Source: https://patents.google.com/patent/TWI552782B/en
Timestamp: 2019-11-14 05:15:08
Document Index: 393533192

Matched Legal Cases: ['Application No. 61', 'Application No. 61', 'application No. 61', 'art\n204', 'art\n205', 'art\n206', 'art\n404', 'art\n406', 'art\n516', 'art\n518']

TWI552782B - A system for administering a drug - Google Patents
A system for administering a drug Download PDF
TWI552782B
TWI552782B TW097151577A TW97151577A TWI552782B TW I552782 B TWI552782 B TW I552782B TW 097151577 A TW097151577 A TW 097151577A TW 97151577 A TW97151577 A TW 97151577A TW I552782 B TWI552782 B TW I552782B
TW097151577A
TW200936197A (en
2008-12-31 Application filed by Ucb Pharma Sa filed Critical Ucb Pharma Sa
2009-09-01 Publication of TW200936197A publication Critical patent/TW200936197A/en
2016-10-11 Publication of TWI552782B publication Critical patent/TWI552782B/en
System for administering drugs
The present invention relates to a system for administering a medicament. More particularly, the present invention relates to systems that make it easier for patients to administer medications, particularly for patients with reduced flexibility or joint strength.
Rheumatoid arthritis ("RA") is an autoimmune disease characterized by chronic inflammation of the joints leading to progressive cartilage damage and bone erosion. RA patients experience joint pain, stiffness and swelling. Laterer RA causes the joint to lose its shape, alignment and movement. For many years, RA has been treated with a variety of drugs such as cholesterol and disease modifying antirheumatic drug (DMARD). Some of these drugs are administered via injection or infusion. However, it is difficult for RA patients with joint strength and structural damage to operate a syringe that can be used to perform self-injection, especially for viscous biological agents and other drugs. Currently, a conventional hypodermic syringe is used to inject some drugs. Such conventional syringes are typically small, which makes holding or operating the syringe more difficult. These syringes also do not provide a grip and grip structure that is satisfactory to RA patients.
In addition, typical syringes are difficult for some patients to cover and re-cap the. For example, most needles are attached with a tip cover that covers the needle prior to use, but the cover requires the RA patient to apply force around the tip cover with its fingers to operate the cover. Because these needle tip caps have small openings, When an attempt is made to cover a needle after use, it often inadvertently punctures itself.
A more efficient injector system is needed to address these and other problems caused by currently available injector systems. An injector system that allows patients to more easily administer adhesive drugs, but still provides increased safety and increased control. It is also required to provide a more ergonomic gripping system for RA patients.
This application claims US Provisional Application No. 61/010,779, filed on Jan. 11, 2008, US Provisional Application No. 61/135,262, filed on July 18, 2008, and US Provisional Application, filed on September 18, 2008 Priority of application No. 61/192,551. The disclosure of each of the above applications is hereby incorporated by reference in its entirety.
The injector systems disclosed herein address various shortcomings of the prior art by providing improved injector systems in various embodiments that make it easier for patients to administer medications, particularly for patients with reduced flexibility or joint strength. In a representative embodiment, a syringe system is provided with a handle having a first flange and a second flange forming a handle. The handle also includes a first arc forming a bottom surface of the first flange contoured to a radius formed by a user's fingers, and forming a contour corresponding to a radius of the arc formed by the user's finger a bottom surface of the second flange and having a second arc shape that is flatter than the first arc. In some embodiments, the second flange has a length that is 1.5 times the first flange. The syringe system also includes a syringe barrel having an outer barrel and an inner barrel. The inner barrel includes a dose marker and a needle mounted at the distal end and the outer barrel has a shape that accommodates the inner barrel and has an elliptical cross-section that magnifies the dose markers on the inner barrel.
The syringe system includes a pointed cover for receiving the needle slidably engageable with the distal end of the syringe barrel, having an outer cover, an inner cover, and a connector. The connecting member has a shape that fits in the outer cover and engages the outer cover and engages the inner cover and includes a plurality of first pins symmetrically spaced apart from each other, each first pin having a plurality of pointing connectors The inwardly barbed end of the distal region and is adapted to engage the proximal region of the inner cap. The plurality of inward barbs are disposed at an angle relative to the plurality of first pins. The connector also includes a plurality of symmetrically spaced second pins, each of the second pins having a plurality of outward barbs located in the distal end region of the connector and adapted to engage the distal region of the outer cover. In some embodiments, the plurality of first pins are initially offset from the horizontal by about 80 degrees.
According to a specific example, the outer cylinder includes a first recess and a second recess shaped to receive the pointed cover. In some embodiments, the outer cover includes a first protrusion and a second protrusion formed on an inner surface of a shoulder, the shoulder being formed on the outer cover to respectively correspond to the first recess of the outer tube and the The second recesses cooperate with each other. In some embodiments, the outer cover includes a grip ring that can be shaped to receive the thumb of the user or other preferred finger to engage the shape of the loop. In some embodiments, the grip ring has a shape that accommodates a hook.
According to a specific example, the outer barrel includes a distal aperture that allows the inner barrel to extend therethrough. The outer cylinder has a major diameter and a minor diameter. In some embodiments, the major axis of the syringe barrel is longer than the minor axis of the syringe barrel. In some embodiments, the ratio between the major axis and the minor axis is 1.5:1. In some embodiments, the inner barrel is positioned in the outer barrel such that the dose marker is oriented at one end of the long diameter for amplifying the isodose mark.
According to a specific example, an injector system includes a handle having a first flange and a second flange forming a handle. The handle also includes a first arc forming a bottom surface of the first flange contoured to a radius formed by a user's fingers, and forming a contour corresponding to a radius of the arc formed by the user's finger a bottom surface of the second flange and having a second arc shape that is flatter than the first arc. The syringe system also includes a pointed cap for covering the needle slidably engageable with the distal end of the syringe barrel. In some embodiments, the tip cover includes an outer cover, an inner cover, and a connector having a shape that fits into the outer cover and engages the outer cover and engages the inner cover, and includes a plurality of Symmetrically spaced apart first pins, each first pin having a plurality of inward barbs directed toward a distal end region of the connector and adapted to engage a proximal end region of the inner cover, wherein the plurality of inward portions The barbs are disposed at an angle relative to the plurality of first pins. The connector also includes a plurality of symmetrically spaced second pins, each of the second pins having a plurality of outward barbs located in the distal end region of the connector and adapted to engage a distal end region of the outer cover.
According to a specific example, the injector system includes a handle having a first flange and a second flange forming a handle. The handle also includes a first arc forming a bottom surface of the first flange contoured to a radius formed by a user's fingers, and forming a contour corresponding to a radius of the arc formed by the user's finger a bottom surface of the second flange and having a second arc shape that is flatter than the first arc. The syringe system also includes a syringe barrel having an outer barrel and an inner barrel extending distally from the handle, the inner barrel having a dose marking and a needle mounted at the distal end, and the outer barrel is shaped to receive the The inner barrel has an elliptical cross-section that magnifies the dose markers on the inner barrel. In some embodiments, the handle of the injector system includes a top cover and a handle body. The top cover includes a plurality of pegs adapted to mate with a corresponding set of recesses formed in the handle body. In some embodiments, the cap includes a bore for receiving a syringe plunger and the handle body includes a bore for receiving a syringe plunger. In some embodiments, the handle body includes a syringe positioning pocket having a flat edge and the inner barrel includes a flange having a flat edge adapted to align with a corresponding flat edge formed on the handle body. In some embodiments, the flange is aligned with the syringe positioning pocket to direct the dose marker to one end of the long axis of the syringe barrel.
