The present invention relates to an autoinjector that has one or more slip-resistant features. The features are designed to improve the handling properties of the autoinjector and reduce the likelihood that the autoinjector will slip out of a user's or caregiver's hand during use.
Autoinjectors have become quite popular and have experienced widespread use due to a variety of advantages autoinjectors have over typical manual syringe injectors. A number of autoinjectors are currently commercially available, including EpiPen® (King Pharmaceuticals Inc.), Anapen® (Lincoln Medical Ltd.), Rebiject® II (EMD Serono and Pfizer Inc.), and SureClick™ (Amgen). Generally speaking, an autoinjector is an automatic injection system that is designed to deliver a specific dosage of a medicament into an individual.
Among other things, autoinjectors generally comprise a housing having an exterior surface and an interior surface and a proximal and distal end, a medicament situated within the housing, a needle, and an activateable power assembly. After activation of the power assembly, the needle moves from a storage position in which the needle is situated within the housing to a medicament delivering position in which the needle extends out of the proximal end of the housing and delivers the medicament to a patient.
Often, a label containing, for example, instructions on how to use the autoinjector as well as a UPC code is attached to, and covers, a portion of the exterior surface of the autoinjector housing. Such labels, however, often have a slippery surface, which may decrease the handling properties of the autoinjector and increase the potential for the autoinjector to slip out of a user's or caregiver's hand.
In one aspect, the present invention provides an autoinjector that has one or more slip-resistant features. For example, in certain embodiments, the exterior surface of the autoinjector housing forms at least one of indentures and protrusions that impart a slip-resistant texture to the housing of the autoinjector.
In other embodiments, the one or more slip-resistant features are included on a label, which comprises a label substrate and is attached to the exterior surface of the housing of the autoinjector. For example, in one embodiment, the label comprises a label substrate and a varnish, wherein the varnish coats at least a portion of the label substrate. In yet another embodiment, the label comprises a label substrate having at least one of indentures and protrusions. In yet a further embodiment, the label comprises a label substrate and a film, wherein the film coats at least a portion of the label substrate and provides a matte finish to at least a portion of the label.
One or more of the slip-resistant features disclosed herein may be combined and the one or more slip-resistant features can be employed in any suitable autoinjector device. In addition to autoinjectors, the slip-resistant features can be employed in autoinjector training devices.
Referring now to the drawings,
Referring further to
An autoinjector 10 also generally includes a needle 22, which has a proximal end 24 and a distal end 26 and is moveable from a needle storage position in which the needle 22 is situated within the housing 12 to a medicament delivering position in which the needle 22 extends out of the proximal end 18 of the housing 12. An autoinjector 10 also typically includes a power assembly 28 for moving the needle 22 from the needle storage position to the medicament delivering position and a liquid medicament 30 that is administered through the needle 22 as the needle 22 moves from the needle storage position to the needle fully extended position.
As described in the Background Section above, the exterior surface of an autoinjector may be difficult to handle, especially in times of stress. Accordingly, the present invention provides an autoinjector that comprises one or more slip-resistant features.
For example, in one embodiment, a label comprising a varnish is provided to prepare an autoinjector that includes one or more slip-resistant features.
As illustrated in
In certain embodiments, the varnish 36 forms a pattern on at least a portion of the label substrate 34. For example, as shown in
The varnish 36 can be any suitable material. For example, the varnish 36 can be a solvent- or epoxy-based varnish or the varnish can be a varnish that has been cured by ultraviolet light. Preferably, the varnish 36 has been cured by ultraviolet light. It is further preferred that the varnish 36 imparts a slip-resistant texture to at least a portion of the label 32. In certain embodiments, a gloss varnish is employed so as to facilitate reading of any words and/or pictures on the label while also providing a slip-resistant texture to at least a portion of the label.
In another embodiment, one or more indentures or protrusions are employed to create a slip-resistant label. More particularly, as illustrated in
In another embodiment, as illustrated in
In yet another embodiment, instead of, or in addition to, including a slip-resistant label, the housing of the autoinjector can be molded with a slip-resistant surface or features and then the surface can be over printed with words and/or pictures using various printing processes, including, for example, ink jet printing, pad printing, laser printing, or in mold decorating. For example, as shown in
It will be appreciated that one or more of the slip-resistant features described above may be combined. For example, as illustrated in
Additionally, the autoinjector 10 can include both a slip-resistant label 32 as well as a slip-resistant housing 12. For example, the autoinjector 10 can include a slip-resistant label 32 comprising a label substrate 34 and a varnish 36 coating at least a portion of the label substrate 34, and the exterior surface 16 of the housing 12 of the autoinjector 10 can form one or more indentations 48 or protrusions 50 to impart a slip-resistant texture. In such an embodiment where the autoinjector 10 includes both a slip-resistant label 32 as well as a slip-resistant housing 12, preferably, the label 32 contains words and/or pictures, such as user instructions, and the exterior surface 16 of the housing 12 is over printed with words and/or pictures. It is further preferred in this embodiment that the label 32 covers less than about 30% of the exterior surface 16 of the housing 12.
