LAYERED STERILE WORKSPACE ASSEMBLY

Abstract

The present invention regards a sterile workspace with removable layers for use on medical surfaces such as anesthesia workstations, as well as other surfaces. The assembly of the present invention generally includes a plurality of sterile workspaces, layered to form the assembly. Each workspace has a foam layer and a barrier layer. In some configurations, the workspace also has a tray, and the foam layer is secured to the top surface of the tray. The tray may have a raised border about its perimeter. In some configurations the foam layer has a non-porous bottom surface. The assembly may have a support surface under the bottom-most workspace layer, with an elastomer or adhesive affixed thereto to prevent the assembly from moving during use. The barrier layer is affixed to either the foam layer, or the tray (if present), and is removed to expose a sterile workspace when in use.

Claims

1. A replaceable surface assembly to assist with the prevention of cross contamination, the assembly comprising: a plurality of nested trays, each tray having a planate surface and a bottom surface, with a raised border about the perimeter of the tray to form a depressed area, each of the trays further having a workspace foam layer positioned within the depressed area of the tray and a barrier layer removably affixed to the tray.

2. The replaceable surface assembly of claim 1, wherein the barrier layer has a sag sufficient to allow one of the plurality of trays to nest into another of the plurality of trays.

3. The replaceable surface assembly of claim 1, wherein the depressed area of a first tray is sized to receive another tray.

4. The replaceable surface assembly of claim 1, wherein the tray further comprises a tab affixed to or made a part of the tray, extending from and beyond a portion of the tray's perimeter.

5. The replaceable surface assembly of claim 4, wherein the position of the tab on one tray of the assembly is different than the position of the tab on another tray of the assembly.

6. The replaceable surface assembly of claim 1, wherein the workspace foam layer is sized in proportion to the dimensions of the tray to leave a channel between the foam's perimeter and interior sides of the tray formed by the raised borders.

7. The replaceable surface assembly of claim 1, wherein the barrier layer is a film removably affixed to the raised border of the tray, and wherein the film is loosely affixed to the raised border to allow the film to sag into a depressed area of the tray.

8. The replaceable surface assembly of claim 7, wherein the barrier layer comprises low density polyethylene (LDPE).

9. The replaceable surface assembly of claim 1, wherein the tray further comprises one or more support structures to maintain the structural integrity of the tray.

10. The replaceable surface assembly of claim 9, wherein the support structures comprise a plurality of ribs, forming a depressed area between said ribs, wherein adhesive material is placed within at least a portion of the depressed area.

11. The replaceable surface assembly of claim 1, further comprising a support surface with an elastomer affixed thereto.

12. The replaceable surface assembly of claim 1, wherein the workspace foam layer is affixed to the planate surface of the tray.

13. The replaceable surface assembly of claim 12, wherein the workspace foam layer is affixed to the planate surface of the tray by means of a pressure sensitive adhesive.

14. The replaceable surface assembly of claim 13, wherein the workspace foam layer comprises a closed cell foam.

15. The replaceable surface assembly of claim 14, wherein the closed cell foam is polyethylene.

16. The replaceable surface assembly of claim 3, wherein the bottom surface of the first tray is removably secured to the barrier layer of the another tray.

17. The replaceable surface assembly of claim 16, wherein the bottom surface of the first tray is removably secured to the barrier layer of the another tray by means of a first adhesive, wherein the barrier layer is removably affixed to the raised border of the tray by a second adhesive applied near the circumference of the barrier layer, and wherein the second adhesive has a peel force greater than the first adhesive.

18. The replaceable surface assembly of claim 1, wherein the raised border extends from the top surface of the tray, and comprises a skirt extending from the outermost portion of the raised border and below the bottom surface of the tray.

19. The replaceable surface assembly of claim 1, wherein the raised border of the first tray forms a recess sized to receive the raised border of the another tray.

20. The replaceable surface assembly of claim 1, wherein the barrier film extends at beyond the raised edge of the tray.

Description

DESCRIPTION OF THE DRAWINGS

[0008] Embodiments of the present invention are shown in the accompanying figures, wherein:

[0009] FIG. 1A is a perspective view of an embodiment of a sterile workspace layer of an assembly of the present invention, with its components separated.

[0010] FIG. 1B is a perspective view of the tray and workspace of an embodiment of an assembly of the present invention.

[0011] FIGS. 2A and 2B are each a cutaway view of an embodiment of a sterile workspace layer of an assembly of the present invention.

[0012] FIG. 2C is a cutaway view of an embodiment of two sterile workspace layers of an assembly of the present invention.

[0013] FIG. 3A is a perspective view of multiple sterile workspace layers of an embodiment of the present invention, with the layers spaced apart for illustration purposes only.

[0014] FIG. 3B is a perspective view of an embodiment of the assembly of the present invention.