According to one embodiment, an injector system includes a syringe barrel having an outer barrel and an inner barrel, the inner barrel having a dose marking and a needle mounted at the distal end. The outer barrel is shaped to receive the inner barrel and has an elliptical cross section that magnifies the dose markers on the inner barrel. The syringe system also includes a tip cover for slidably engaging the distal end of the syringe barrel for covering the needle, the outer cover, an inner cover and an outer cover and a snap fit The outer cover and the connector of the shape of the inner cover are engaged. The connector has a plurality of first pins that are symmetrically spaced apart from each other, and each of the first pins has a plurality of inward barbs that point toward a distal end region of the connector. The plurality of inward barbs are disposed at an angle relative to the plurality of first pins and are thus adapted to engage a proximal end region of the inner cover. The connector also includes a plurality of symmetrically spaced second pins, wherein each of the second pins has a plurality of outward barbs located in the distal end region of the connector and adapted to engage one of the distal ends of the cover Area.
According to a specific example, the syringe barrel includes an outer barrel and an inner barrel. The inner barrel includes a dose marker and a needle mounted at a distal end, and the outer barrel is shaped to receive the inner barrel and has an elliptical cross-section that magnifies the dose markers on the inner barrel.
According to a specific example, a pointed cover for covering the needle slidably engageable with a distal end of the syringe barrel includes an outer cover, an inner cover, and a fitting engaged in the outer cover and engaging the outer cover A connector that snaps into the shape of the inner cover. The connector has a plurality of first pins that are symmetrically spaced apart from each other, and each of the first pins has a plurality of inward barbs that point toward a distal end region of the connector. The plurality of inward barbs are disposed at an angle relative to the plurality of first pins and are therefore adapted to engage a proximal end region of the inner cover. The connector also includes a plurality of symmetrically spaced second pins, wherein each of the second pins has a plurality of outward barbs located in the distal end region of the connector and adapted to engage a distal end region of the outer cover .
According to a specific example, a drug delivery system is provided that includes a syringe barrel having an outer barrel and an inner barrel. The inner barrel has a dose marking and a needle mounted at a distal end, the outer barrel being shaped to receive the inner barrel and having an elliptical cross-section that magnifies the dose markings on the inner barrel. In some embodiments, the inner barrel is adapted to contain a drug having a viscosity greater than about 65 centipoise. In some embodiments, the viscosity of the drug is between about 65 centipoise to about 120 centipoise. In some embodiments, the viscosity of the drug is between about 75 centipoise to about 100 centipoise.
The drug delivery system also includes a pointed cap for receiving the needle slidably engageable with the distal end of the syringe barrel. The pointed cover has an outer cover, an inner cover and a connecting member having a shape fitted in the outer cover and engaging the outer cover and engaging the inner cover. The connector has a plurality of first pins that are symmetrically spaced apart from one another. Each of the first pins has a plurality of inward barbs directed toward the distal end region of the connector and is adapted to engage a proximal end region of the inner cover. In some embodiments, the plurality of inward barbs can be disposed at an angle relative to the plurality of first pins. The connector also includes a plurality of symmetrically spaced second pins, wherein each of the second pins has a plurality of outward barbs located in the distal end region of the connector and adapted to engage one of the distal ends of the cover Area.
According to one embodiment, a syringe system having a handle having a first flange and a second flange forming a handle and a bottom surface of the first flange contoured to a radius formed by a user's fingers is disclosed a first arc shape and a second arc shape forming a bottom surface of the second flange corresponding to a radius of an arc formed by the user's finger and having a shape flatter than the first arc shape. The syringe system also includes a syringe barrel having an outer barrel and an inner barrel, the inner barrel having a dose marking and a needle mounted at the distal end, the outer barrel being shaped to receive the inner barrel and having an enlarged magnification on the inner barrel An elliptical cross section of the dose mark. The outer barrel includes a proximal end and a distal end and a recess formed at the distal end. The syringe also includes a pointed cover for covering the needle, the pointed cover having a shoulder including an inner surface and an outer surface and a card formed on the inner surface and having a fit with the recess formed on the outer cylinder A matching protrusion of the shape. In some embodiments, the pointed cover includes an inner cover that is received in the outer cover. In some embodiments, the inner barrel is disposed within the pointed cover when the pointed cover is mated with the outer barrel. In some embodiments, the outer barrel has a distal opening and the inner barrel projects through the distal opening when the syringe assembly is fully assembled.
According to a specific example, the outer cylinder has a first recess and a second recess. The outer cylinder also has a long diameter and a short diameter, and the first recess is formed at the first end of the long diameter and the second recess is formed at the opposite end of the long diameter. The mating projection of the pointed cover includes a top surface and a side surface that is positioned perpendicular to the longitudinal axis of the handle. In some embodiments, the mating protrusions have a triangular cross-sectional area. The syringe also includes a tip cover including an inner cover, an outer cover, and a connector having a shape that fits into the outer cover and engages the outer cover and engages the inner cover. The tip cover has a plurality of symmetrically spaced first pins, each of the first pins having a plurality of inward barbs directed toward the distal end region of the connector and each pin adapted to engage a proximal end of the inner cover Area. The plurality of inward barbs are disposed at an angle relative to the plurality of first pins. The connector also includes a plurality of symmetrically spaced second pins, each of the second pins having a plurality of outward barbs located in the distal end region of the connector and adapted to engage a distal end region of the outer cover.
In some embodiments, the tip cover includes a stem portion that extends distally from a shoulder having a cylindrical shape. The inner cover and the connecting member are received in the rod portion.
These and other features and advantages of the present invention are described in more detail below by way of illustrative specific examples.
In order to provide a full understanding of the present invention, certain illustrative specific examples will now be described, including those suitable for treating with RA or other such as Multiple Sclerosis, Lupus, and Spondylitis. An illustrative specific example of a system for injecting a liquid drug in a patient with a body immune disease. However, it is to be understood by those skilled in the art that the systems described herein may be modified and modified in other suitable applications and that such other additions and modifications may be made without departing from the scope of the invention.
Turning to an illustrative embodiment, FIGS. 1A-1D show front, side, top and exploded views of an illustrative embodiment of an injector system 100 for holding a syringe and needle assembly 101, wherein the syringe and needle assembly It is fitted into the injector system 100. The injector system 100 includes a handle assembly 107 for the RA patient to comfortably grip one of the syringe systems 100, a piston 110 for injecting the medicament contained in the syringe system 100, and for housing the syringe system 100. The needle assembly 101 is a tip cover 112 projecting from the distal end 107b of the needle assembly. The piston 110 and the tip cover 112 are slidably engaged with the respective proximal ends 107a and 107b of the handle assembly 107.
