Syringe storage tray

A storage tray for one or more syringes includes a recess for each of the syringes to be held in the tray. Each recess has first and second opposed sidewalls that define a space therebetween for receiving the barrel of the syringe. Each of the first and second sidewalls has one or more deformable projections thereon that protrude into the space between the sidewalls for positively retaining the barrel of the syringe between the first and second sidewalls. Additionally, a slot is provided for receiving the thumb rest of the plunger. The slot includes a third sidewall oriented generally transverse to the first and second sidewalls, with the third sidewall including a further projection for engaging a surface of the thumb rest. Preferably, a plurality of such transverse slots is provided to accommodate different positions of the plunger relative to the syringe barrel. The tray also includes a relieved portion intermediate the first and second sidewalls and the slot that provides access to a proximal portion of the syringe barrel to facilitate removal of the syringe from the tray.

FIELD OF THE DISCLOSURE

This disclosure relates to a storage and handling system for one or more syringes and, more particularly, a storage tray for one or more prefilled syringes.

BACKGROUND

Prefilled syringes are increasingly being used as an alternative to vial-based systems. Prefilled syringes have the potential to both minimize the potential of microbial contamination and reduce medication dosing errors, while also providing enhanced convenience and ease of use. Further, the use of prefilled syringes is likely to reduce the amount of overfill when compared to single-dose vials, leading to the optimization of the number of doses that may be obtained from a given volume of the substance to be administered. These advantages of prefilled syringes are especially valuable when the substances to be administered are of a high cost and/or prepared in small quantities, such as gene-based and cellular biologic medical products which may be created from the patient's own stem cells.

Once prefilled, a safe and effective system for handling and delivery of the prefilled syringes to the patient is required. In particular, the relative position of the plunger to the barrel of the syringe must be substantially fixed during shipment to help insure the sterility of the syringe and its contents. When the substances contained in the syringes are high value product, such as biologics, this becomes even more important. Pursuant to the present disclosure a handling and delivery system is provided that includes an improved tray for storage and shipment of one or more prefilled syringes.

SUMMARY OF THE DISCLOSURE

By way of the present disclosure, a storage tray for one or more syringes is provided, each syringe comprising a plunger with a thumb rest and a barrel. In accordance with one aspect of the disclosure, the storage tray includes a first means for removably securing the barrel of the syringe to the tray and second means for maintaining a predetermined position of the plunger relative to the barrel. One or both of the first means and the second means may be formed integrally with the tray. Further, one or both of the first means and the second means may comprise a biasing member. The second means preferably engages the thumb rest of the plunger or, alternatively may engage the shaft of the plunger. The first means may engage the sidewall of the barrel, or alternatively or additionally engage the tip of the barrel.

In accordance with one aspect of the disclosure, the storage tray preferably comprises a recess for each of the syringes to be held in the tray, with each recess further preferably comprising a first segment configured to hold the barrel of the syringe, a second segment for holding the plunger in a pre-determined axial relation to the barrel, and a third segment intermediate the first and second segments configured to provide access to a portion of the barrel sufficient to permit gripping of the barrel by the fingers of a user.

More particularly, each recess preferably has first and second opposed sidewalls that define a space therebetween for receiving the barrel of the syringe. Each of the first and second sidewalls preferably has one or more deformable projections thereon that protrude into the space between the sidewalls for positively retaining the barrel of the syringe between the first and second sidewalls. Additionally, a transverse slot is preferably provided for receiving the thumb rest of the plunger, with the slot comprising a third sidewall oriented generally perpendicularly to the first and second sidewalls, with the third sidewall including a further projection for engaging a surface of the thumb rest. More preferably, the second segment of each recess comprises a plurality of slots configured to receive the thumb rest of the plunger at a plurality of different positions of the plunger relative to the syringe barrel.

In accordance with another aspect, the tray also preferably includes a relieved portion that provides access to a proximal portion of the syringe barrel to facilitate removal of the syringe from the tray.

In another aspect of the disclosure, the tray includes a plurality of corners, and the corners are rounded. Further, the tray may comprise an outer edge in the form of a flange.

In a further aspect, each recess may be provided with third and fourth opposed sidewalls between which is received a length of the plunger disposed between the thumb rest and the proximal end of the barrel.

DETAILED DESCRIPTION

A more detailed description of a syringe storage tray in accordance with the present disclosure is set forth below. It should be understood that the description below of various specific embodiments is intended to be exemplary, and not exhaustive of all possible variations. Thus, the scope of the disclosure is not intended to be limiting, and should be understood to encompass further variations or embodiments that would occur to persons of ordinary skill.

