portion 53. The bottom member mounting portion 52 is inserted into the discharge port mounting portion 24 of the bottom member 2 and is liquid-tightly fixed.
As the forming member of the discharge port 5, titanium, titanium alloy, stainless steel, or the like can be used, and titanium or titanium alloy is particularly preferable.
 また、本発明の薬液注入具1は、使用時に、図11に示すようなカテーテル7およびプロテクター6が接続される。カテーテル7の基端部71は、カテーテル基端部装着部53を被包するように排出ポート5に装着され、プロテクター6は、カテーテル基端部装着部53に装着されたカテーテル7の基端部71を被嵌するとともに圧迫し、カテーテルの離脱を防止している。カテーテル7としては、少なくとも先端部が体内(具体的には、血管(静脈または動脈)、胆管、尿管などの脈管、硬膜外、くも膜下、腹腔)に挿入可能なものが用いられる。 Moreover, the catheter 7 and the protector 6 as shown in FIG. 11 are connected to the chemical injection device 1 of the present invention when in use. The proximal end portion 71 of the catheter 7 is attached to the discharge port 5 so as to encapsulate the catheter proximal end attachment portion 53, and the protector 6 is attached to the proximal end portion of the catheter 7 attached to the catheter proximal end attachment portion 53. 71 is fitted and pressed to prevent the catheter from being detached. As the catheter 7, a catheter that can be inserted into the body (specifically, blood vessels (veins or arteries), bile ducts, vasculature and other vessels, epidural, subarachnoid, abdominal cavity) is used.
 カテーテル7は、先端側開口部と内部ルーメンとを有するチューブ体であり、ほぼ全体に渡り同一外径および同一内径を有するものとなっている。カテーテルの外径は、0.3~5mmが好ましく、特に、0.9~2.8mmが好ましい。また、カテーテルの内径は、0.1~2.6mmが好ましく、特に、0.6~1.8mmが好ましい。
 また、カテーテル7は、可撓性、好ましくはある程度の弾性を有するものが用いられる。カテーテルの形成材料としては、例えば、オレフィン系エラストマー(例えば、ポリエチレンエラストマー、ポリプロピレンエラストマー)、ポリエチレンテレフタレートなどのポリエステル、軟質ポリ塩化ビニル、ポリウレタンおよびウレタン系エラストマー、ポリアミドおよびアミド系エラストマー(例えば、ポリアミドエラストマー)、フッ素樹脂エラストマー、エチレン-酢酸ビニル共重合体、シリコーンゴム等の可撓性を有する高分子材料により形成される。
The catheter 7 is a tube body having a distal end side opening and an internal lumen, and has the same outer diameter and the same inner diameter throughout the entire body. The outer diameter of the catheter is preferably 0.3 to 5 mm, and particularly preferably 0.9 to 2.8 mm. The inner diameter of the catheter is preferably 0.1 to 2.6 mm, particularly preferably 0.6 to 1.8 mm.
The catheter 7 is flexible and preferably has some elasticity. Examples of the catheter forming material include olefin-based elastomers (for example, polyethylene elastomers and polypropylene elastomers), polyesters such as polyethylene terephthalate, soft polyvinyl chloride, polyurethane and urethane-based elastomers, polyamides and amide-based elastomers (for example, polyamide elastomers). And a flexible polymer material such as a fluororesin elastomer, an ethylene-vinyl acetate copolymer, and silicone rubber.