Figure 1E shows an alternative embodiment of an injector system similar to the systems shown in Figures 1A-1D. In particular, the injector system 120, as shown in FIG. 1E, includes, among other features, a handle assembly 122 having a proximal end 122a and a distal end 122b and a tip cover 124. As shown, the handle assembly 122 includes a hook 126 at one end that has a shape that facilitates the user's finger to be parked or tied during use. The tip cover 124 includes a tapering lip 128 that tapers from the inner edge 127 of the tip cover 124 to the outer surface 130 of the tip cover 124. In the specific example, the tip cover 124 includes an oval finger 132. The finger 132 can be circular or other preferred shape or a hook for the user's finger to easily engage the tip cover 124.
2A shows an exploded view of the handle assembly 107 that includes a top cover 203 having a shape that mates with the handle body 201. In the particular example, the handle body 201 is formed from a single polycarbonate, for example using injection molding. The handle body 201 includes a grip portion 204 that is fused, glued, or continuously constructed with the syringe barrel (portion) 106.
When the top cover 203 is engaged with the handle body 201 as shown in FIG. 2A, a handle 102 is formed. The handle 102 has a contour and a proportion of a hand that fits a patient suffering from rheumatoid arthritis, particularly a patient having a condition called "Swan Neck Deformation". The handle 102 is also suitable for providing various grip options for RA patients. The handle 102 is generally larger and includes a contoured gripping surface that has an RA patient that allows the handle 102 to be easily grasped in its hand, as compared to conventional hypodermic syringes. This is helpful for patients with RA because they have "good days" and "bad days" in terms of the amount of pain and the control of their joints. On a bad day, the patient may not be able to hold the syringe in the way it normally does. The handle 102 has a shape that addresses these situations when such patients are unable to control certain portions of their hands. The handle 102 is also provided to improve the engagement between the patient's hand and the syringe system 100. In some embodiments, the top cover 203 and the grip portion 204 have different surface finishes to provide a contrasting configuration to enhance patient grip. In other embodiments, the handle 102 is made of rubber or has a particular structural material to provide contact friction to enhance patient grip.
The top cover 203 includes a top aperture 205 for receiving the piston 110 and a plurality of pegs 206a-206d for positioning the mating top cover 203 and mating with the grip portion 204. 2B shows the bottom surface of the top cover 203 having four pegs 206a-206d having a shape and size that cooperate with corresponding recesses 208a-208d formed on the grip portion 204. 2C shows a side view of the top cover 203. In the particular example, the studs 206 are symmetrically positioned relative to the central axis of the top hole 205. The top cover 203 also includes a pair of mating pegs 207a-207b that cooperate with corresponding recesses 209a-209b formed in the grip portion 204. The outer edge 211 of the top cover 203 is rounded to provide a smooth transition between the top cover 203 and the grip portion 204 of the handle body 201.
2D depicts a top view of the handle body 201 and an internal view of the distal surface of the grip portion 204. As shown, the handle body 201 includes, among other things, a plurality of recesses 208a-208d corresponding to the studs 206a-206d formed on the top cover 203 and a plurality of outer recesses 209a-209b shaped to accommodate formation. Mating studs 207a-207b on the top cover 203. The handle body 201 also includes a bottom aperture 210 for receiving the piston 110. When the studs 206 and 207 of the top cover 203 are respectively engaged with the recesses 208 and 209 of the handle body 201, the bottom hole 210 is aligned with the top hole 205 positioned on the top cover 203 to define a hole for receiving the piston 110. mouth. The handle body 201 also includes a recessed lip 214 having a shape that receives the mating surface 216 of the top cover 203. 2E shows a perspective view of the handle assembly 107 with the top cover 203 removed, showing the recess lip 214 formed along the grip portion 204 of the handle body 201. When the top cover 203 is mated with the handle body 201, having a notched lip 214 prevents the handle 102 from having sharp or protruding edges. Once mated, the top cover 203 and the handle body 201 together form a smooth handle 102. This configuration is beneficial to the patient because the raised surface or sharp edges will make the patient uncomfortable.
The handle body 201 also includes a syringe positioning pocket 212 having a flat edge 212a. As shown in Figures 2D-2E, the syringe positioning pocket 212 includes two flat sides 212a disposed in parallel and longitudinally symmetric about the grip portion 204 of the handle body 201. The syringe positioning pocket 212 helps to orient the conventional syringe with the dose marking in a manner that makes it easier for the patient to read the dose markings on the syringe. A more detailed description of the position between the syringe with the dose marking and the handle body 201 is provided with reference to Figures 5A-5B. Similar to the top cover 203, the outer edge 215 of the grip portion 204 of the handle body 201 is also rounded and smoothed to provide maximum patient comfort.
As previously mentioned, when the top cover 203 is mated with the handle body 201, the handle 102 is formed. FIG. 3A shows the handle 102 having a first flange 102a and a second flange 102b. The first flange 102a includes a first arc 204a formed by the bottom surface of the first flange 102a and contoured to correspond to the radius of the arc formed by the patient's fingers. Similarly, the second flange 102b includes a second arc 204b formed by the bottom surface of the second flange 102b and has a shape corresponding to the shape of the patient's finger. The second arc 204b can be about 1.5 times longer than the first arc 204a. In other embodiments, the second arc 204b has a length that is at least 2 times greater than the first arc 204a.
In some embodiments, the second arc 204b has a curved shape that is flatter than the first arc 204a. This shape allows the patient to place more fingers around the second flange 102b and comfortably hold the syringe 100. For example, Figure 3A shows the patient holding the syringe with the patient's index finger and the middle and ring fingers. As shown, the patient's index finger is separated from the rest of the fingers by the syringe barrel 106. In the particular example, the patient places their index finger against the first arc 204a and places the middle and ring fingers against the second arc 204b. When the patient holds the syringe 100 to administer the medication, the first arc 204a includes a first curved portion 205a that acts as an anchor point. With the above embodiment, when the patient places the index finger against the first curved shape 204a, the index finger naturally surrounds the first curved portion 205a and the middle finger is completely or partially stopped against the second curved portion 205b, as in FIG. 3A. Shown. The patient's index and middle fingers are also placed on the syringe barrel 106.
3A-3B also depict the positioning of the piston 110 relative to the handle 102. As shown in FIG. 3A, the handle 102 has a shape that allows the patient's thumb to rest comfortably on the piston 110. The piston 110, as shown in FIG. 4A, includes a female piston pad 302 at the proximal end of the piston 110 and a piston rod 304 extending from the female piston pad 302 to the distal end of the piston 110. The female piston pad 302 is formed of a plastic having an overmolded rubber. The female piston pad 302 has a shape that accommodates the surface of the patient's thumb or other preferred finger or portion of the patient's hand. Figure 3A shows the bottom of the patient's thumb resting on the concave piston pad 302. In some embodiments, the patient prefers to place their palm on the concave piston pad 302 to operate the piston 110. Figure 3B shows the patient pushing the piston 110 using his palm bottom to eject the contained drug. The shape of the concave piston pad 302 forms a recess for receiving a patient's finger or other portion of the patient's hand during use of the syringe, which helps prevent the patient's finger or hand from slipping off the top surface of the piston pad 302, thereby making self-injection safer.