Turning to the drawings, there is seen a syringe storage tray, generally designated10, in accordance with the present disclosure. The tray10may be thermoformed from a plastic material, such as, for example, PETE (polyethylene therephthalate) or PETG (polyethylene therephthalate glycol), or any other material which provides the tray with the desired structural integrity, is readily susceptible to sterilization, and is easily disposed of or recycled.

As shown inFIG. 1, the storage tray10is configured to receive one or more prefilled syringes12(with three being shown). As is typical, each illustrated syringe12comprises a plunger14having a thumb rest16on one end of a shaft18and a piston or stopper (not seen) on the other end. The piston is received within the bore of a barrel22, the barrel22being formed with opposed finger flanges24on one end and a luer lock28on the other end. A sheath or cap30is received in luer lock28and is removed prior to use.

In accordance with the disclosure, and with reference generally toFIGS. 1-4, the tray10comprises a recess, generally designated32, for receipt of each syringe that is to be carried by the tray10. It is contemplated that a syringe tray as described herein may be used to hold syringes prefilled with a patient's stem cells, the syringes being configured to be connected to a percutaneous transluminal catheter for the transport of the stem cells to the patient's ischemic tissue, for example, cardiac tissue. As illustrated, the tray has three recesses32, but it could have either more or less depending on, e.g., whether the agent to be administered has multiple components or if multiple doses are to be administered. Thus, a syringe storage tray according to the present disclosure could be configured with one or more recesses32. Each of the three recesses12for the illustrated tray10has generally the same configuration. Thus, identical reference numerals will be used to designate structure common to each recess12.

Each recess32preferably comprises three segments: a first segment for holding the syringe barrel22, a second segment for holding the plunger14in a pre-determined axial relation to the barrel, and a third segment intermediate the first and second segments configured to provide access to the portion of the barrel22adjacent the finger flanges24sufficient to permit the barrel to be gripped by the fingers of a user to remove the syringe from the tray.

More specifically, the first segment for holding the syringe barrel22preferably comprises opposed sidewalls34,36that are spaced to receive the barrel22therebetween and an end wall38. The sidewalls34,36(best seen in FIG.3) are formed with structures to securely hold the barrel22of the syringe12in the recess32, and past which the barrel22of the syringe must be forced to remove the syringe12from the tray10. Preferably, the structures are projections or tabs38that extend beyond the faces of the sidewalls34,36and into the space therebetween. As illustrated inFIG. 1-4, three tabs40are provided, with one tab40associated with sidewall34and two tabs40associated with sidewall36. However, the number, location and configuration of the tabs40may be varied without departing from the scope of the disclosure. For example, as shown inFIG. 5, the sidewalls34,36may be formed with two pairs of opposed elongated tabs40. Preferably, the tabs40have a resilient nature, such that they deform to permit the barrel22of the syringe12to pass by, and then return to their original configuration. (It should be noted thatFIGS. 5-8illustrate multiple additional features and variations that may or may not necessarily be combined in a single embodiment of a syringe tray as described herein.) If the tray10is made from PETE or PETG, as described above, the tabs40will inherently possess the required resiliency. Preferably, the tabs provide for a snap fit to securely lock the syringe12into the tray10.

Other structures may be used either in place of or in conjunction with the tabs38described above to securely hold and position the syringe barrel22in the tray10. In a first alternative, seen inFIG. 5, the recess32may be formed with an aperture42in the end wall38that is sized to receive the end cap30of the syringe. The aperture42may have a shape complementary to the cross-sectional shape of the end cap, but smaller than the largest such shape for the end cap, so that the cap30is securely held within the aperture42. The sidewall of the aperture may also be tapered to more securely seat and firmly grip the end cap30. Thus, when placing a syringe12into a tray10, the end cap30is inserted into the aperture42, and then the barrel22is snapped into place between the projections40.

Alternatively, the tray may be formed with, or be configured to receive, a clip44(seen inFIG. 7) that receives the end cap30of the syringe12. The clip44is preloaded when inserting a syringe into the tray to apply a torque to the end cap30in a direction to screw the end cap into the luer lock28. Similarly, the end wall38can be formed to receive a separately-made biasing member that engages the tip of the syringe and exerts an axial force on the barrel22. The biasing member may comprise, for example, a spring clip46(as illustrated inFIG. 5), a coil spring, a resilient foam, or the like, to exert an axial force on the barrel22such that the finger flanges24are forced against lateral wall48in the tray opposite the end wall38, thus positively locating the barrel22in the tray10.