In addition to the one or more slip-resistant features described above, the autoinjector can employ any features or structures known in the art or later developed, including without limitation those described in
The slip-resistant features described above may also be employed in an autoinjector training device. Typically, autoinjector training devices resemble autoinjectors but do not include needles or medicaments. Autoinjector training devices are described in, for example, U.S. Pat. Nos. 4,640,686 and 5,567,160 and U.S. Patent Publication No. 2007/0111175, the contents of each of which are incorporated by reference in their entirety.
The one or more slip-resistant features preferably improve the handling properties of the autoinjector. For example, the slip-resistant features may be especially beneficial if the user's or caregiver's hands are wet, sweaty and/or covered with a lotion such as sunscreen, hand lotion, rubbing alcohol, and/or isopropyl alcohol.
Having now described the invention in accordance with the requirements of the patent statutes, those skilled in the art will understand how to employ the features of the invention and make changes and modifications to the disclosed embodiments to meet their specific requirements or conditions.
For example, the skilled artisan will appreciate that preferably any slip-resistant features included on an autoinjector or autoinjector training device do not affect the ease at which the autoinjector or autoinjector training device is manufactured and packaged. For example, the labeling and packaging of autoinjectors often requires that the labels be applied with wipers that can slide over the surface of the labels without resulting in wrinkles, bubbles or creases. Additionally, it is often desirable that labels be laid in flat wrap around the autoinjector housing to allow good adhesion and presentation. Thus, preferably, any slip-resistant features on the label do not interfere with the ease at which wipers can slide over the surface of the label. In addition, in certain embodiments, when wrapping the label around the autoinjector housing, the ends of the label may overlap with one another so that a portion of the label is adhered to another portion of the label. Thus, in such cases, preferably, the slip-resistant features do not interfere with the ability of a portion of the label to adhere to another portion of the label. Further, autoinjectors are frequently packaged into protective carriers, where they are carried prior to use. Thus, preferably the slip-resistant features do not increase the coefficient of friction of the label and/or the exterior surface of the autoinjector to such an extent so as to interfere with the packaging of the autoinjector in the protective carrier or the removal of the autoinjector from the protective carrier prior to use.
Additionally, coating a label substrate may decrease the readability of any printed material included in the label, including, without limitation, a UPC code or instructions. Thus, if the slip-resistant feature decreases the readability of any printed material to the extent that the material cannot be easily read by a user or computer, preferably, the feature is not included in the portion of the label that needs to be read by a user or computer. Furthermore, in certain embodiments, words may be imprinted on the label after a slip-resistant coating has been applied to the label substrate. Thus, preferably, words are not imprinted on the coating. Additionally, in certain embodiments, one or more slip-resistant features may be masked so that the features do not contact any features contained in the autoinjector protective carrier, including, without limitation, automation fixture surfaces and ribs in an autoinjector protective carrier.
The following example is provided to illustrate some embodiments of the present disclosure but should not be interpreted as any limitation thereon.
This example exemplifies the applying of varnish to a label substrate.
Three different varnishes were obtained: EOP-18, 135 LP, and Varnish 329. Varnish EOP-18 has a viscosity of about 200 cps, Varnish 329 has a viscosity of about 1,500 cps and is thicker than EOP-18, and Varnish 135 LP has a viscosity of about 120 cps and is tackier than EOP-18 so as to give a “rubbery” or textured feel.
Each varnish was then applied to label substrates using seven different plates. One plate was smooth and others had a “v” (chevron) pattern or a bumped pattern. With each pattern, the texture was increased by 50% or decreased by 50% so that each varnish was applied in a smooth pattern, a standard bumped pattern, a standard “v” pattern, a 50% reduced bump pattern, a 50% reduced “v” pattern, a 150% bump pattern, and a 150% “v” shaped pattern.
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Parent | 16125926 | Sep 2018 | US |
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Parent | 15259145 | Sep 2016 | US |
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Parent | 13976494 | US | |
Child | 15259145 | US |