As shown in Figures 4A-4B, the piston rod 304 having a circular cross-section tapers from the concave piston pad 302 and is structurally stronger than a commercially available piston rod incorporating a structure having an "X" or "T" cross-section. In some embodiments, the piston rod 304 is made of acrylonitrile butadiene styrene (ABS), other copolymers, or other suitable lightweight materials. The piston rod 304 also includes a threaded portion 306 that is positioned at the distal end of the piston rod 304. The threaded portion 306 passes through a plug in the syringe barrel of the drug-containing needle assembly 101. The plug includes a corresponding female thread that receives the threaded portion 306 of the piston rod 304 to provide a locking engagement between the piston 110 and the syringe barrel. 4C shows an enlarged view of the threaded portion 306 of the piston 110.
5A-5B depict a needle assembly 101 that fits into the syringe system 100. In particular, the needle assembly 101 includes an inner barrel 404 that is equipped with a syringe needle 406. As shown in FIG. 5A, the inner barrel 404 of the needle assembly 101 slides within the syringe barrel 106 of the handle assembly 107. As depicted, the syringe barrel 106 includes an aperture 408 having a shape that extends the distal end 404b of the inner barrel 404 therethrough. The extended portion of the inner barrel 404 includes a shoulder portion 405 and a distal tip portion 407. The shoulder portion 405 tapers from the distal end 404b of the inner barrel to the distal tip end portion 407 of the syringe needle 406. In some embodiments, inner barrel 404, shoulder portion 405, and distal tip portion 407 are made of glass and formed as a single piece. The inner barrel 404 also includes a dose marker 410 that represents the volumetric content of the medicament contained in the inner barrel 404. In the particular example, the aperture 408 has a circular cross-sectional area as well as the inner barrel 404. In some embodiments, when the inner barrel 404 is mated in the syringe barrel 106, the two components form a space having an annular cross-section between the outer surface of the inner barrel 404 and the inner surface of the syringe barrel 106.
As more particularly illustrated in Figure 5B, the inner barrel 404 includes a proximal end 404a and a distal end 404b and an inner syringe barrel flange 412 having a flat edge 412a and a curved side 412b formed on the proximal end 404a. In some embodiments, the inner syringe barrel flange 412 controls the orientation of the inner barrel 404 in the syringe barrel 106. This is accomplished by placing the inner barrel 404 in the syringe barrel 106 such that the flat side 412a of the inner syringe barrel flange 412 mates with the corresponding flat side 212a of the syringe positioning pocket 212 on the handle body 201.
6A-6B and 7 depict various views of a handle body 201 having a major axis (or "diameter") 422 and a minor axis (or "diameter") 420 forming an elliptical cross section. The major axis 422 is longer than the minor axis 420. The stub shaft 420 extends parallel to the length of the handle 102 such that the long axis 422 extends parallel to the patient's finger and between the patient's fingers and perpendicular to the longitudinal axis of the handle 102 during application. This alignment provides stability of the syringe in the patient's hand during application, which is believed to be beneficial to arthritic patients. This alignment also provides increased patient control by providing a larger surface area of contact between the patient's finger and the syringe 100. This is done by positioning the syringe 100 in the configuration as shown in FIG. More specifically, the longer side of the syringe barrel (i.e., the long axis 422 extending parallel to the patient's finger) is positioned between the patient's fingers, which results in the syringe 100 being less patient than a standard syringe having a circular cross-sectional area. Rotate in the hand. The oval cross-section of the syringe barrel 106 also allows the syringe barrel 106 to fit more comfortably into the patient's hand for ease of administration. In some embodiments, the major axis 422 is about 14.9 millimeters and the minor axis 420 is about 11.5 millimeters. In some embodiments, the ratio of the length of the major axis 422 to the length of the minor axis 420 is about 1.1:1, about 1.2:1, about 1.3:1, about 1.5:1, or even about 2:1.
As previously stated, one object of the injector system of the present invention is to improve the visibility of the dose marker to the patient. When the inner barrel 404 is placed in the syringe barrel 106 as shown in Figures 6A-6B and 7, the dose marking on the inner barrel 404 is positioned at one end of the long shaft 422. This causes the dose marking placed on the outer surface of the inner barrel 404 to protrude against the narrow end 424 of the syringe barrel 106 (Fig. 7), which magnifies the dose marking to make it easier for the patient to read the dose marking and to more easily determine the remaining The volume of drug in the inner barrel 404.
In addition to the improved handle and piston features described above, an improved syringe cap removal system is also disclosed herein. An illustrative embodiment of one of the tip caps is shown in Figure 8, which depicts a cross-sectional view of the injector system 100 as depicted in Figure 1A. As shown, the syringe system 100 has a tip cover 112 that is attached with a proximal end that engages the distal end of the handle assembly 107. The components forming the tip cover 112 are then described with reference to Figures 9-13F. The inter-engagement relationship between the tip cover 112 and the handle assembly 107 will be described with reference to Figures 16A-16B.
As shown in FIG. 9, the tip cover 112 includes an inner cover 602 that clamps the needle assembly 101, a connector 604, and an outer cover 606. The connector 604 houses the inner cover 602 and the outer cover 606 houses a connector having an inner cover 602 sealed therein. In use, the RA patient can easily remove the needle tip cover 112 and expose the needle by simply pulling the outer cover 606 distally from the handle assembly 107.
FIG. 10A depicts a perspective view of an illustrative embodiment of an inner cover 602. As shown, the inner cap 602 is cylindrical in shape and includes a shoulder 902 at the proximal end. The inner cover 602 can be made of a rubber-like material that allows a portion of the connector 604 to be inserted into the surface defined by the shoulder 902 to permanently engage the inner cover 602 with the connector 604. Figure 10B shows a cross-sectional view of inner cover 602 as depicted in Figure 10A. As depicted, the inner cover 602 includes a needle receiving portion 904 that retains the tip of the needle as shown in FIG. The needle accommodating portion 904 can be made of butadiene rubber. In some embodiments, inner cover 602 is hollow.
11A-C show various views of the connector 604 inserted into the outer cover 606. As shown, the initial flower-shaped connector 604 as illustrated in Figure 13A can be bent to be constrained in the cylindrical stem 610 (Figure 12A) of the outer cover 606. Thus, the plurality of first pins 702a-702d initially placed at about 80 degrees relative to the horizontal are now about 90 degrees relative to the horizontal. Figure 11B shows the inwardly and distally protruding to engage the inwardly located barbs 703 above the inner cap 602, the connection tightening as the outer cap 606 is pulled distally. This connection prevents the inner cover 602 from being removed when the patient pulls the outer cover 606 distally. FIG. 11C depicts a top view of the connector 604 inserted into the outer cover 606. As shown, when the connector 604 is mated in the outer cover 606, the plurality of first pins 702a-702d engage the inner surface 605 of the outer cover 606 and the upper inward barbs 703 are inward and distal. The side protrudes to engage the inner cover 602. Figure 11C also shows that the connector 604 includes a plurality of symmetrically spaced second pins 706a-706b at the distal end of the connector 604. In some embodiments, the plurality of second pins 706a-706b are initially disposed at greater than 90 degrees (eg, between about 91 degrees and about 120 degrees) relative to a level. When the connector 604 is mated in the outer cover 606, the plurality of second pins 706a-706b are in contact with the inner surface 605 of the outer cover 606. In some embodiments, a plurality of second pins 706a-706b are inserted into the inner surface 605 of the outer cover 606 and remain fixed in place during use.
