US20040173487A1 - Packaging system for medical components - Google Patents

Abstract

An integrated package suited to the packaging of medical devices and surgical equipment including devices and equipment used in heart by-pass surgery has a container and a snap-fit lid. The container and the lid have topographies suitable to conform to the medical components in the container and hold them securely. The lid has first and second grooves which engage a projection on the container and permit the lid to be used in a shipping orientation and a disposal orientation.

Description

• This application is a continuation of application Ser. No. 10/008,390, filed Nov. 6, 2001, now U.S. Pat. No. 6,588,587, which is a continuation of application Ser. No. 09/469,965, filed Dec. 21, 1999, now U.S. Pat. No. 6,311,838, the contents of which are hereby incorporated herein in their entirety.[0001]
FIELD OF THE INVENTION
• This invention relates to the packaging of medical components. More particularly, this invention relates to sterile packages of medical equipment and devices used in heart surgery.[0002]
BACKGROUND OF THE INVENTION
• Various sterile packages are used to hold medical components (i.e., devices and equipment) or instruments for surgical procedures. One type of packaging is a molded or thermo-formed sterilized substantially rigid plastic container capable of holding various components. Another type is a flexible pouch into which equipment and supplies can be inserted. The necessary supplies and equipment for a particular surgery are packaged together, sterilized, and delivered to the operating room ready for use.[0003]
• The current method of packaging oxygenators (i.e., equipment to substitute for lung function during heart by-pass surgery) typically is “bagging” the device in a flexible permeable bag. The device in the bag may be supported by formed plastic within the bag. Supports outside the bag may also be used. Such include formed or die-cut foam, die-cut corrugated paperboard, or formed plastic. The flexible permeable bag seals in the oxygenator and acts as a sterile barrier. However, maintaining a sterile barrier with a flexible bag is difficult for a device such as an oxygenator, which may weigh as much as about 6 lb. (2.7 kg), and which contains multiple sharp protrusions (e.g., ports, stopcock manifolds, and mating edges of rigid plastics). Moreover, a flexible bag functions poorly in distributing forces of the oxygenator within the bag, creating pressure points vulnerable to vibrational friction and shock. In addition, the bag can be damaged during handling (before surgery) when the bag and its contents are removed from its shipping container.[0004]
• Oxygenators are part of perfusion systems used in heart surgery. Similar packaging issues have arisen for perfusion equipment other than oxygenators. Perfusion systems typically contain one or more of an oxygenator, tubing sets, filters, blood reservoirs, sensors, connectors, blood cooling coils and other items comprising an extracorporeal blood circuit that may be used in heart by-pass procedures.[0005]
• A technician assembles and packages the components of a perfusion system to the specifications of a particular hospital, typically as defined by the surgical team. Thus there are a variety of types of such packages on the market and the components of these packages may very greatly. For example, in addition to the variability in the number and type of components present in the package, the components may be connected in a sequence and with varying lengths of tubing as specified by the surgical team. It is frequently desirable to provide the packages “pre-connected”, so that very little, if any, set up of the packaged components is required.[0006]
• One currently available perfusion package is a rigid thermoformed container with a rigid inner tray securely taped within the container. The inner tray holds the necessary components and devices of the perfusion package by various shaped holders, adhesive tapes, and fasteners. The container is sealed with a breathable covering, such as a polyethylene membrane (such as that commercially available under the trade designation TYVEK™ from E.I. DuPont deNemours and Co.). A breathable covering permits sterilization of the package with ethylene gas.[0007]
• Another commercial product is a two-tiered system having a rigid thermoformed plate separating the tubing sets on the bottom tier of a rigid container from the oxygenator and pump lines on the top tier. The contents of the package are secured by using shrink-wrap film. The entire tray is covered with sterile surgical paper and sealed in a breathable bag. The system is sterilized and then shipped to the customer.[0008]
• Yet another packaging system is a semi-rigid corrugated plastic tray that has metal framing to provide added support to the tray. Devices and components are strapped within holders or formed parts that are adhered to the floor of the tray and secured with mechanical fasteners. Once the tray has been packed, it is covered with a corrugated plastic lid. The entire system is placed into a breathable sterile barrier bag for sterilization before use.[0009]
• Current packaging systems share some disadvantages. Current systems typically are packed to each customer's specifications so each package may have different components in it. There is no defined position in the package for a component. Typically the technician who is packing perfusion equipment loads in the medical components and restrains them from movement by means of various fasteners. Because of this, the systems are not only time-consuming to pack but operator inconsistencies develop because of variable placement of the components. These disadvantages also lead to more costly assembly time.[0010]
• Disposal of the package, once the components in the package have served their use in surgery, can also be problematic. Typically, the components and the package are placed in bags or pouches for removal and disposal. This also is an additional expense and can be time consuming.[0011]
