Needleless injection device equipped with an improved injection nozzle

Abstract

A needleless injection device includes a body forming a receptacle extending axially from an upper radial seat along an injection axis, a gas generator, a tubular reservoir containing an active ingredient and extending axially in the receptacle from an upper end to a lower end, and a nozzle for injecting the active ingredient. The nozzle is arranged at the lower end of the reservoir and has an outer thread to be screwed onto a complementary thread formed by the body. The external thread of the nozzle has an overall triangular cross-section and is delimited by an upper face, which has a first angle with respect to a radial axis perpendicular to the injection axis, and a lower face, which has a second angle with respect to the radial axis. The first angle is greater than the second angle.

Claims

1. A needleless injection device comprising: a body forming a housing extending axially in a direction of injection from an upper radial seat of the housing along an injection axis; a gas generator; a tubular reservoir containing an active ingredient and a lower piston disposed below the active ingredient, the tubular reservoir extending axially in said housing from an upper end of the tubular reservoir to a lower end of the tubular reservoir; an upper piston having an upper axial surface; and a nozzle for injecting the active ingredient which is arranged at the lower end of the tubular reservoir and which extends axially in the direction of injection from the lower end of the tubular reservoir, the nozzle including an external thread adapted to be screwed onto a complementary tapping formed by the body such that the nozzle is configured to axially compress the reservoir on the upper radial seat of the housing and a central housing adapted to receive the lower piston, the external thread extending axially in the direction of injection from the lower end of the tubular reservoir to a position beyond the lower end the tubular reservoir and extending around the central housing, wherein the external thread of the nozzle includes a triangular section, said external thread being delimited by an upper face having a first angle relative to a radial axis perpendicular to the injection axis and a lower face having a second angle relative to said radial axis, wherein the first angle is greater than the second angle, and wherein an elastically deformable membrane extends axially in the reservoir and is configured to expel the active ingredient from the reservoir, the elastically deformable membrane has an accordion shape and a lower surface that abuts against the upper axial surface of the upper piston, the elastically deformable membrane further comprises an annular disc interposed axially between the upper end of the reservoir and the upper radial seat of the housing.

2. The needleless injection device according to claim 1, wherein the thread is sawtooth shaped and the second angle formed by the lower face of the nozzle is non-zero such that said lower face forms a flank face.

3. The needleless injection device according to claim 1, wherein the first angle is about 35 degrees.

4. The needleless injection device according to claim 1, wherein the second angle is about 10 degrees.

5. The needleless injection device according to claim 1, wherein the lower face of the thread of the nozzle bears on a complementary upper face of the tapping formed by the body and is arranged to distribute axial thrust forces from the lower piston to the complementary upper face of the tapping during injection.

6. The needleless injection device according to claim 1, wherein a curved portion that connects two adjacent triangles formed by the thread has a radius of curvature of about 0.11 millimeter.

7. The needleless injection device according to claim 1, wherein a pitch of the thread is about one millimeter.

8. The needleless injection device according to claim 1, wherein the nozzle is made by injection molding.

9. The needleless injection device according to claim 1, wherein the body is made by injection molding.

10. The needleless injection device according to claim 1, wherein the active ingredient contained in the tubular reservoir is selected from the group consisting of Methotrexate, Adrenaline, Sumatriptan, Hydrocortisone, Naloxone, Midazolam, Apomorphine, Ethylnatrexone bromide, Phytomenadione, Chlorpromazine hydrochloride, Zuclopenthixol acetate, Danaparoid sodium, Enoxaparin sodium, Estradiol cypionate, Medoxyprogesterone acetate, Medroparin calcium, Methylprednisolone acetate, Heparin calcium, and Terbulin.

Description

DRAWINGS

(1) In order that the disclosure may be well understood, there will now be described various forms thereof, given by way of example, reference being made to the accompanying drawings, in which:

(2) FIG. 1 is an exploded perspective view which illustrates an injection device according to the present disclosure;

(3) FIG. 2 is an axial cross-sectional view which illustrates the device of FIG. 1 in a rest position;

(4) FIG. 3 is a detailed axial cross-sectional view which illustrates the coupling of the injection nozzle on the body of the injection device of FIG. 1; and

(5) FIG. 4 is a detailed axial cross-sectional view of a pullout which illustrates the thread of the nozzle of FIG. 3.