 また、本発明の薬剤注入具としては、図12ないし図14に示す薬剤注入具1aのように、X線造影機能を有するものであってもよい。
 図12は、本発明の他の実施例の薬液注入具1aの平面図である。図13は、図12のE-E線断面図である。図14は、図12に示した薬液注入具の底面図である。
 この実施例の皮下埋め込み型薬液注入具1aは、上述した皮下埋め込み型薬液注入具1と同様に、リング状の上部部材3と上部部材3の底面を閉塞する底部部材2とからなる注入具本体と、上部部材3と底部部材2間に収納され、上部部材3の開口を閉塞し、かつ、注入具本体内に薬液流入空間10を形成するシール部材4と、薬液流入空間10と連通する排出ポート5とを備える。そして、注入具本体内、具体的には、リング状の上部部材3と底部部材2間に形成された間隙部に収納されたリング状の造影性部材15を備えている。この造影性部材15により、X線造影機能を備えるものとなっている。リング状の上部部材3、底部部材2、シール部材4および排出ポート5は、上述したものと同じである。
Further, the drug injection device of the present invention may have an X-ray contrast function like the drug injection device 1a shown in FIGS.
FIG. 12 is a plan view of a chemical liquid injector 1a according to another embodiment of the present invention. 13 is a cross-sectional view taken along the line EE of FIG. FIG. 14 is a bottom view of the chemical liquid injector shown in FIG.
The subcutaneous implantable drug injector 1a of this embodiment is similar to the subcutaneous implantable drug injector 1 described above, and includes an injector main body comprising a ring-shaped upper member 3 and a bottom member 2 that closes the bottom surface of the upper member 3. And a seal member 4 that is housed between the upper member 3 and the bottom member 2, closes the opening of the upper member 3, and forms the chemical solution inflow space 10 in the injection tool body, and a discharge that communicates with the chemical solution inflow space 10. Port 5. In addition, a ring-shaped contrast member 15 is provided in the injection tool main body, specifically, in a gap formed between the ring-shaped upper member 3 and the bottom member 2. The contrast member 15 has an X-ray contrast function. The ring-shaped upper member 3, the bottom member 2, the seal member 4 and the discharge port 5 are the same as described above.
 この実施例の薬液注入具1aでは、造影性部材15は、排出ポート5側に欠損部を有する薄板リング状部材となっている。具体的には、図12ないし図14に示すように、造影性部材15は、図12に示すように、略楕円形状の外縁とほぼ真円状の内縁を有し、排出ポート5側に欠損部を有するものとなっている。そして造影性部材15は、底部部材2の突出する環状壁部22の下部外周を取り囲むものとなっており、その中央部上方にシール部材4が位置する。よって、シール部材4(穿刺可能部)をX線造影により確認可能である。さらに、本発明の薬液注入具1aは、後端側に向かって肉薄となる後端部33を備えている。そして、この形状に対応するように、造影性部材15は、後部側の中央部の幅が広いものとなっている。このため、X線造影により、薬液注入具1aの後端部の位置、すなわち、薬液注入具1aの留置状態を確認可能となっている。特に、この実施例の造影性部材15は、両側部より、後部中央部に向かって幅が徐々に広くなり、中央において最も広いものとなっている。また、この幅の広い後部側の中央部は、欠損部(排出ポート5)と向かい合うものとなっている。 In the chemical injection device 1a of this embodiment, the contrast member 15 is a thin plate ring-shaped member having a defect on the discharge port 5 side. Specifically, as shown in FIGS. 12 to 14, the contrast member 15 has a substantially elliptic outer edge and a substantially perfect inner edge as shown in FIG. It has a part. The contrast member 15 surrounds the outer periphery of the lower portion of the annular wall portion 22 from which the bottom member 2 protrudes, and the seal member 4 is located above the central portion. Therefore, it is possible to confirm the seal member 4 (punctureable portion) by X-ray contrast. Furthermore, the chemical | medical solution injection tool 1a of this invention is provided with the rear-end part 33 which becomes thin toward the rear-end side. In order to correspond to this shape, the contrast member 15 has a wide central portion on the rear side. For this reason, the position of the rear end part of the chemical liquid injector 1a, that is, the indwelling state of the chemical liquid injector 1a can be confirmed by X-ray contrast. In particular, the contrast member 15 of this embodiment gradually increases in width from both sides toward the rear center, and is widest at the center. In addition, the central portion on the wide rear side faces the missing portion (discharge port 5).