The syringe barrel22may additionally or alternatively be axially biased toward the end wall37by various means on the lateral wall48that engage the finger flanges24. Such means may include projections or tabs integrally formed in the lateral wall48during the molding of the tray (similar to the tab54, described below) or resilient means, such as springs, clips or foam, secured to the lateral wall48so as to engage the finger flanges24.

Other means for securing the barrel22in the tray10may also be employed. For example, the first recess may be configured to define an aperture sized to receive the barrel of a syringe and further include spring fingers that extend into the aperture to engage the barrel to hold it securely in place, similar to a spring or push nut.

The second segment of the recess32is configured to receive the plunger14so as to prevent relative movement between the plunger14and the barrel22. Specifically, motion of the plunger relative to the syringe barrel is sufficiently limited to prevent contamination of the syringe and its contents during transport of the prefilled syringes. In one alternative, the second recess preferably comprises a slot50for seating the thumb rest16of the plunger14. The slot50is oriented generally transverse or perpendicularly to the slot formed by the sidewalls34,36, and further includes an end wall52. The end wall52preferably includes a projecting tab or rib54that engages the top of the thumb rest16to positively locate the plunger14in the tray and limit axial movement of the plunger14relative to the barrel22of the syringe12. Preferably, the tab54is deformable to account for tolerances in the fabrication of the tray10and the filling of the syringes. Alternatively, a separate resilient member, such as a spring or foam member (not shown), may be secured to the end wall52for engagement with the thumb rest16. The second segment also preferably includes sidewalls56,58that, as shown, substantially flank the length of the plunger shaft18extending out of the barrel22of the syringe12. The sidewalls56,58may optionally be formed with projections or cleats (not shown) that engage the plunger shaft18(similar to tabs40) to more positively position the plunger in the tray.

Other means may be utilized for maintaining the position of the plunger14relative to the barrel22. In a first alternative, seen inFIG. 5, the second recess may be formed so as to have a plurality of transversely-oriented spaced slots60integrally formed therein configured to receive the thumb rest16of the plunger14. Such a configuration permits the same recess32to be used for syringes that are prefilled with different volumes of fluid, and thus have differing positions of the plunger relative to the syringe barrel. In a further alternative, seen inFIG. 6, one or both of the sidewalls56,58may be formed with a series of projecting teeth or detents62(as seen inFIG. 6) that engage the thumb rest16for various plunger settings, and thus similarly permit the second recess to accommodate syringes having multiple different thumb rest locations.

The means for securing the thumb rest of the syringe to the tray may also be formed separately from the tray and then secured thereto. For example, as shown inFIG. 7, a clip64may be received in the tray that has a pocket-like portion66that receives and captures the thumb rest and further comprises a support structure68configured to be received in a recess70in the tray10. The support structure68may have a cross-like shape that is received in a T-shaped recess70to prevent axial and rotational movement and positively locate the clip64within the recess70.

As a further alternative means separate from the tray may be utilized to maintain the relative position of the plunger to the syringe barrel. For example, a spacer bar may be employed that removably attaches to both the barrel and the plunger. More specifically, and as seen inFIG. 5, the spacer bar72may comprise an elongated member74having a structure76on one end that engages or captures the thumb rest16of the plunger14and a structure78on the other end that engages or captures the finger flanges24of the barrel22. Spacers72of various sizes may be provided to accommodate syringes having different volumes of fluid therein. Alternatively, and with reference toFIG. 6, the elongated portion of the spacer may comprise a telescoping member80that is adjustable in length. The telescoping member80preferably includes means for maintaining the desired spacing of the end structures. For example, one of the telescoping members could include a gear rack and the other a cooperating ratchet tooth (similar to a cable tie), although other means may occur to one skilled in the art. If a separate spacer is used, the tray10is configured to accommodate the spacer by, for example, increasing the spacing between the sidewalls56,58.

