US3035691A - Package for sterile articles - Google Patents

Description

K. RASMUSSEN ETAL PACKAGE FOR STERILE ARTICLES May 22, 1962 Filed Sept. 19, 1966 jftameys.

United States Patent 3,035,691 PACKAGE FOR STERILE ARTICLES Kai Rasmussen, Marlboro, Mass., and Herbert Hanson,

Jr., Warwick, and Elmer W. Colwell, Cranston, R.I.,

assignors to Davol Rubber Company, Providence,

R.I., a corporation of Rhode Island Filed Sept. 19, 1960, Ser. No. 56,801 3 Claims. (Cl. 206-63.2)

The present invention relates generally to packaging means for sterile articles and particularly to medical or surgical devices, such as catheters, nipples and the like.

A primary object of the instant invention is the provision of a novel and improved package for surgical or medical devices wherein said devices may be maintained absolutely sterile until the very moment they are to be used.

Another object is the provision of a sterile package for surgical devices wherein the device is visibly displayed- Another important object of our invention is the pro vision of a sterile package for surgical devices, which package may be easily opened when it is desired to use the device.

A further object of the present invention is the provision of a sterile package for surgical devices which when opened Will not destroy the sterility of the packaged device.

Still another object of our invention is the provision of a sterile package for surgical devices having a novel and improved arrangement whereby when the package is opened the packaged device is exposed for ready grasping without any manipulation of the device itself.

A further object is the provision of a package of the character described which is economically feasible to manufacture in mass quantities, but which nevertheless is highly effective in the accomplishment of its intended functions, and which at the same time provides a package of pleasing appearance and one which effectively displays the contents being packaged.

Other objects, features and advantages of the invention will become apparent as the description thereof proceeds when considered in connection with the accompanying illustrative drawings.

In the drawings which illustrate the best mode presently contemplated by us for carrying out our invention:

FIG. 1 is a front elevational view of a sterile package constructed in accordance with our invention;

FIG. 2 is a side elevational view thereof;

FIG. 3 is a perspective view of the backing strip which forms a part of our invention;

FIG. 4 is a perspective view of the casing member which forms a part of our invention;

FIG. 5 is a fragmentary perspective view illustrating our package after it has been opened; and

FIG. 6 is a sectional view taken on line 6-6 of FIG. 1.

Although the instant invention will be described in connection with the packaging of a catheter, it Will be understood that this invention is equally applicable to the packaging of any surgical or medical device where sterility is of importance.

Referring to the drawings, there is shown generally at 10 an assembled package housing acatheter 12. The package 10 comprises abacking strip 14, preferably constructed of a material having the flexible characteristics of cardboard, and aplastic casing 16.

As indicated above, thebacking strip 14 is constructed of cardboard, or any other material having substantially the characteristics thereof, and I have found that bleached Kraft works particularly Well, although use of this specific cardboard is not critical. The important thing when choosing the material forbacking strip 14 is that the material be capable of controlled delarnination or, expressed differently, that it be of a fibrous or laminated construction which enables an outer surface of the material to be peeled or pulled away. Even a multilayer plastic construction could conceivably be used if the layers could be pulled apart at their point of lamination. Thus, when reference is hereinafter made to cardboard or a material having substantially the characteristics thereof, it will be understood that a flexible material capable of being delarm'nated is being defined.

As will be seen most clearly in FlGS. 1 and 3, thebacking strip 14 is of elongated rectangular configuration and is provided with atransverse fold line 18 adjacent one extremity thereof, the purpose of which will hereinafter become apparent. Thestrip 14 is further characterized by a scored area 29 defined by a continuous cut orscore 22, the definition of thearea 20 being completed by atransverse fold line 24 which interconnects the lower extremities of thescore line 22. For reasons hereinafter to become apparent, the scored surface ofstrip 14 is coated with a suitable plastic as at 26, note FIG. 6. It is important to note that the plastic coating is relatively thin with respect tostrip 14, and that thecoating 26 covers the entire side ofstrip 14. It is further important to note that thescoring 22 maybe effected either before or after theplastic coating 26 has been applied to the one side ofstrip 14 and that the cut orscore line 22 need be only deep enough to penetrate through the outer surface ofstrip 14. In practice I have found that a cardboard strip of .020 inch in thickness works satisfactorily, although dimensions are not critical to the success of the instant invention.

As will be seen most clearly from FIGS. 1 and 4, theplastic casing 16 is also of elongated rectangular configuration and specifically comprises an elongated hollowedout portion 23 which conforms generally in configuration to the outline ofcatheter 12. Surrounding thehollowedout portion 28 is a fiat, outwardly extendingmarginal flange 30, it having been found that the hollowed-outportion 28 andmarginal flange 30 may be provided as a vacuum-formed cellulose acetate butyrate blister. As will be seen most clearly in FIG. 1, thecasing 16 is dimensioned so that both its length and width are slightly less than that ofstrip 14, although in production manufacture, it may be desirable to peripherally cut the casing and backing strip simultaneously whereupon their marginal edges would be flush.

In assembly and use, thecatheter 12 is placed withinhollow portion 28 ofcasing 16, and the casing and enclosed catheter are then positioned against the scored and plastic-coated side ofstrip 14, as illustrated in FIG. 1. Themarginal flange 30 ofcasing 16 is then bonded or fused to strip 14 by any suitable means, such as the application of heat or pressure or a suitable bonding agent, whereuponcasing 16 combines withstrip 14 so as to effect an 'rtight enclosure. It will be understood that the fusing o-r bonding betweencasing 16 andstrip 14 is facilitated by the presence of theplastic coating 26 on the surface ofstrip 14, said coating fusing with the cellulose acetate butyrate blister to provide an elfective seal. On the other hand, it should be understood that if thecasing 16 is made of a plastic that can fuse directly to cardboard, then the presence of thecoating 26 would no longer be necessary. It will be understood that this heat seal is possible due to the plastic composition ofcasing 16 and theplastic coating 26 which is present on the surface ofstrip 14.