 なお、この薬液注入具1aでは、造影性部材15は、排出ポート5側に欠損部を有する薄板リング状部材となっている。リング状の上部部材3と底部部材2間に形成された間隙部に、単に収納されたものとなっているが、これに限定されるものではなく、例えば、底部部材2の上面に埋設したもの、底部部材の下面に埋設したもの、上部部材の底面に埋設したものであってもよい。
 さらに、この実施例の薬液注入具1aでは、造影性部材15は、反転認識機能を備えている。具体的には、造影性部材15は、幅広部分に形成された左右非対称の切り抜き部15aを備えている。切り抜き部15aは、この実施例では、「C」字状となっている。シール部材4(穿刺可能部)が上側に位置する正常な留置形態では、X線造影において、図12に示すように、文字「C」を認識可能である。そして、造影性部材15が反転し、シール部材4(穿刺可能部)が下側に位置する状態では、図14の背面図に示すように、左右非対称マーク(この実施例では、「C」)が反転し、文字「C」と認識できない状態となる。よって、このような反転認識機能15aを設けることにより、X線造影により、薬剤注入具1aの反転(裏返り)を確認可能である。
In this chemical solution injector 1a, the contrast member 15 is a thin plate ring-shaped member having a defect on the discharge port 5 side. It is merely housed in a gap formed between the ring-shaped upper member 3 and the bottom member 2, but is not limited to this, for example, embedded in the upper surface of the bottom member 2 It may be embedded in the lower surface of the bottom member or embedded in the bottom surface of the upper member.
Furthermore, in the chemical solution injector 1a of this embodiment, the contrast member 15 has an inversion recognition function. Specifically, the contrast member 15 includes a left-right asymmetric cutout portion 15a formed in a wide portion. The cutout portion 15a has a “C” shape in this embodiment. In a normal indwelling configuration in which the seal member 4 (punctureable portion) is located on the upper side, the letter “C” can be recognized as shown in FIG. Then, in a state where the contrast member 15 is reversed and the seal member 4 (punctureable portion) is located on the lower side, as shown in the rear view of FIG. 14, a left-right asymmetric mark (“C” in this embodiment) Is reversed and the character “C” cannot be recognized. Therefore, by providing such a reversal recognition function 15a, it is possible to confirm reversal (inversion) of the pharmaceutical injection device 1a by X-ray contrast.
 造影性部材15の形成部材としては、金、プラチナ、タングステン、チタン、チタン合金、ステンレス鋼、金、プラチナなどの高X線造影製金属メッキを有する金属板、造影性物質(金、プラチナ、タングステンなどの金属粉末、硫酸バリウム、次炭酸ビスマスなどの造影性物質)を添加した樹脂板などが使用できる。特に、金、プラチナ、タングステン、チタン、チタン合金からなる金属板、金もしくはプラチナのメッキを有する金属板が好ましい。 As the forming member of the contrast member 15, a metal plate having a high X-ray contrast metal plating such as gold, platinum, tungsten, titanium, titanium alloy, stainless steel, gold, platinum, or the like, a contrast material (gold, platinum, tungsten) A resin plate to which a metal powder such as barium sulfate or contrast medium such as bismuth carbonate is added) can be used. In particular, a metal plate made of gold, platinum, tungsten, titanium, or a titanium alloy, or a metal plate having gold or platinum plating is preferable.