• Thus, a need in the art exists for a packaging system for medical components which provides ease of assembly and use, adequate support and cushioning for the components, the ability to vary the types of components without changing the package, and a way to dispose of the package inexpensively and conveniently.[0012]
SUMMARY OF THE INVENTION
• This invention is an integrated package particularly suited to the packaging of medical devices and surgical equipment including devices and equipment used in heart by-pass surgery. The package comprises a container and a snap-fit lid. The lid is positioned in the opening of the container and pushed into position. A projection on the container and a groove on the lid provide a “snap-fit” of the lid to the container.[0013]
• In a first aspect, this invention is a packaging system for medical components comprising a container having a bottom surface, first and second opposing sidewalls and third and fourth opposing sidewalls, the bottom surface and sidewalls being connected to form an interior surface of the container such that an opening is formed in the container opposite the bottom surface, the opening being defined by a top edge of the sidewalls, the sidewalls having a circumferential projection in the direction of the interior surface; and a lid having a first side and a second side and a perimeter section sized to fit within the opening in the container, the perimeter section having at least one circumferential groove, the lid being configured to attach to the container in a manner that covers the opening in one of a first mode where the second side of the lid is oriented toward the interior surface of the container and a second mode where the first side of the lid is oriented toward the interior surface of the container, the at least one groove being configured to accommodate the projection when the lid is attached in the first mode and when the lid is attached in the second mode.[0014]
• The circumferential projection may be continuous and the groove may be continuous. In a preferred embodiment, there are two grooves on the lid. In another preferred embodiment, one of these grooves is continuous and the other groove is provided with at least one channel. Preferably, the projection is substantially parallel to the top edge of the sidewalls and the projection is located adjacent the top edge of the sidewalls. When the lid is attached in the first mode, the interior surface of the container and the second side of the lid define a first enclosed volume and when the lid is attached in the second mode, the interior surface of the container and the first side of the lid define a second enclosed volume wherein the first volume is less than the second volume.[0015]
• In a second aspect, this invention is a packaging system for medical components comprising a container having an interior surface and an opening; a lid configured to attach to the container in a manner that covers the opening, the lid having a shipping side and a disposal side; and means for attaching the lid to the container such that the lid may be attached to the container with the disposal side facing the interior surface or with the shipping side facing the interior surface.[0016]
• In a third aspect, this invention is a packaging system for medical components comprising a container having a bottom surface, and sidewalls including first and second sidewalls, the bottom surface and sidewalls being connected such that an opening in the container is formed opposite the bottom surface, the first and second sidewalls including at least one rib; a lid configured to cover the opening in the container; and an insert configured for mounting on one of the first and second sidewalls, the insert having a surface configured to be securely affixed to the rib of the first sidewall when the insert is mounted on the first sidewall and to be securely affixed to the rib of the second sidewall when the insert is mounted on the second sidewall.[0017]
• Preferably, the insert is removably secured to the at least one rib. The rib may have a V-shape. The insert may be a folding plate. The lid may have a topography adapted to conform to the shape of the medical components in the container and the insert may have a topography adapted to conform to the shape of medical components held by the insert.[0018]
• In a fourth aspect, this invention is a packaging system for medical components, comprising a container having an interior surface and an opening; a lid configured to attach to the container in a manner that covers the opening; and means for securing the medical components within the container.[0019]
• In a fifth aspect, this invention is a packaging system for medical components comprising a container having an interior surface and an opening, the interior surface having first and second protrusions; a lid configured to attach to the container in a manner that covers the opening; and an insert configured for selective mounting in multiple locations within the container including adjacent one of the first and second protrusions, the insert having a surface configured to be securely affixed to the first protrusion when the insert is mounted adjacent the first protrusion and to be securely affixed to the second protrusion when the insert is to be mounted adjacent the second protrusion.[0020]
• In a sixth aspect, this invention is a method of packaging medical components comprising supplying a packaging system including a container having an interior surface and an opening, the interior surface having at least one protrusion, a lid configured to attach to the container in a manner that covers the opening, and an insert having a surface configured to connect with the at least one protrusion and to conform to the surface contour of a medical component; placing a medical component within the container with a surface contour of the medical component conforming to the surface of an insert which is connected to the protrusion; and attaching the lid to the container to secure the medical component within the container.[0021]