(6) The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way.

DETAILED DESCRIPTION

(7) The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, corresponding reference numerals indicate like or corresponding parts and features.

(8) In the present disclosure, in order to clarify the description and claims, the longitudinal, vertical and transverse terminology will be adopted in a non-limiting way with reference to the trihedron L, V, T indicated in the Figures.

(9) Furthermore, in the present application, the terms upper, lower, horizontal, vertical, and their derivatives refer to the position or the orientation of an element or a component, this position or this orientation being considered with reference to the orientation of the device in the Figures and to the trihedron L, V, T, without reference to earth's gravity.

(10) Similarly, the terms axial and radial should be understood with reference to the injection axis B of the injection device.

(11) FIG. 1 shows a needleless injection device, or needleless syringe, which includes a U-shaped body 12 successively comprising a percussion device 14, a gas generator 16 comprising a primer 18 and a pyrotechnic charge 20, an expansion chamber 22, a reservoir 24 containing the liquid active ingredient 26 and an injection nozzle 28.

(12) The percussion device 14 and the gas generator 16 constitute a first linear subassembly of the body 12 which extends axially along a vertical sliding axis A, and the reservoir 24 containing the active ingredient 26 and the injection nozzle 28 form a second linear subassembly of the body 12 which extends axially along a second vertical injection axis B.

(13) These two subassemblies are connected to each other by the expansion chamber 22 which has an axis perpendicular to the axes A, B of the subassemblies.

(14) The reservoir 24 is constituted by a glass tube 30 sealed by an upper piston 32 and a lower piston 34 between which the liquid active ingredient 26 is contained, the pistons being made of an elastically deformable elastomer-based material.

(15) The reservoir 24 extends axially from a lower flange 36 which has an annular lower face 38 arranged facing the injection nozzle 28, to an upper flange 40 having an annular upper face 42.

(16) As seen in FIG. 2, the reservoir 24 is arranged in a housing 44 formed by the body 12, housing 44 which is delimited radially by a tubular wall 46 which extends about the injection axis B.

(17) The housing 44 extends axially from an upper radial seat 48 which is formed by the body 12 and which delimits an outlet orifice 49 of the expansion chamber 22.

(18) According to one form, the body 12 is made by plastic injection molding.

(19) Also, according to FIG. 2, the device 10 is equipped with a generally T-shaped elastically deformable membrane 50, which comprises a radial annular disc 52 which is interposed axially between the upper flange 40 of the reservoir 24 and the seat 48 formed by the body 12, and a tubular portion 54 which extends axially in the reservoir 24, from the annular disk 52.

(20) The tubular portion 54 of the membrane 50 is designed to extend axially, under the effect of the pressure of the gas generated by the gas generator 16, to push the upper piston 32 downwards in order to eject the active ingredient 26 through the injection nozzle 28.

(21) To this end, the membrane 50 is made of an elastomer-based material. More particularly, the membrane 50 is made of EPDM, that is to say of ethylene-propylene-diene monomer.

(22) With reference to FIG. 1, the body 12 is wrapped by a hollow cover 56 which delimits a lower opening closed by a horizontal soleplate 58 forming a bottom of the cover.

(23) The soleplate 58 delimits a circular passage 60 about the injection axis B which is adapted for the passage of the injection nozzle 28 and the lower end of the body 12, such that the nozzle 28 includes a lower segment protruding vertically downwards out of the cover 56.

(24) Also, the injection device 10 is equipped with a plug 62 which is removably mounted on the body 12 by a bayonet-type locking device.

(25) The nozzle 28 is screwed onto a free end emerging from the housing 44 formed by the body 12, the nozzle 28 compressing axially the assembly formed by the reservoir 24 and the membrane 50 on the seat 48 of the housing 44.