The various components of the tip cover 112 are more specifically described with reference to Figures 12A-13F. As shown in FIG. 12A, the outer cover 606 includes a shoulder 608 and a stem 610 including a hollow interior having a shape for receiving the connector 604, and a grip ring 612 having a shape for receiving a patient's finger. The shoulder 608 includes an inner surface 622 and an outer surface 624 and flares outwardly and away from the stem 610, forming an aperture 618 (eg, wider than the stem 610) into which the patient can reinsert the needle after injection. As shown, the aperture 618 is wider than the distal end of the syringe barrel 106. In some embodiments, the aperture 618 encases the distal end of the syringe barrel 106 and the needle assembly 101 (Fig. 5A). The inter-engagement relationship between outer cover 606 and syringe barrel 106 is described with reference to Figures 16A-16B. The wider opening helps to reduce the likelihood that the patient will inadvertently poke himself when attempting to replace the needle cover after injection. The stem portion 610 extends distally from the shoulder 608, which may have a cylindrical shape. Figure 12B shows a cross-sectional side view of the outer cover 606. As depicted, the aperture 618 flares outwardly from the stem 610 to the proximal end 620 of the outer cover 606. Figure 12C shows a top view of the outer cover 606. As shown, the outer cover 606 is symmetrical about its central axis.
The grip ring 612 also has a finger aperture 614 for receiving a patient's thumb or other preferred finger for distally pulling the needle tip cover 112 to expose the needle. In some embodiments, the finger aperture 614 is adapted to receive a hook that some patients use to pull the needle tip cover 112. The outer cover 606 makes it easier for the patient to engage the needle tip cover 112 and disengage it from the syringe barrel 106 as compared to conventional needle cover caps because it does not require the patient to bend their fingers by applying pressure to the side of a narrow needle cover . As mentioned previously, many patients have good and bad days, and on bad days, some patients may experience difficulty in pulling the needle cover away from the syringe prior to self-injection. The grip ring 612 solves this problem by allowing the patient to simply place the thumb or other preferred finger through the finger aperture 614 and pull the needle tip cover 112.
13A-13F show various views of the connector 604. As shown in Figure 13A, the connector 604 includes a plurality of first pins 702a-702d that are symmetrically spaced apart from one another. In some embodiments, the connector 604 is formed from a sheet of stainless steel that is formed by bending the first pins to a tool at an angle relative to the horizontal. This configuration and the resilient nature of the pins help to lock the inner cover 602 to the outer cover 606.
Inner cover 602 and outer cover 606 are also locked together by inwardly projecting barbs 703a-703h protruding from first pins 702a-702d. The upper inward barbs 703a-703h include tips 704a-704p that are directed toward the distal end (i.e., the needle end) of the connector 604. As illustrated in Figures 13C and 13D, the barbs are spaced around the proximal end of the connector 604 near their proximal ends, wherein each of the first pins (e.g., 702a) has two inward barbs (e.g., 703a) - 703b), and each barb contains a pair of barb tips (eg, 704a-704b). In some embodiments, the upper inward barbs 703a-703h are concave as shown in Figures 13A-13D. These barbs have the shape of snapping the inner cover 602 when the inner cover 602 is mated in the connector 604. More specifically, when the barbed tips (e.g., 704a and 704b) engage the inner cover 602, they are opposite to each other due to the barb tips being disposed at the ends of a concave surface (e.g., the upper inward barbs 703) force. In some embodiments, the upper inward barbs 703a-703h are disposed at an angle relative to the body of the first pins 702a-702d. This is more particularly shown in Figure 13D. This configuration enhances the engagement between the inner cover 602 and the connector 604 because the protrusion is added when the user pulls the needle tip 112 distally (i.e., the barb 703 is formed relative to the first pin 702). Angled placement) allows the barb tips 704a-704p to be more securely inserted into the inner cover 602. As depicted in Figure 13D, the longitudinal axis 710 of the upper portion 711 of the first pin 702b is disposed at an angle a relative to the central axis 712 of the upper inward barb 703c. The central shaft 712 can be disposed at an angle of between about 3 degrees and about 30 degrees with respect to the longitudinal axis 710 of the first pin 702b.
As noted above, the connector 604 includes a plurality of symmetrically spaced second pins 706a-706b at the distal end of the connector 604. As shown in Figure 13E, each of the plurality of second pins includes a lower outward barb tip 707a-707d that is directed toward the proximal end of the connector 604. The barbs engage the lower inner portion of the outer cover 606 such that the connector 604 hooks the outer cover 606 in a manner similar to the connection between the upper inward barb tips 704a-704p and the inner cover 602 as described above. When the barbs 707 extend proximally into the outer cover 606, the barbs 707, in combination with the upper inward barb tips 704a-704p, prevent the outer cover 606 from disengaging from the connector 604.
14 and 15A-15B depict an exemplary cooperative relationship between various components of the tip cover 112. More specifically, these figures show that the inner cover 602 is mated with the connector 604 and the connector 604 is mated with the outer cover 606. As shown, the connector 604 fits into the outer cover 606 and engages the inner cover 602, and is substantially permanently attached to the inner cover 602 such that after the engagement, if the patient pulls the outer cover 606 distally, the needle is covered. The entire outer cover 606 and inner cover 602 are removed in a unitary form to expose the needle. In some embodiments, the inner cover 602 is asymmetrical in shape, and at least one pair of pins (eg, 702a and 702c) are in contact with the inner cover 602 such that when the outer cover 606 is pulled, the entire outer cover 606 and inner cover 602 will The overall form is removed. In some embodiments, only one pair, rather than two pairs of pins, are coupled to the inner cover 602.
14 depicts a top view of the inner cover 602 mating with the connector 604 and the assembly fitting the tip cover 112 in the outer cover 606. As shown, only the outermost portions of the plurality of first pins 702a-702d can be seen in the top view because the upper inward barbs 703 have engaged the outer surface of the inner cover 602 and are not visible in plan view.
Figure 15A depicts a perspective view of the tip cover 112 as depicted in Figure 14, with the cover 606 removed for clarity. When the inner cover 602 is inserted into the connector 604 in the direction indicated by the arrow (Fig. 15A), the upper inward barb 703 is adapted to receive the inner cover 602, but the upper inward barb tip 704 is shaped to fit within Cover 602, and prevents inner cover 602 from reversing or connector 604 from inner cover 602 after snapping. As shown, the upper barbs 703a-703h are inserted into the outer surface of the inner cover 602 after engagement.
15B shows the outer barb tips 706a-706b engaging the distal region of the outer cover 606 in a manner similar to the connection between the upper inward barb tips 704a-704p and the inner cap 602. In some embodiments, the lower outer barb tips 707a-707d are inserted into the inner surface of the outer cover 606.