• In a seventh aspect, this invention is a method of disposing of used medical components comprising supplying a packaging system for shipment of the medical components, the packaging system comprising a container having an interior surface and an opening, and a lid configured to attach to the container in a manner that covers the opening in both a shipping mode in which a first side of the lid faces the interior surface and a disposal mode in which a second side of the lid faces the interior surface; placing the used medical components in the container in which they were shipped; covering the container with the lid oriented in the disposal mode such that the second side of the lid faces the interior surface.[0022]
BRIEF DESCRIPTION OF THE DRAWINGS
• FIG. 1 is an exploded perspective view of a first embodiment of the lid and container of the packaging system of this invention with medical components shown housed in the container.[0023]
• FIG. 2A is a perspective view of the container of FIG. 1 and FIG. 2B is a partial top view of the container.[0024]
• FIGS. 3A and 3B are perspective views of a plate designed to hold various components within the container of FIG. 1.[0025]
• FIG. 4A is a partial view of the container of FIG. 1 illustrating a type of formed insert holding a medical component; FIG. 4B is a perspective view of the formed insert of FIG. 4A; FIG. 4C is a perspective view of another type of formed insert; and FIG. 4D is a back view of a medical component held by the insert of FIG. 4C.[0026]
• FIG. 5 is a perspective view of a second embodiment of the packaging system of this invention.[0027]
• FIGS. 6A and 6B are perspective views of the packaging system of FIG. 5 in shipping mode and disposal mode, respectively.[0028]
• FIGS. 7A and 7B are partial cross-sectional views of the packaging system of FIGS. 6A and 6B, respectively.[0029]
• FIG. 8 is a perspective view of a third embodiment of the packaging system of this invention.[0030]
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
• This invention is a packaging system particularly suited to the packaging of medical components such as medical devices and equipment used in surgery. In a preferred embodiment, the packaging system contains devices and equipment comprising an extracorporeal blood circuit used in heart by-pass surgery. The packaging system comprises a container and a snap-fit lid. The container is provided with a projection that matingly engages with a groove on the snap-fit lid. Alternately, a groove on the container could matingly engage with a projection on the lid. The container is designed to hold various medical components, including one or more of oxygenators, tubing sets, filters, blood reservoirs, sensors, connectors, and blood cooling coils. The components may be joined together by tubing, i.e., pre-connected, for immediate use in surgery. The packaging system minimizes the use of tapes and straps to restrain the medical components from movement and preferably omits the use of tapes and straps.[0031]
• In a preferred embodiment, first and second parallel grooves on the snap-fit lid are designed to engage with the projection on the container depending on the orientation of the lid. When a first groove engages the projection, the packaging system is in shipping mode. When the second groove engages the projection, the system is in disposal mode. The second groove is designed so that it is very difficult to remove the lid once it has been placed on the container in its disposal mode.[0032]
• Any suitable inert, sterilizable material may be used to form the packaging system of this invention. Preferably, the container and the lid are each formed from plastic materials to a desired shape, size, and topography. Formed plastic materials include, for example, thermoformed and injection molded polymers. Suitable plastic materials for use in this invention include, for example, polyethylene, polyester, polycarbonate, polyethylene terephthlate, polystyrene, and polyvinylchloride.[0033]
• The lid and container are manufactured to any desired dimension. A typical packaging system for perfusion equipment may be, for example, about 30 inches wide by 24 inches long by 13 inches high (76 cm by 61 cm by 33 cm).[0034]
• The lid and the container are designed to hold various components and may have cavities, recesses, partitions, or other features formed into them, producing the desired topography for the system, as described further below. Alternatively, other features can be added to the container or to the lid by use of adhesives or by sonic welding. Preferably, at least some of the medical components are held securely in the container by means of one or more removable inserts. The molded inserts may fit along a sidewall, at a corner, or on the bottom of the container. They can be used as necessary to hold various components. It is preferred that the medical components are held securely in the container by fitting components into designed recesses. This is important particularly after medical components have been pre-connected. In this way, they are ready for use when the container is opened. However, they may alternatively, or additionally, be secured by adhesive, adhesive tapes, mechanical fasteners, and the like. Mechanical fasteners preferably include hook and loop fasteners such as those commercially available under the trade designation VELCRO™ fasteners.[0035]
• Medical components and devices are placed into the container in a desired arrangement and the lid is positioned onto the container. A permeable “lid-stock” or membrane, such as a permeable high density polyethylene is affixed to the container, typically by heat sealing with a platen. A suitable and conventionally used permeable, as well as tear resistant, material is a polyethylene commercially available under the trade designation TYVEK™ from DuPont.[0036]
• The packaging system is sterilized by exposing the container to a sterilizing gas, such as ethylene oxide, or to gamma radiation, as is known to those of skill in the art. Sterilizing gas passes through the permeable membrane and into the container. If ethylene oxide is the sterilization method used there may be channels or interruptions in the groove that engages with the projection so that gas may flow through. The lid of the container may be provided with passages or throughways so that gas can flow into the container. After sterilization, the packaging system is placed in a container such as a cardboard box and shipped to the user.[0037]