(26) Also, the injection nozzle 28, illustrated in detail in FIG. 3, has a generally cylindrical shape which extends axially along the injection axis B from an upper face axially bearing on the lower face 38 of the reservoir 24, to a lower injection face adapted to cooperate with a closure cap 68.

(27) The cylindrical peripheral face 70 of the nozzle 28 has a thread 72 designed to screw the nozzle 28 on the free end of the body 12, the body 12 being equipped with a complementary tapping 74 provided for this purpose.

(28) Furthermore, the nozzle 28 delimits three axial injection channels (not shown) which extend parallel to the injection axis B, each channel opening into the upper face 64 and into the lower face 66 of the nozzle 28.

(29) The nozzle 28 delimits a central housing 76 which is adapted to receive the lower piston 34 following the triggering of the injection.

(30) More particularly, the free upper end of each channel forms a flaring which communicates with the housing 76, so as to allow the active ingredient 26 to enter each channel, from the housing, when the lower piston 34 has fallen into the housing 76.

(31) Indeed, when the gas generator 16 is triggered, the pressurized gas pushes the liquid column formed by the upper piston 32, the active ingredient 26 and the lower piston 34, the lower piston 34 falling into the housing 76 of the nozzle 28 provided to this end in order to allow the active ingredient 26 to flow through the channels.

(32) In accordance with the present disclosure, with reference to FIG. 4, the thread 72 of the nozzle 28 has a generally triangular section, the thread 72 being delimited by an upper face 78 which has a first angle A1 relative to a transverse radial axis C perpendicular to the injection axis B, and a lower face 80 which has a second angle A2 relative to the radial axis C.

(33) As seen in FIG. 4, the first angle A1 is greater than the second angle A2.

(34) The thread 72 of the nozzle 28 is of the sawtooth type, that is to say the second angle A2 formed by the lower face 80 of the nozzle 28 is non-zero such that the lower face 80 forms a flank face.

(35) Indeed, the injection nozzle 28 is made by plastic injection molding and the lower face 80 forms a flank face allowing the demolding of the nozzle 28 from its manufacturing mold.

(36) More particularly, the first angle A1 is of about 35 degrees and the second angle A2 is of about 10 degrees.

(37) Thus, the angle delimited between the upper face 78 and the lower face 80 of the thread 72 is of about 45 degrees.

(38) According to FIG. 3, the lower face 80 of the thread 72 of the nozzle 28 bears on a complementary upper face 82 of the associated tapping 74 formed by the body 12, to resume the axial thrust forces transmitted by the nozzle 28 during the injection.

(39) According to one form, the curved portion R which connects two adjacent triangles formed by the thread 72 has a radius of curvature of about 0.11 millimeter. The term curved portion R means the recessed portion which connects the lower face 80 of a first triangle and the upper face 78 of a second triangle adjacent to the thread 72 of the nozzle 28.

(40) Also, the pitch of the thread 72 is of about one millimeter.

(41) The injection device 10 according to the present disclosure has several advantages.

(42) Due to the sawtooth shape of the thread 72, the forces transmitted on the body 12 are close to the vertical, more particularly these forces are perpendicular to the lower face 80 of the thread 72 forming a bearing face, that is to say the forces are close to an angle of 10 degrees relative to a vertical axis.

(43) Conversely, according to the related art, the thread 72 is generally a metric thread, or isometric thread, that is to say a thread in equilateral triangle section which is delimited by an upper face which has a first angle close to thirty degrees, and a lower face which has a second angle also close to thirty degrees.

(44) Thus, the device 10 according to the present disclosure allows less basing the body 12 by radial forces, in order to avoid breaking the body 12.

(45) Furthermore, the device according to the present disclosure allows a large tightening torque of the nozzle 28 on the body 12, which allows axially compressing sufficiently the annular disk 52 of the membrane 50 against the seat 48 formed by the body 12, in order to avoid the leakages at this level.

(46) The description of the disclosure is merely exemplary in nature and, thus, variations that do not depart from the substance of the disclosure are intended to be within the scope of the disclosure. Such variations are not to be regarded as a departure from the spirit and scope of the disclosure.