The third segment of the tray comprises a relieved portion82that provides access to the syringe barrel22to facilitate removal of the syringe12from the tray10. As illustrated, the relieved portion82is located intermediate the first segment and second segment and is defined by opposed sidewalls48,84. However, the third segment could be located within the first segment. As described above and seen inFIG. 1, sidewall48is preferably positioned so as to abut the finger flanges24of the barrel22when a syringe12is held in the recess32, with the tip of the needle sheath30either contacting the end wall38of the first segment or otherwise being engaged or secured in the tray as described above. As such, the barrel22is unable to move axially within the tray10. Sidewall84is spaced from sidewall48a distance sufficient to permit finger access to the barrel. Optionally, the relieved portion82may have a depth sufficient to permit rotation of the syringe barrel22about its longitudinal axis (as shown by the arrow86inFIG. 6). To this end, the depth of the relieved portion82is preferably greater than the combined width of the finger flanges24and diameter of the barrel22.

In keeping with another aspect of the disclosure, the tray may include additional features that provide greater functionality. For example, as seen inFIG. 6, the tray may be configured to receive a separately made manifold88that interconnects in fluid communication each of the syringes12to be held in the tray10. The manifold88includes an inlet/outlet port90and a series of junction ports92, one for each syringe, configured so that the barrel22of each syringe may be secured to the manifold88and to provide fluid communication through the manifold88to the interior of the syringe barrel22. The manifold88may be utilized to facilitate the simultaneous filling of the syringes12and/or to sequence the use of the syringes12during administration of their contents. After filling the syringes12by introducing fluid through the inlet/outlet port90of the manifold88, the port of the manifold88is sealed by, for example, a separate cap, a self-sealing gasket, or other means as may occur to a person skilled in the art.

Further, the tray may be provided with means that facilitate the removal of the end cap30from each syringe12which may have been over tightened after filling the syringe12. Accordingly, the tray10may include a structure94(as illustrated inFIG. 5) which serves as a wrench for securely holding the end cap. In one alternative, the wrench structure94may comprise a slot defined by sidewalls96,98. After removing the syringe12from the tray, the end cap30is wedged between the sidewalls96,98. The sidewalls96,98are spaced so that they tightly grip the cap30, thus permitting the barrel22to be twisted relative to the cap30to unscrew the cap from the syringe12. In a second alternative, the syringe tray10may be formed with an aperture100having a shape complementary to the cross-sectional shape of the end cap30, but of a size smaller than the largest cross-sectional shape, so that the end cap30may be inserted into the aperture100to firmly grip the cap30and permit its unscrewing from the syringe by the application of torque to the syringe barrel22.

In keeping with another aspect of the disclosure, the syringe tray10may be part of a housing assemblage having a reclosable cover to provide a more durable and protective enclosure for the syringes held in the tray. With reference toFIG. 8, the tray10is provided with a cover102and is preferably formed integrally with the tray10, with a living hinge104, or other hinge structure, connecting the two. The cover102preferably has a depth sufficient to receive a resilient/expandable insert or void filler106, comprising, for example, an encapsulated foam material, that presses against the syringes12held in the tray10upon closure of the cover102to more securely hold the syringes12in place and provide additional protection.

The cover102and tray10are preferably provided with a latch or lock structure114(as illustrated inFIG. 8) to secure the cover in the closed position. For example, the latch or lock114may comprise a magnet in combination with another magnetic or magnetizable material in opposed relationship on the tray and cover. Alternatively, the cover and tray may be provided with interfitting, complementarily-shaped projections and recesses (not shown) that frictionally engage each other upon closure of the cover102.

In another aspect of the disclosure, the barrels of the syringes may be provided with a mark indicating the position of the piston within the barrel at the time the filled syringe is secured in the tray. When the syringe tray is unloaded prior to use, the mark provides a visual indication as to whether the piston has moved during shipment. As illustrated inFIG. 8, the barrel marking may comprise a length of tape116applied to the barrel, although other means of marking the syringe barrel and/or the tray to indicate the position of the piston may be employed.

Alternatively, as seen inFIG. 9, a tray10loaded with syringes12may be received in a separate box-like container108open on one end, such that the filled tray10is slided into the container108. As illustrated, the tray comprises deformable members110,112, made of a material such as the encapsulated foam described above, for securely positioning the syringes12within the container108, although the container108may be configured to receive any of the syringe trays described above. The container108is preferably provided with a closure114for the open end. In the illustrated embodiment, the closure is hingedly attached to the remainder of the container, although a separate closure that slides over the open end of the container may be used. Preferably, the closure114and container108include a latch or other means (such as the latches described above) for releasably securing the closure108to the container104in the closed position to secure the syringe tray10therein.

As seen inFIG. 8, the syringe tray may also include a sensor118affixed thereto that measures and stores data as to the conditions to which the syringes12are subjected during shipment and prior to use that could potentially affect the efficacy of the substances administered by the syringes. Such data could include information as to vibration, temperature, and/or humidity.