• Turning now to the Figures, the features of the packaging system are described in detail. FIGS. 1 and 2A illustrate a perspective view of[0038]container10, medical components W, X, Y, and Z incontainer10, andlid20.Container10 is formed frombottom surface2, opposingsidewalls4 and6, and opposingsidewalls5 and7. The bottom surface and the sidewalls form an interior surface and define a space that holds medical components. The sidewalls join each other; the top edges of the sidewalls define opening8 oppositebottom surface2. Facing the interior of and near the opening ofcontainer10 isprojection11.Projection11 may be continuous about the circumference of the inside ofcontainer10 or it may be interrupted, for example, at the corners. The projection can be located any distance from the top of the container. FIG. 1 illustrates a projection located about 0.5 inches (1.2 cm) from the opening. Typically, it is desirable to maximize the space within the container.Projection11, as seen in cross-section in FIGS. 7A and 7B, hasportion13 substantially perpendicular to the plane of the sidewall ofcontainer10 andportion15 disposed at an angle relative to the plane of the sidewall.
• In an alternate embodiment of the packaging system, the container may be provided with more than one projection. A projection nearest the top opening would be used to engage a groove on a lid. Another projection could be located on one or more walls of the container farther away from the top opening. This projection could be used to engage a groove on a plate or a divider. In this way, a partial or full plate or divider could be positioned within the container. For example, a horizontal plate or divider could be positioned in the container using a projection in the container to engage with a groove on a plate or divider.[0039]
• [0040]Container10 also has sealingflange19 disposed aboutopening8. The sealing flange permits heat-sealing of a permeable membrane (not shown) over the top of the lid once the components are loaded into the container.
• [0041]Lid20 may be provided with various shapes or contours which conform to the shape of the medical components in the container to facilitate holding the components in the container as described further below.Lid20 has major surfaces orsides50 and51 and sidewalls52,54,56, and58. The perimeter oflid20 is sized to fit within the opening in the container. The shipping mode of the container is shown with major surface orside50 facing upward in FIG. 1 and major surface orside51 facing downward, into the interior ofcontainer10.Lid20 is provided withgroove22 along the outside perimeter, i.e., the circumference, of the lid sidewalls52,54,56, and58.Groove22 engagesprojection11 when the lid is pushed onto the container. The preferred orientation forlid20 is as shown in FIG. 1, withmajor surface50 facing upward. A less preferred orientation (not shown) forlid20 hasmajor surface51 facing upward, thus providing greater volume of the packaging system, useful for the disposal orientation of the system.
• FIG. 2A shows[0042]container10 having sidewalls with various shapes formed or otherwise attached to them. In FIG. 2A, sidewalls4,5,6 and7 are provided with ridge or step9, integral withsidewall4 and portions ofsidewalls5 and7, and partition3, integral withsidewall4 andbottom surface2. Ridges, partitions, and ribs serve to support various components within the container, as described further below. The ridges, partitions, and ribs in FIG. 2 are intended to be illustrative of the topography of the inside of the container, and are not intended to limit the contours that are useful and can be obtained, as known to those of skill in the art. Sidewall ribs are preferred in the container in order to provide additional structural support to the container as well as to allow various components to be held securely incontainer10. Such ribs may have a variety of lengths along the sidewalls as well as various widths and shapes. Preferably, sidewalls4,5,6, and7 are provided with at least one V-shaped rib such asdovetail ribbing14 and16.Ribbing14 extends from near the top of sidewall7 and adjoins ledge9.Ribbing16 extends from near the top of sidewall7 tobottom2. FIG. 2B is a top view of a portion of the container, showing a preferred shape of the dovetail ribbing. Preferably, the ribbing is angled inwardly, toward the sidewalls ofcontainer10, though it may be angled outwardly or be perpendicular to the sidewalls.
• FIGS. 3A and 3B illustrate[0043]rigid folding plate30 which is provided with a geometry useful for mating with various products to be held incontainer10.Plate30 is formed with various features in it in order to support and contain a desired medical component. For example, in FIGS. 3A and 3B,plate30 is shown contoured to accommodate oxygenator X.Plate30 is also provided withtabs34 and36, which are adapted to fit between the ribbing on the sidewalls ofcontainer10.Plate30 lies flat, as shown in FIG. 3A, while medical components are loaded into it. Once loaded,plate30 is folded in half, as shown in FIG. 3B, and placed intocontainer10. Partition3 on the bottom surface of the container separates moldedprotrusions33 and35. In addition, thedovetail ribbing14 and16 mates withtabs34 and36, respectively, along the side ofplate30, thus holdingplate30 firmly in place.Plate30 also may easily be removed fromcontainer10, if desired. The use ofplate30 avoids the need for mechanical fasteners, tapes, or adhesives.