As explained above, the tip cover 112 is designed to enclose the needle of the syringe system 100 and is suitably engaged with the handle assembly 107. This snap is shown in FIG. 16A with aperture 618 (shown in FIG. 12A) of tip cover 112 covering needle assembly 404 that protrudes from syringe barrel 106 and that surrounds the distal end of handle assembly 107. More specifically, the tip cover 112 includes a plurality of mating protrusions 504a-504b formed on the inner surface 622 of the shoulder 608 (Fig. 12A). The mating projections 504a and 504b are engaged with one of the pair of notches 506a-506b positioned on the syringe barrel 106. As explained above, the syringe barrel 106 includes a long diameter and a short diameter. In some embodiments, the recess 506a is formed at one end of the long diameter and the recess 506b is formed at the opposite end of the long diameter. The protrusions 504a and 504b and the notches 506a and 506b are shaped to allow the patient to snap and disengage the shape of the tip cover 112 with minimal resistance to cover the needle. As shown, each of the mating protrusions 504a-504b includes a top surface 510 and a side surface 512. As depicted in Figure 12A, the mating protrusions 504a-504b protrude from the inner surface 622 at about 90 degrees such that the side 512 is positioned perpendicular to the longitudinal axis of the handle. Side portion 512 is also disposed perpendicular to top surface 510. In some embodiments, the mating protrusions 504a-504b have a triangular cross-sectional area with sharp edges that allow the mating protrusions to engage the notches 506a-506b. In some embodiments, the mating protrusions have rounded edges.
As depicted in Figure 16B, the recesses 506a-506b include a proximal end portion 514, a distal end portion 516, and an inner mating surface 518 having a shape that receives the sides 512 of the mating projections 504a-504b. As shown, the distal portion 516 flares outwardly to guide the mating protrusions 504a-504b and enable a smoother snap between the two components. As depicted, the proximal portion 514 is formed in a half circle 520 shape such that the edge of the top surface 510 snaps along the curved inner mating surface 518 of the proximal portion 514. In some embodiments, the notches 506a-506b taper from the proximal portion 514 toward the distal portion 516.
Aligning and mating the projections 504a-504b with the notches 506a-506b also orient the tip cover 112 and the body of the syringe in the same plane, which helps the syringe system be suitable for commercial packaging, such as for sale of biopharmaceuticals or other drugs.
FIG. 17A depicts an alternative embodiment of an inner cap 1300 having a recess 1304 positioned adjacent the proximal end region of the inner cap 1300. As depicted, the recess 1304 extends along the circumference of the inner cover 1300 and is adapted to receive the fittings 1306a-1306b located on the outer cover 1302 as shown in Figure 17B. When assembled, the distal end of the inner cover 1300 is inserted into the stem region 1306 of the outer cover 1302 and the fittings 1306a-1306b fit into the recess 1304 to lock the inner cover 1300 to the outer cover 1302.
18A-18D depict another alternative embodiment of a needle tip cover. As illustrated, the tip cover may not include a thumb loop that allows the patient's fingers to engage the needle cover. The tip cover 1400 as shown in FIG. 18A includes a proximal shoulder 1402 that flares outwardly to receive a needle, allows the patient to grasp and manipulate one of the grip surfaces 404 of the needle tip cover 1400, and provides a patient grasping tip cover 1400 The distal shoulder 1406 of the anchored position. The shape of the proximal shoulder 1402 helps prevent accidental needle puncture. As depicted, the distal shoulder 1404 includes a flat bottom surface that allows the tip cover 1400 to stand vertically on a flat surface, which can be helpful if the patient has difficulty grasping small items that are horizontally placed on a flat surface. 18B-18D depict an alternative shape for the thumb hole of the tip cover.
To inject using the syringe, the patient pulls the thumb hole 614 (Fig. 12A), thereby removing the surrounding needle cover 606, the connector 604, and the inner cap 602 to expose the entire needle for use. The patient is guided to hold the syringe in a manner that is comfortable for the patient and insert the needle into the injection site at about 45 degrees to the skin. The patient then pushes the piston 110 until all drugs or other indications are injected and the needle is withdrawn. When the needle is withdrawn, the patient can reuse the tip cover 112 for the needle to prevent subsequent unintentional injection and discard.
In some embodiments, a syringe system 100 comprising a syringe, an alcohol sponge, and a set of medications is provided. In some embodiments, the injector system 100 is pre-filled with a drug. Specific examples include viscous drugs containing proteins or peptides, particularly antibodies or fragments thereof, including fragments of pegylated antibodies. Such systems are particularly useful for administering PEGylated antibody fragments known as certolizumab pegol. The medicament can be used to treat any disease or condition, including for the treatment of rheumatoid arthritis. In some embodiments, the viscosity of the liquid drug is less than about 120 mPa.s (120 centipoise), preferably less than 100 mPa.s (100 centipoise) at a transfer temperature of 20 °C. In some embodiments, the viscosity of the liquid drug is between about 65 centipoise and about 120 centipoise. In some embodiments, the viscosity of the liquid drug is between about 75 centipoise and about 100 centipoise. In some embodiments, the viscosity of the liquid drug is above about 65 mPa.s, preferably above 85 mPa.s. In some embodiments, the viscosity of the liquid drug is about 80 centipoise. In certain embodiments, the liquid drug is designed for cryopreservation (eg, at 2-8 °C) and for delivery at room temperature (eg, at about 18-30 °C). It is to be understood that the invention has been described by the claims For example, a variety of systems can be implemented in accordance with the teachings of the present invention and still fall within the scope of the present invention. Other aspects, advantages, and improvements are within the scope of the following claims. All references cited herein are hereby incorporated by reference in their entirety in their entirety in their entirety.