 本発明の皮下埋め込み型薬液注入具は、以下のものである。
 (1) リング状の上部部材と前記上部部材の底面を閉塞する底部部材とからなる注入具本体と、前記上部部材と前記底部部材間に収納され、前記上部部材の開口を閉塞し、かつ、前記注入具本体内に薬液流入空間を形成するシール部材と、前記薬液流入空間と連通する排出ポートとを備える皮下埋め込み型薬液注入具であって、
 前記リング状の上部部材は、前記シール部材の中央部が露出する状態にて前記シール部材を収納する本体部と、前記本体部の上部開口部より内部に突出し、前記シール部材の周縁部を押圧するため環状突出部と、前記上部部材の先端部の両側部に設けられた側部膨出部と、前記排出ポートと向かい合う位置に設けられ、後端側に向かって肉薄となる後端部と、前記後端部と前記側部膨出部間に形成され、ほぼ起立面でありかつ、前記側部膨出部付近にて大きく湾曲する向かい合う2つの把持用起立側面部を備える皮下埋め込み型薬液注入具。
 特に、把持用起立側面部は、側部膨出部付近にて大きく湾曲しており、向かい合う2つの把持用起立側面部間にシール部は位置している。このため、2つの把持用起立側面部を把持することにより、薬液注入具を容易に把持できるとともに、上記の湾曲部を認識するため、シール部材の位置を確実に認識することができる。よって、皮下に埋め込まれた薬液注入具の側部を把持することにより、シール部材(セプタム)の中央部を認識することが容易であり、薬剤注入針の穿刺操作を迅速に行うことができる。また、後端側に向かって肉薄となる後端部を有するとともに、上部部材の先端部の両側部に設けられた側部膨出部までが、2つの把持用起立側面部となっているため、埋設部に形成された切開部への薬液注入具の挿入および皮下埋込手技における薬液注入具の取扱が良好であり、埋設手技を容易に行うことができる。
The subcutaneous implantable drug solution injector of the present invention is as follows.
(1) An injection tool body composed of a ring-shaped upper member and a bottom member that closes the bottom surface of the upper member, and is housed between the upper member and the bottom member, closes the opening of the upper member, and A subcutaneously implantable drug solution injector comprising a seal member that forms a drug solution inflow space in the injection device main body, and a discharge port that communicates with the drug solution inflow space,
The ring-shaped upper member protrudes inward from a main body portion that houses the seal member in a state where the central portion of the seal member is exposed, and presses a peripheral edge portion of the seal member An annular protrusion, side bulges provided on both sides of the tip of the upper member, and a rear end provided at a position facing the discharge port and becoming thinner toward the rear end. The subcutaneous implantable drug solution is formed between the rear end portion and the side bulging portion, and has two standing standing side surfaces for gripping which are substantially standing surfaces and are largely curved in the vicinity of the side bulging portions. Infusion tool.
In particular, the gripping standing side surface portion is greatly curved in the vicinity of the side bulge portion, and the seal portion is located between the two gripping standing side surface portions. For this reason, by grasping the two standing side surfaces for grasping, the chemical liquid injector can be easily grasped, and the curved portion is recognized, so that the position of the seal member can be reliably recognized. Therefore, it is easy to recognize the central part of the seal member (septum) by grasping the side part of the drug solution injector implanted under the skin, and the puncture operation of the drug injection needle can be performed quickly. Moreover, since it has the rear-end part which becomes thin toward the rear-end side, and the side part bulging part provided in the both sides of the front-end | tip part of an upper member is two standing side parts for holding | grip The insertion of the drug solution injector into the incision formed in the embedded portion and the handling of the drug solution injector in the subcutaneous implant procedure are good, and the implant procedure can be performed easily.