• FIG. 4A shows a perspective view of a portion of[0044]container10 having removable moldedinsert40 at a corner holding medical component W, which could be, for example, a blood recovery system.Insert40 hasside flanges41 and42 adapted to mate withdovetail ribbing14 and16 on the sidewalls. FIG. 4B is a perspective view ofinsert40, showing the shape offootprints41 and42,concavity44, andshelf46.Shelf46 is shaped to fit the neck of medical component W. FIG. 4C shows another form of moldedinsert110 having V-shapedfootprints111,112,113, and114 adapted to mate withdovetail ribbing14 and16 on the sidewalls. The topography of moldedinsert110 is shaped with circular cut-out115 andholes116 to119 to accommodate medical devices Y and Z (such as, for example, cardioplegia devices) as shown in FIG. 4D. Thus components Y and Z are secured between the insert and the lid once the lid is secured onto the container. As will be appreciated by those of skill in the art, various forms of molded inserts can be configured in order to accommodate and secure the shape of any desired medical device. The mating configuration of the V-shaped footprints and the ribbing serves to secure or lock the insert and hence the component in place.
• FIG. 5 illustrates another embodiment of the invention, similar to the first embodiment except for lid[0045]20a. Lid20ais configured to be used in one orientation in a shipping mode and in a second orientation in a disposal mode; that is, one side faces the interior of the container in shipping mode and the other side faces the interior of the container in disposal mode. Lid20ahasmajor surfaces60 and61 joined to sidewalls62,64,66, and68. Twoparallel grooves24 and26 are disposed along the outside perimeter of lid20a. FIG. 5 shows the disposal orientation of the lid. The topography of the surface of lid20ais designed to match the medical components (e.g., components W, X, Y, and Z) incontainer10 that are supported by foldingplate30 and moldedinserts40 and110 (as illustrated in FIGS. 4A, 4B,4C, and4D). In the shipping mode or orientation, first surface orside60 faces upward and second surface orside61 faces the container. In the disposal mode or orientation, as shown in FIG. 6B, the lid is flipped over (i.e., inverted or rotated 180°), so that first surface orside60 faces the container.
• FIGS. 6A and 6B show the shipping and disposal modes of the packaging system, respectively. FIGS. 7A and 7B are partial cross-sectional views of an exploded section of the lid and container showing the orientation and alignment of the projection and the grooves. FIGS. 6A and 7A illustrate the shipping orientation of the package, with[0046]first surface60 facing upward. FIGS. 6B and 7B illustrate the system in disposal mode, withfirst surface60 of the lid facing downward, towardcontainer10, andsecond surface61 facing upward.
• FIGS. 7A and 7B illustrate the geometry of[0047]projection11 andgrooves24 and26 in cross-section.Projection11 hasportion13 substantially perpendicular to the plane of the sidewall ofcontainer10 andportion15, disposed at an angle relative to the plane of the sidewall. When the packaging system is in shipping mode,first groove24 engagesprojection11 oncontainer10, as illustrated in FIG. 7A.Groove24 can be viewed as being comprised of twoangled surfaces73 and75; that is, neither of these surfaces is substantially perpendicular to the plane of the lid sidewall. This results in a snap-fit when the lid is placed into position over the container, but also results in the lid being removable. The shape ofgroove24, in combination with the natural flex of the container sidewalls, allows minimal force to be used when assembling the package.
• In contrast, the cross-section of[0048]groove24 is not the same as that ofgroove26.Groove26 can be viewed as comprised of twosurfaces83 and85.Surface83 is substantially perpendicular to the plane of the lid sidewall. This results in a tight fitting engagement of the lid on the container when the lid is positioned for disposal mode and much more difficulty in removing the lid.
• During shipment, the combination of permeable barrier (sealed to the top perimeter of the container) and a corrugated over-wrap (not shown) prevent excessive flexing of the container sidewalls. The lid-stock and over-wrap also assist in restraining the lid, and thus also restrain the components in the package. In disposal mode, the used medical components are returned to the container, and the lid is placed on the container in a 180° orientation from the shipping mode. This results in a larger volume for the enclosed container, as can be seen in FIGS. 6A and 6B. This is an advantage because the medical components may not be carefully repacked when they are disposed of and greater volume may be necessary. The disposal orientation also produces a vessel for the safe temporary removal of medical waste because the contents inside the container are sealed. The lid is difficult to remove in disposal mode and leakage of fluids is minimized.[0049]
• A gasket also could be provided on the lid of the packaging system. This would be useful in disposal mode so that the system can be used as a primary vessel for waste disposal.[0050]
• FIG. 8 illustrates an alternate embodiment of the packaging system of this invention.[0051]Container10 supports various perfusion equipment. Lid20bhasmajor surfaces70 and71 provided with a topography to match the components lying beneath it. Lid20bhas sidewalls72,74,76, and78. Twoparallel grooves24band26bare provided around the perimeter of lid20b. Groove24bis interrupted by one ormore channels100 disposed around the perimeter of the lid. The channels permit the flow of sterilizing gases (e.g., ethylene oxide) into and out of the container when the lid is in shipping mode, that is, when the lid is positioned oncontainer10 and groove24bengagesprojection11. The channels do not pass through the plane ofgroove26b, so that when the lid is inverted and groove26bengages projection11 (the orientation shown in FIG. 8), there can be no leakage of fluid from the container when it is in disposal mode.
• Although a particular embodiment of the invention has been disclosed herein in detail, this has been done for the purposes of illustration only, and is not intended to be limiting with respect to the scope of the appended claims. It is contemplated that various substitutions, alterations, and modifications may be made to the embodiment of the invention described herein without departing from the spirit and scope of the invention as defined by the claims.[0052]