The prefilled syringes12are preferably placed in tray10in an aseptic manner. The combination is then preferably sterilized and a cover is preferably sealed to the tray10so as to overlie the syringes. Preferably, the cover may be made of plastic material, such as Tyvek®, that is heat sealed to the top surface of the tray. The tray is then preferably placed in an over-pouch to maintain sterility until the time of use. Double bagging the tray is preferred, with the outer pouch being resealable.

In accordance with another aspect of the disclosure, the tray10is configured so as to reduce the likelihood that it could puncture the over-pouch, and thus increase the contamination potential of the syringes. To this end, the tray10preferably has no sharp edges, and the corners (such as corners120) are rounded or beveled. The tray10may also be provided with an outer edge in the form of a flange122that helps to reduce the angle at which the inner surface of the over-pouch engages the corners120, thus further reducing the likelihood of puncture. As illustrated, the tray10is also formed with a pair of elongated parallel supports124that serve to increase the rigidity of the tray and provide a stable base for the tray when placed on a flat surface.

As set forth above, the disclosed device includes the aspects set forth below.

In accordance with one aspect, a storage tray for one or more syringes is provided where each syringe comprises a plunger with a shaft and a thumb rest and a barrel with a proximal end for receipt of the plunger and a tip comprising a distal end. The storage tray comprises a first means for removably securing the barrel of the syringe to the tray and a second means for maintaining a predetermined position of the plunger relative to the barrel.

In accordance with another aspect of the disclosure, one or both of the first means and the second means of the storage tray may be formed integrally with the tray. Alternatively, one or both of the first means and the second means may be formed separately from the tray and then associated therewith.

In accordance with another aspect, which may be used with any one or more of the above aspects, one or both of the first means and the second means may comprise a biasing member.

In accordance with another aspect, which may be used with any one or more of the above aspects, the second means engages the thumb rest of the plunger.

In accordance with a further aspect, which also may be used with any one or more the above aspects, the second means engages the shaft of the plunger.

In accordance with a further aspect, which may be used with any one or more of the above aspects, the first means engages the sidewall of the barrel.

In accordance with a further aspect, which may be used with any one or more of the above aspects, the first means engages the tip of the barrel.

In accordance with another aspect, a storage tray for one or more syringes is provided which comprises a recess for receiving each of the one or more syringes, each recess comprising a first segment configured to hold the barrel of the syringe, and a second segment for holding the plunger, the first segment and second segment configured to retain the barrel and plunger and substantially fixed axial relationship.

In accordance with another aspect, the recess of the storage tray further comprises a third segment configured to provide access to a portion of the barrel that is sufficient to permit gripping of the barrel by the fingers of a user. The third segment may be positioned intermediate the first and second segments or, alternatively, positioned within the first segment.

In accordance with another aspect, which may be used with one or more of the above aspects, the first segment of each recess further comprises first and second opposed sidewalls that define a space therebetween to receive the barrel of the syringe. The first and second sidewalls each have one or more deformable projections thereon protruding into the space between the first and second sidewalls for positively retaining the barrel between the first and second sidewalls. The second segment of each recess further comprises a slot for receiving the thumb rest of the plunger, the slot comprising a third sidewall oriented generally perpendicularly to the first and second sidewalls, and the third sidewall further including a projection for engaging a surface of the thumb rest.

In accordance with a further aspect, which may be used with any one or more of the above aspects, the third segment of each recess further comprises a relieved portion intermediate the first and second sidewalls and the slot.

In accordance with another aspect, which may be used with any one or more of the above aspects, each recess comprises a third and fourth opposed sidewalls for receipt of a length of the plunger disposed between the thumb rest and the proximal end of the barrel.

In accordance with a further aspect, which may be used in combination with any one or more of the above aspects, the storage tray comprises a plurality of corners, the corners being rounded.

In accordance with another aspect, which may be used with any one or more of the above aspects, the storage tray further comprises an outer edge in the form of a flange.

In accordance with another aspect, which may be used with any one or more of the above aspects, each recess is configured to hold a prefilled syringe.

In accordance with another aspect which may be used with any one or more of the above aspects, the storage tray further comprises a pre-filled syringe received in each recess.

Thus, an improved syringe storage tray has been disclosed. The description provided above is intended for illustrative purposes only, and is not intended to limit the scope of the disclosure to any specific embodiment described herein.