It is important to note that during the heat sealing operation, the uppermost portion of themarginal flange 30 is not sealed to thestrip 14, but rather the seal at the upper extremity is defined by theline 32 illustrated in FIG. 1. Once thecasing 16 with the enclosedcatheter 12 has been sealed to thestrip 14, as aforedescribed, the entire package and its contents may be sterilized by use of the well-known ethylene oxide method wherein the 3 ethylene oxide gas is permeated through the completed package to effect sterilization thereof. A package is now provided wherein thecatheter 12, or any other surgical device that it may be desirable to package, is completely enclosed and sterilized, but yet is completely visible where thecasing 16 comprises a transparent acetate blister, or any other transparent plastic.

When it is desired to remove thecatheter 12 from the package 10 for use, it is simply necessary to grasp the uppernon-sealed portion 34 ofcasing 16 and pull or peel thecasing 16 apart fromstrip 14. Initiation of this peeling action is facilitated by the fact thatfold line 18 enables theuppermost portion 36 ofstrip 14 to extend away from theunsealed portion 34 ofcasing 16, whereupon the parts may be easily grasped. As the casing 1.6 is pulled apart from thestrip 14, theplastic coating 26 and the outermost skin ofstrip 14 will have a tendency to adhere and stick to the casing. Due, however, to the presence ofscore line 22, the area ofstrip 14 defined by said score line, namely, area 2%, will simply break away from the surrounding outer surface area ofstrip 14 and will separate completely from thecasing 16, as shown most clearly in FIG. 5. Theshaded area 38 in FIG. represents that portion ofstrip 14 which has been pulled away bycasing 16 during the separation of the casing from the strip, and it will be apparent that if the scored area 2t) were not provided, the complete surface ofstrip 14 would pull away and remain adhered tocasing 16, whereupon the contents of hollowed outportion 28 would continue to be enclosed and would not be accessible until the thin layer covering same has been punctured. Thus, it is the presence of thescore line 22 which enablescasing 16 to be pulled apart fromstrip 14 so that the packaged contents become completely exposed and accessible. The foregoing is true even Where the score line is provided before theplastic coating 26 is applied since said coating is structurally weak and will tend to tear adjacent the score line, even though the coating itself is not scored. While perhaps it is easier to score after application of coating 26, it has been found that in some cases the score line might be inadvertently made too deep whereupon air would have a tendency to leak into the package. If, however,coating 26 is applied after the scoring, the coating will function as a protective layer to prevent penetration of air into the package.

It is important to note that as thecasing 16 is peeled apart fromstrip 14, thecatheter 12 is not touched in any way by any exposed, non-sterile portions of the package. Quite to the contrary, as will be seen most clearly in FIG. 5, thecatheter 12 remains substantially upright between the two pulled-apart portions ofcasing 16 andstrip 14, whereupon the catheter may be easily grasped by forceps or other sterile surgical equipment. Once so grasped, the catheter may be easily pulled out from the package, it being important once again to note that during this operation the catheter is not contacted by any rough or sharp non-sterile edges such as would adversely effect the sterility of the article. It will be understood that thecasing 16 andstrip 14 are pulled apart until the bottom ofscore line 22 is reached, at whichpoint fold line 24 readily enables thestrip 14 to pivot or fold away fromcasing 16, so as to completely expose thecatheter 12, as aforedescribed.

In summarizing, it will be seen that a package is provided wherein a surgical device, such as a catheter, may be enclosed and maintained in complete sterility. In spite of this, the catheter is at all times completely visible due to the transparency ofcasing 16. When it is desired to use the catheter, the package may be easily opened by peeling thecasing 16 away fromstrip 14, an operation which may be very simply and easily performed by hand, said opening operation resulting in the catheter being com pletely exposed for removal, without the sterility of the catheter being destroyed. The package is relatively inexpensive and simple to manufacture and assemble, to the extent that it is feasible for disposable use, i.e., once used, the package is discarded.

While there is shown and described herein certain specific structure embodying the invention, it will be manifest to those skilled in the art that various modifications and rearrangements of the parts may be made without departing from the spirit and scope of the underlying inventive concept and that the same is not limited to the particular forms herein shown and described except insofar as indicated by the scope of the appended claims.

What is claimed is:

1. A sterile package for surgical devices consisting of a backing strip and a hollow casing having an open side, said casing having a marginal flange adjacent said open side, means securing said flange to one surface of said strip so that said strip and casing cooperate to define an airtight enclosure, said securing means being such that when said casing is peeled away from said strip, the surface of the latter normally pulls away with the casing so as to cover the open side of the casing, and means for automatically preventing said open side from being covered when said casing and strip are peeled apart, said lastmentioned means comprising a score line on said one surface of said strip located within the confines of said en closure, said score line conforming closely to the periphery of said enclosure and extending for a substantial portion thereof.

2. The sterile package of claim 1 further characterized in that said backing strip is of a material having substantially the characteristics of cardboard, said one surface thereof being coated with plastic, and said casing comprising a cellulose acetate butyrate blister.

3. The sterile package of claim 1 further characterized in that an outer end portion of said flange is not secured to said strip whereby to define a grasping tab for facilitating the peeling of said casing away from said strip.

References Cited in the file of this patent UNITED STATES PATENTS 2,892,538 Middleton June 30, 1959 FOREIGN PATENTS 1,174,762 France Nov. 10, 1958

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