100. . . Syringe system
101. . . Needle assembly
102. . . Handle/smooth handle
102a. . . First flange
102b. . . Second flange
106. . . Syringe cartridge (partial) / syringe barrel
107. . . Handle assembly
107a. . . Proximal
107b. . . remote
110. . . piston
112. . . Tip cover
120. . . Syringe system
122. . . Handle assembly
122a. . . Proximal
122b. . . remote
124. . . Tip cover
126. . . Hook
127. . . Inner edge
128. . . Tapered lip
130. . . The outer surface
132. . . Oval ring / ring
201. . . Handle body
203. . . Top cover
204. . . Grab part
204a. . . First arc
204b. . . Second arc
205. . . Top hole
205a. . . First curved part
205b. . . Second curved part
206a-206d. . . Pegs
207a-207b. . . Matching stud
208a-208d. . . Depression
209a-209b. . . Depression
210. . . Bottom hole
211. . . Outer edge
212. . . Syringe positioning pocket
212a. . . Flat side
214. . . Notched lip
215. . . Outer edge
216. . . Mating surface
302. . . Concave piston pad / piston pad
304. . . Piston rod
306. . . Threaded part
404. . . Inner cylinder
404a. . . Proximal
404b. . . remote
405. . . Shoulder part
406. . . Syringe needle
407. . . Distal tip portion
408. . . hole
410. . . Dose mark
412. . . Internal syringe flange
412a. . . Flat side
412b. . . Curved edge
420. . . Short axis
422. . . Long axis
424. . . Narrow end
504a-504b. . . Matching protrusion
506a-506b. . . Notch
510. . . Top surface
512. . . Side/side section
514. . . Proximal part
516. . . Remote part
518. . . Internal mating surface / curved inner mating surface 518
520. . . semicircle
602. . . Inner cover
604. . . Connector
605. . . The inner surface
606. . . s
608. . . Shoulder
610. . . Cylindrical rod/rod
612. . . Grab ring
614. . . Finger hole
618. . . Orifice
620. . . Proximal
622. . . The inner surface
624. . . The outer surface
702a-702d. . . First pin
703. . . Upper inward barb/barb
703a-703h. . . Upper inward barb / upper barb
704a-704p. . . Tip/barb tip/upward inward barb tip
706a-706b. . . Second pin / outward barb tip
707a-707d. . . Lower outer barb tip
710. . . Vertical axis
711. . . Upper
712. . . The central axis
902. . . Shoulder
904. . . Needle housing
1300. . . Inner cover
1302. . . s
1304. . . Groove
1306. . . Rod area
1306a-1306b‧‧‧Accessories
1400‧‧‧needle cap
1402‧‧‧ proximal shoulder
1404‧‧‧ Holding surface
1406‧‧‧ distal shoulder
The following figures depict illustrative specific embodiments of the invention, wherein like reference numerals refer to like elements. The specific examples described herein are not to be considered as limiting.
1A-1D depict various views of an injector system in accordance with an illustrative embodiment of the present invention.
Figure 1E depicts an alternative embodiment of an injector system.
2A depicts an exploded view of the handle assembly of the injector system depicted in FIGS. 1A-1D.
2B-2C depict a bottom view and a side view of an exemplary embodiment of a top cover of the handle assembly as depicted in FIG. 2A.
2D shows a top view of an illustrative embodiment of one of the handle assemblies as depicted in FIG. 2A.
Figure 2E depicts a perspective view of the handle body as depicted in Figure 2A.
3A-3B show a patient holding a handle assembly having a piston in accordance with an illustrative embodiment of the present invention.
4A-4C depict various views of the piston as depicted in Figures 1A-1D.
Figure 5A depicts an inner barrel housed in a handle assembly and a piston partially received in the inner barrel, in accordance with an illustrative embodiment of the present invention.
Figure 5B depicts a perspective view of an illustrative embodiment of an inner barrel of the injector system as depicted in Figure 5A.
Figure 7 depicts a patient holding the handle assembly between the index finger and the middle finger of the patient's left hand.
Figure 8 depicts a cross-sectional view of the injector system as depicted in Figures 1A-1B.
Figure 9 depicts an exploded view of the tip cover as depicted in Figure 8, showing an exemplary mating relationship between an inner cover, a connector and an outer cover.
10A-10B depict perspective and cross-sectional views of one illustrative embodiment of an inner cover as depicted in FIG.
11A-11C depict various views of an illustrative embodiment of a connector as mated to the outer cover as depicted in FIG.
12A-12C depict various views of an illustrative embodiment of an outer cover as depicted in FIG.
Figures 13A-13F depict various views of an illustrative embodiment of one of the connectors for attaching the inner cover to the outer cover as depicted in Figure 8.
Figure 14 depicts a top plan view of an illustrative embodiment of a tip cover having an inner cover, a connector and an outer cover as depicted in Figure 8.
Figure 15A depicts a perspective view of the tip cover removed as shown in Figure 14 to remove the cover.
Figure 15B depicts a cross-sectional view of the connector housed in the outer cover.
Figure 16A depicts an exploded view of a tip cover in cooperation with a handle assembly having a piston, in accordance with an illustrative embodiment of the present invention.
Figure 16B depicts an enlarged view of the distal end region of one of the handle assemblies as shown in Figure 16A.
Figure 17A depicts an alternative embodiment of an inner cover.
Figure 17B depicts an alternate embodiment of a tip cover suitable for mating with the inner cap as depicted in Figure 17A.
18A-18D depict an alternative embodiment of a needle tip cover.
An injector device comprising: a handle having a first flange and a second flange forming a handle; forming a first arc having a contour corresponding to a bottom surface of the first flange formed by a radius of a curved shape of a user's finger Forming a second arc having a contour corresponding to a bottom surface of the second flange formed by a radius of the user's finger and having a shape flat than the first arc; and a syringe barrel having an outer cylinder and an inner cylinder, The inner barrel has a dose marking and a needle mounted at the distal end, the outer cylinder having an elliptical cross-section that accommodates the inner cylinder and has the dose markings magnified on the inner cylinder; and a cover for covering the needle a pointed cover slidably engageable with a distal end of the syringe barrel, comprising: an outer cover; an inner cover; and a shape having a fit in the outer cover and engaging the outer cover and engaging the inner cover And a plurality of connecting members of the first pins symmetrically spaced apart from each other, each of the first pins having a plurality of inward barbs directed to the distal end region of the connecting member and adapted to engage the proximal end of the inner cover a region, wherein the plurality of inward barbs are relative to the plurality of The pin is disposed at an angle, the connector has a plurality of symmetrically spaced second pins, each of the second pins having a plurality of outward barbs located in the distal end region of the connector and adapted for engagement The distal end of the outer cover.
The injector device of claim 1, wherein the outer cylinder includes a first recess and a second recess having a shape for receiving the tip cover.
The syringe device of claim 2, wherein the outer cover comprises a first protrusion and a second protrusion formed on an inner surface of a shoulder portion of the outer cover, wherein the first protrusion and the second protrusion respectively The first recess and the second recess of the outer cylinder cooperate with each other.
The syringe device of claim 1, wherein the outer cover comprises a grip ring.
The syringe device of claim 4, wherein the grip ring has a shape that accommodates the user's finger to engage the ring.
The syringe device of claim 4, wherein the grip ring has a shape that accommodates a hook.
The injector device of claim 1, wherein the plurality of first pins are initially offset from the horizontal by about 80 degrees.
The injector device of claim 1, wherein the outer barrel includes a distal aperture that allows the inner barrel to extend therethrough.
The injector device of claim 1, wherein the second flange has a length that is 1.5 times greater than the first flange.
The injector device of claim 1, wherein the outer cylinder has a major diameter and a minor diameter, wherein a ratio between the major diameter and the minor diameter is 1.5:1.
The injector device of claim 1, wherein the inner barrel is positioned in the outer barrel such that the isometric marker is oriented at one end of the long diameter to magnify the isodose mark.
A syringe comprising: a handle having a first flange and a second flange forming a handle; Forming a first arc of a contour corresponding to a bottom surface of the first flange formed by a radius of an arc formed by a user's finger; forming a second flange having a contour corresponding to a radius of an arc formed by the user's finger a second curved shape having a bottom surface and a shape flat than the first curved shape; and a pointed cover for covering the needle releasably engageable with the distal end of the syringe barrel, comprising: an outer cover; And a connecting member having a first pin which is engaged with the outer cover and engages the outer cover and engages the inner cover and has a plurality of symmetrically spaced first pins, each of the first pins has a plurality of An inward barb pointing to a distal end region of the connector and adapted to engage a proximal region of the inner cap, wherein each of the plurality of inward barbs is at an angle relative to the plurality of first pins Arranging, the connecting member has a plurality of symmetrically spaced second pins, each of the second pins having a plurality of outward barbs located in the distal end region of the connecting member and adapted to engage the outer cover Remote area.