Claims (8)

What is claimed is:

1. A medical package for shipping medical components and for disposing of the medical components contaminated with medical waste after use comprising:

a container having a bottom surface and sidewalls forming an opening; and

a lid configured to attach to the container to cover the opening in a first orientation when the medical components are enclosed in the container during shipment and in a second orientation different from the first orientation when the used medical components contaminated with medical waste are enclosed in the container during disposal.

2. The medial package ofclaim 1 wherein a first volume is enclosed within the container when the lid is in the first orientation and wherein a second volume is enclosed within the container when the lid is in the second orientation, the second volume being greater than the first volume.

3. The medical package ofclaim 1 wherein the lid forms a seal about the opening in the container when in the second orientation such that fluid medical waste can be contained in the container.

4. A method of disposing of used medical components comprising:

supplying a packaging system for shipment of the medical components, the packaging system comprising a container having an interior surface and an opening, and a lid configured to attach to the container in a manner that covers the opening in one of a shipping orientation and a disposal orientation which is different from the shipping orientation;

placing the used medical components in the container in which they were shipped; and

covering the container with the lid attached in the disposal orientation.

5. A method of packaging medical components from shipping to disposal comprising:

providing a packaging system including a container having an interior surface and an opening, and a lid configured to be oriented with respect to the container in a first position when shipping medical components and in a second position, different from the first position, when disposing of the medical components;

enclosing the medical components in the container with the lid positioned in the first position;

removing the medical components from the container;

using the medical components in a medical procedure; and

placing the used medical components in the container with the lid positioned in the second position.

6. The method ofclaim 5 wherein placing the medical components in the container with the lid in the first position forms a first enclosed volume within the container and placing the used medical components in the container with the lid in the second position forms a second enclosed volume within the container, the second volume being greater than the first volume.

7. A method of packaging medical components from shipping to disposal comprising:

providing a packaging system including a container having an interior surface and an opening, and a lid configured to cover the opening, the lid being shaped to cover the opening in a shipping position enclosing a first volume within the container and a disposal position enclosing a second volume within the container, the second volume being greater than the first volume;

enclosing the medical components within the container with the lid in the shipping position;

removing the medical products from the container;

using the medical components in a medical procedure; and

enclosing the used medical components within the container with the lid in the disposal position.

8. The method ofclaim 7 wherein the shipping position is different from the disposal position.

Images