 そして、本発明の実施形態としては、以下のものであってもよい。
 (2) 前記リング状の上部部材は、前記起立側面部と前記上部部材の上端間に形成されたほぼ円筒状もしくは若干上端方向に向かって縮径する筒状部を備えている上記(1)に記載の皮下埋め込み型薬液注入具。
 (3) 前記向かい合う2つの把持用起立側面部間に、前記シール部材の中心が位置している上記(1)または(2)に記載の皮下埋め込み型薬液注入具。
 (4) 前記向かい合う2つの把持用起立側面部の前記大きく湾曲する部分付近間に、前記シール部材の中央部が位置している上記(1)ないし(3)のいずれかに記載の皮下埋め込み型薬液注入具。
 (5) 前記把持用起立側面部の高さは、前記環状突出部の中央部側部付近が最も高いものとなっている上記(1)ないし(4)のいずれかに記載の皮下埋め込み型薬液注入具。
 (6) 前記側部膨出部は、前記側部膨出部の端部に向かって肉薄となるとともに、上面から下面まで貫通する貫通孔と、前記貫通孔内に埋め込まれた弾性部材とを備えている上記(1)ないし(5)のいずれかに記載の皮下埋め込み型薬液注入具。
 (7) 前記底部部材は、底板部と、前記底板部より、突出する環状壁部とを備え、前記シール部材は、本体部と、前記本体部の周縁部に形成され、前記上部部材の前記環状突出部の下面と前記底部部材の環状壁部の上面により押圧されるためのフランジ部とを備える上記(1)ないし(6)のいずれかに記載の皮下埋め込み型薬液注入具。
 (8) 前記底部部材は、前記環状壁部の上面の外縁側部分により形成されたシール部材周縁部押圧部と、前記環状壁部の上面の内縁側部分に形成され、上方に突出し、内径が上方に向かって拡径する環状傾斜面を有し、かつ前記シール部材内に刺入可能な環状エッジ部とを備える上記(7)に記載の皮下埋め込み型薬液注入具。
 (9) 前記上部部材は、前記環状突出部の下面の内縁側部分に形成され、下方に突出し、内径が下方に向かって拡径する環状傾斜面を有し、かつ前記シール部材に刺入可能な環状エッジ部と、前記環状エッジ部の外側に形成されたシール部材周縁部押圧部とを有している上記(1)ないし(8)のいずれかに記載の皮下埋め込み型薬液注入具。
(10) 前記皮下埋め込み型薬液注入具は、前記注入具本体内に配置された造影性部材を備え、前記造影性部材は、欠損部を有するリング状部材であり、かつ、後部側の中央部の幅が広いものとなっている上記(1)ないし(9)のいずれかに記載の皮下埋め込み型薬液注入具。
(11) 前記造影性部材は、左右非対称の切り抜き部を備えている上記(9)に記載の皮下埋め込み型薬液注入具。
And as an embodiment of the present invention, the following may be sufficient.
(2) The ring-shaped upper member is provided with a cylindrical portion formed between the standing side surface portion and the upper end of the upper member, or a cylindrical portion that is slightly reduced in diameter toward the upper end. The subcutaneously implantable drug solution injector described in 1.
(3) The subcutaneously implantable drug solution injector according to (1) or (2) above, wherein the center of the seal member is positioned between the two standing gripping side surfaces.
(4) The subcutaneously implantable mold according to any one of (1) to (3), wherein a central portion of the seal member is positioned between the two curved standing rising side portions in the vicinity of the largely curved portion. Chemical injection tool.
(5) The height of the holding side surface portion for gripping is the highest in the vicinity of the side portion of the center portion of the annular projecting portion. The subcutaneous implantable drug solution according to any one of (1) to (4) above Infusion tool.
(6) The side bulge portion is thinner toward the end of the side bulge portion, and includes a through hole penetrating from the upper surface to the lower surface, and an elastic member embedded in the through hole. The subcutaneously implantable drug solution injector according to any one of (1) to (5) above.
(7) The bottom member includes a bottom plate portion and an annular wall portion that protrudes from the bottom plate portion, and the seal member is formed at a peripheral portion of the main body portion and the main body portion, The subcutaneously implantable drug solution injector according to any one of (1) to (6), further comprising a lower surface of the annular protrusion and a flange portion to be pressed by the upper surface of the annular wall portion of the bottom member.
(8) The bottom member is formed on a seal member peripheral portion pressing portion formed by an outer edge side portion of the upper surface of the annular wall portion and an inner edge side portion of the upper surface of the annular wall portion, and protrudes upward, and has an inner diameter. The subcutaneously implantable drug solution injector according to the above (7), which has an annular inclined surface that expands in diameter upward and includes an annular edge portion that can be inserted into the seal member.