A syringe comprising: a syringe barrel having an outer barrel and an inner barrel, the inner cylinder having a dose marking and a needle mounted at the distal end, the outer cylinder having a shape for receiving the inner cylinder and having an enlarged magnification on the inner cylinder An elliptical cross-section of the dose marking; and a pointed cover for covering the needle slidably engageable with the distal end of the syringe barrel, comprising: an outer cover; An inner cover; and a connecting member having a shape of the outer cover and engaging the outer cover and engaging the inner cover and having a plurality of symmetrically spaced first pins, each of the first pins having a plurality of An inward barb pointing to a distal end region of the connector and adapted to engage a proximal region of the inner cap, wherein each of the plurality of inward barbs is integral with respect to the plurality of first pins An angled arrangement, the connector has a plurality of symmetrically spaced second pins, each of the second pins having a plurality of outward barbs in the distal end region of the connector and adapted to engage the cover Remote area.
A pointed cover for covering a needle slidably engaged with a distal end of a syringe barrel, comprising: an outer cover; an inner cover; and having a fit in the outer cover and engaging the outer cover a connector having a shape of the inner cover and having a plurality of symmetrically spaced first pins, each of the first pins having a plurality of inward barbs directed toward a distal end region of the connector, having an inwardly inverted a hook tip and adapted to engage a proximal end region of the inner cap, wherein each of the plurality of inward barbs is disposed at an angle relative to the plurality of first pins, the connector having a plurality of symmetrically Second spaced apart legs, each of the second legs having a plurality of outward barbs located in the distal end region of the connector, having an outward barb tip and adapted to engage the outer cover End zone.
A drug delivery system comprising: a syringe barrel having an outer barrel and an inner barrel, the inner tube having a dose marking and a needle mounted at the distal end, the outer cylinder having an elliptical cross-section that accommodates the inner cylinder and having the dose markings magnified on the inner cylinder; wherein the inner cylinder is adapted to receive greater than about 65 centipoise ( a viscous drug for covering a centipoise; and a tip cover for slidably engaging the distal end of the syringe barrel, comprising: an outer cover; an inner cover; and having an outer cover And engaging the outer cover and engaging the shape of the inner cover and having a plurality of symmetrically spaced first connecting members, each of the first pins having a plurality of directions directed toward the distal end of the connecting member An inner barb and adapted to engage a proximal end region of the inner cover, wherein each of the plurality of inward barbs is disposed at an angle relative to the plurality of first pins, the connector having a plurality of symmetrically The second pins are spaced apart from each other, and each of the second pins has a plurality of outward barbs located in the distal end region of the connector and adapted to engage the distal end region of the outer cover.
The drug delivery system of claim 15, wherein the drug has a viscosity of between about 65 centipoise and about 120 centipoise.
The drug delivery system of claim 15, wherein the drug has a viscosity of between about 75 centipoise and about 100 centipoise.
TW097151577A 2008-01-11 2008-12-31 A system for administering a drug TWI552782B (en)
TW200936197A TW200936197A (en) 2009-09-01
TWI552782B true TWI552782B (en) 2016-10-11
TW103140206A TWI579011B (en) 2008-01-11 2008-12-31 Systems for administering medication
TW097151577A TWI552782B (en) 2008-01-11 2008-12-31 A system for administering a drug
BR (1) BRPI0821876B1 (en)
PT (1) PT2240222T (en)
KR101702339B1 (en) * 2011-01-24 2017-02-03 애브비 바이오테크놀로지 리미티드 Removal of needle shields from syringes and automatic injection devices
EP2707061B1 (en) 2011-05-12 2016-03-23 West Pharmaceutical Services, Inc. Adapter for a syringe
AU2012279539B2 (en) 2011-07-05 2015-07-30 Shl Medical Ag Needle sheath remover assembly
EP2830678A4 (en) * 2012-03-29 2015-12-02 Biogen Ma Inc Delivery device and components thereof
RU2695560C2 (en) * 2013-08-29 2019-07-24 Санофи Safety device for drug reservoir
CA3020146A1 (en) * 2016-04-08 2017-10-12 Allergan, Inc. Aspiration and injection device
US10300214B2 (en) 2016-07-27 2019-05-28 Shl Medical Ag Cap assembly for a medicament delivery device
TW200626197A (en) * 2004-10-13 2006-08-01 Hyprotek Inc Syringe devices and methods for mixing and administering medication
EP0191508B1 (en) * 1985-02-07 1989-04-12 Duphar International Research B.V Syringe
EP1174158B1 (en) 2000-07-18 2004-10-27 Ventradex Ag Safety syringe
JP2004533282A (en) * 2001-03-15 2004-11-04 エム ディー シー インベストメント ホールディングス インコーポレイテッド Retractable Yuhari medical device for injecting liquid from the pre-filled cartridge
ES2305324T3 (en) 2002-11-06 2008-11-01 Becton, Dickinson And Company Passive safety protection system for injection devices.
US20060178641A1 (en) 2004-12-03 2006-08-10 Reynolds David L Extensible plunger rod for pharmaceutical delivery device
ES2367197T3 (en) 2005-04-06 2011-10-31 Mallinckrodt, Inc. Systems and methods for managing information related to medical fluids and recipients for this.
CN101909679B (en) 2007-11-21 2013-11-13 贝克顿迪金森法国公司 Injection device preventing the return of the piston when the safety systems is deployed
JP5451741B2 (en) 2009-03-04 2014-03-26 パナソニック株式会社 Drug injection device
EP2442856A4 (en) 2009-06-17 2017-09-27 SHL Group AB Medicament container holder arrangement
EP2478337B1 (en) 2009-09-18 2015-08-26 Sanofi-Aventis Deutschland GmbH Arrangement for determining a longitudinal position of a stopper
JP6165628B2 (en) 2010-08-19 2017-07-19 サノフィ−アベンティス・ドイチュラント・ゲゼルシャフト・ミット・ベシュレンクテル・ハフツング Method and system for determining information relating to a drug reservoir using an electronic sensor
JP5922760B2 (en) 2011-04-05 2016-05-24 エス・ホー・エル・グループ・アクチボラゲットＳｈｌ Ｇｒｏｕｐ Ａｂ Drug delivery device having locking mechanism with lever
2008-12-29 BR BRPI0821876-5A patent/BRPI0821876B1/en active IP Right Grant
2008-12-29 CN CN201410612112.2A patent/CN104324438B/en active IP Right Grant
2008-12-29 PT PT88707518T patent/PT2240222T/en unknown
PT2240222T (en) 2018-07-11
BRPI0821876B1 (en) 2019-10-01
JP5030963B2 (en) 2012-09-19 Disposable needle and hub assembly