(9) The upper member is formed on an inner edge side portion of the lower surface of the annular projecting portion, has an annular inclined surface that projects downward and has an inner diameter that expands downward, and can be inserted into the seal member. The subcutaneously implantable drug solution injector according to any one of (1) to (8), further including an annular edge portion and a seal member peripheral edge pressing portion formed outside the annular edge portion.
(10) The subcutaneous implantable drug solution injector includes a contrast member disposed in the injector body, and the contrast member is a ring-shaped member having a defect, and a central portion on the rear side. The subcutaneous implantable drug solution injector according to any one of the above (1) to (9), wherein the width of the drug is wide.
(11) The contrast-implanting member according to (9), wherein the contrast member has a left-right asymmetric cutout.

Claims (11)

  1. リング状の上部部材と前記上部部材の底面を閉塞する底部部材とからなる注入具本体と、前記上部部材と前記底部部材間に収納され、前記上部部材の開口を閉塞し、かつ、前記注入具本体内に薬液流入空間を形成するシール部材と、前記薬液流入空間と連通する排出ポートとを備える皮下埋め込み型薬液注入具であって、
     前記リング状の上部部材は、前記シール部材の中央部が露出する状態にて前記シール部材を収納する本体部と、前記本体部の上部開口部より内部に突出し、前記シール部材の周縁部を押圧するため環状突出部と、前記上部部材の先端部の両側部に設けられた側部膨出部と、前記排出ポートと向かい合う位置に設けられ、後端側に向かって肉薄となる後端部と、前記後端部と前記側部膨出部間に形成され、ほぼ起立面でありかつ、前記側部膨出部付近にて大きく湾曲する向かい合う2つの把持用起立側面部を備えることを特徴とする皮下埋め込み型薬液注入具。
    An injection tool main body comprising a ring-shaped upper member and a bottom member closing the bottom surface of the upper member; and being accommodated between the upper member and the bottom member, closing an opening of the upper member; and the injection tool A subcutaneously implantable drug solution injector comprising a seal member that forms a drug solution inflow space in the body and a discharge port that communicates with the drug solution inflow space,
    The ring-shaped upper member protrudes inward from a main body portion that houses the seal member in a state where the central portion of the seal member is exposed, and presses a peripheral edge portion of the seal member An annular protrusion, side bulges provided on both sides of the tip of the upper member, and a rear end provided at a position facing the discharge port and becoming thinner toward the rear end. And two standing rising side portions for gripping that are formed between the rear end portion and the side bulging portion and are substantially standing surfaces and are largely curved in the vicinity of the side bulging portion. Subcutaneous implantable drug injector.
  2. 前記リング状の上部部材は、前記起立側面部と前記上部部材の上端間に形成されたほぼ円筒状もしくは若干上端方向に向かって縮径する筒状部を備えている請求項1に記載の皮下埋め込み型薬液注入具。 2. The subcutaneous part according to claim 1, wherein the ring-shaped upper member includes a substantially cylindrical shape or a cylindrical portion that is formed between the standing side surface portion and the upper end of the upper member and that is slightly reduced in diameter toward the upper end. Implantable chemical solution injector.
  3. 前記向かい合う2つの把持用起立側面部間に、前記シール部材の中心が位置している請求項1または2に記載の皮下埋め込み型薬液注入具。 The subcutaneously implantable drug solution injector according to claim 1 or 2, wherein a center of the seal member is located between the two standing side surfaces for gripping.
  4. 前記向かい合う2つの把持用起立側面部の前記大きく湾曲する部分付近間に、前記シール部材の中央部が位置している請求項1ないし3のいずれかに記載の皮下埋め込み型薬液注入具。 The subcutaneously implantable drug solution injector according to any one of claims 1 to 3, wherein a central portion of the seal member is located between the two curved rising side portions facing each other in the vicinity of the largely curved portion.
  5. 前記把持用起立側面部の高さは、前記環状突出部の中央部側部付近が最も高いものとなっている請求項1ないし4のいずれかに記載の皮下埋め込み型薬液注入具。 The subcutaneously implantable drug solution injector according to any one of claims 1 to 4, wherein the height of the holding side surface portion for gripping is highest in the vicinity of the central side portion of the annular protrusion.
  6. 前記側部膨出部は、前記側部膨出部の端部に向かって肉薄となるとともに、上面から下面まで貫通する貫通孔と、前記貫通孔内に埋め込まれた弾性部材とを備えている請求項1ないし5のいずれかに記載の皮下埋め込み型薬液注入具。 The side bulge portion is provided with a through-hole penetrating from the upper surface to the lower surface and an elastic member embedded in the through-hole while being thinner toward an end portion of the side bulge portion. The subcutaneously implantable drug solution injector according to any one of claims 1 to 5.
  7. 前記底部部材は、底板部と、前記底板部より、突出する環状壁部とを備え、前記シール部材は、本体部と、前記本体部の周縁部に形成され、前記上部部材の前記環状突出部の下面と前記底部部材の環状壁部の上面により押圧されるためのフランジ部とを備える請求項1ないし6のいずれかに記載の皮下埋め込み型薬液注入具。 The bottom member includes a bottom plate portion and an annular wall portion protruding from the bottom plate portion, and the seal member is formed on a main body portion and a peripheral edge portion of the main body portion, and the annular protrusion portion of the upper member. The subcutaneously implantable drug solution injector according to any one of claims 1 to 6, further comprising: a lower surface of the bottom member and a flange portion to be pressed by the upper surface of the annular wall portion of the bottom member.
  8. 前記底部部材は、前記環状壁部の上面の外縁側部分により形成されたシール部材周縁部押圧部と、前記環状壁部の上面の内縁側部分に形成され、上方に突出し、内径が上方に向かって拡径する環状傾斜面を有し、かつ前記シール部材内に刺入可能な環状エッジ部とを備える請求項7に記載の皮下埋め込み型薬液注入具。 The bottom member is formed on a seal member peripheral edge pressing portion formed by an outer edge side portion of the upper surface of the annular wall portion and an inner edge side portion of the upper surface of the annular wall portion, and protrudes upward, and the inner diameter faces upward. The subcutaneously implantable drug solution injector according to claim 7, further comprising an annular edge portion that has an annular inclined surface that expands in diameter and can be inserted into the seal member.
  9. 前記上部部材は、前記環状突出部の下面の内縁側部分に形成され、下方に突出し、内径が下方に向かって拡径する環状傾斜面を有し、かつ前記シール部材に刺入可能な環状エッジ部と、前記環状エッジ部の外側に形成されたシール部材周縁部押圧部とを有している請求項1ないし8のいずれかに記載の皮下埋め込み型薬液注入具。 The upper member is formed on an inner edge side portion of the lower surface of the annular protrusion, has an annular inclined surface that protrudes downward, and whose inner diameter expands downward, and can be inserted into the seal member The subcutaneously implantable drug solution injector according to claim 1, further comprising a sealing member peripheral portion pressing portion formed outside the annular edge portion.
  10. 前記皮下埋め込み型薬液注入具は、前記注入具本体内に配置された造影性部材を備え、前記造影性部材は、欠損部を有するリング状部材であり、かつ、後部側の中央部の幅が広いものとなっている請求項1ないし9のいずれかに記載の皮下埋め込み型薬液注入具。 The subcutaneous implantable drug solution injector includes a contrast member disposed in the injector body, and the contrast member is a ring-shaped member having a defect, and the width of the central portion on the rear side is The subcutaneously implantable drug solution injector according to any one of claims 1 to 9, which is wide.
  11. 前記造影性部材は、左右非対称の切り抜き部を備えている請求項9に記載の皮下埋め込み型薬液注入具。 The subcutaneously implantable drug solution injector according to claim 9, wherein the contrast member has a left-right asymmetric cutout.
PCT/JP2012/082948 2011-12-21 2012-12-19 Subcutaneously implanted device for injecting drug solution WO2013094643A1 (en)

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