[0015] FIG. 3C is a perspective view of multiple sterile workspace layers of an embodiment of the present invention, with the first layer partially removed.

[0016] FIGS. 4A, 4B and 4C are, respectively, bottom views of different embodiments of the trays of an assembly of the present invention.

[0017] FIGS. 5A and 5B are perspective views of a layer of the assembly of the present invention, with a barrier layer shown separate from and affixed to the tray, respectively.

[0018] FIGS. 5C and 5D are perspective views of assemblies of the present invention, showing removal of the barrier layer.

[0019] FIG. 6 is a perspective view of another embodiment of multiple sterile workspace layers for an assembly of the present invention, with its components separated for illustration purposes only.

DETAILED DESCRIPTION

[0020] The present invention provides a replaceable surface to assist with the prevention of cross contamination, in the form of an assembly of layered sterile workspaces. As shown in FIGS. 1A-5D, in some embodiments of the system of the present invention each layer of workspace includes a tray (1) and a workspace foam layer (2), with a barrier layer (3) removably affixed to the tray. As shown in FIG. 6, in other embodiments of the system of the present invention each layer of workspace includes a workspace foam layer (2), with a barrier layer (3) removably affixed thereto.

[0021] In the embodiment shown in FIGS. 1A-5D, the tray (1) of a workspace layer may be constructed of a medical grade, thermoformed thermoplastic; in some embodiments the tray is constructed from a medical grade polystyrene, in other embodiments it is constructed from medical grade high-density polyethylene (HDPE). The tray may also be constructed from PVC film, ionomer resin, polyimides, polyester, polypropylene, or polycarbonate, or any combination thereof. The tray is intended to have minimal thickness, for example about 0.01 to 0.025. The tray is sized and shaped to fit within the intended work surface, such as the work surface of accessory carts common to operating rooms (e.g., a tray sized 19.2510).

[0022] As shown in FIGS. 2A-C, the tray (1) may have a raised border (1A) about the perimeter and extending from the top surface of the tray, with a skirt (1B) extending from the outermost portion of the raised border and below the bottom surface of the tray. The height (h1) of the border (1A) creates a dam effect on the top surface of the tray by preventing liquids collecting on the work surface from flowing off of the tray; the height of the border may be between about 0.08 and 0.15, or about 0.10 from the top surface of the tray; the height of the tray border above the foam top surface may be between about 0.04 and 0.08, or about 0.06. The skirt may extend below the bottom surface of the tray by a height (h2) about 0.025 to 0.075, or about 0.05, and may extend by about 0.1 to 0.25 from the perimeter of the raised border.

[0023] The raised border (1A) may have rounded edges, and may form a recess (1A1) sized to receive the raised border of the next tray in an assembly (as shown in FIG. 2C), thereby preventing lateral movement among the trays in the assembly. In some embodiments the raised border (1A) has a width w of between about 0.1 and 0.5, in some embodiments the width of the border before the rounded edges is about 0.375.

[0024] The tray may further have one or more support structures to support the integrity thereof during use. In one embodiment, shown in FIGS. 4A-4C, the tray is molded to include support structures in the form of a plurality of ribs (1R), which are hollow or filled, and which may cross on the bottom side of the tray, may be shaped in the form of one or more rectangles, or may be provided in another suitable configuration to support the structural integrity of the tray. The depressed area formed by any of these support structures may receive adhesive material or an elastomer, to removably affix the trays to one-another, or prevent slippage of the assembly on a work surface, as hereinafter described. Alternatively the adhesive or elastomer may be applied or affixed to the support structures, such as the ribs (1R).

[0025] As shown in FIGS. 3A-3C, tabs (1T) may be affixed to or made a part of the trays of an assembly of the present invention, extending from and beyond a portion of the perimeter of the tray; in some embodiments the tabs (1T) extend about 0.75 beyond the perimeter of a tray. The tabs can provide a surface for data such as directions, patient data, and other information, including marketing information and logos. Spacing the tabs (1T) among trays in an assembly (as shown in FIGS. 3A-C) allows a user to remove the topmost tray by its tab without touching the tabs of subsequent workspace layers (depicted in FIG. 3C), minimizing the chance of cross contamination among tabs; in some embodiments the tabs may be spaced among successive trays by about 0.25 to 0.75, in some embodiments the tabs are spaced among successive trays by about 0.5.

[0026] As shown in FIG. 3A and the embodiments shown in FIGS. 4A-4C, the bottom-most tray of each assembly may include a support surface (1ZS) with an adhesive or elastomer (1ZE) affixed thereto to prevent the tray from moving around unintentionally on the surface upon which it is placed. Alternatively, an adhesive or elastomer may be affixed to the bottom surface of the lowermost tray of the assembly of the present invention. As shown in FIGS. 4A-C, the elastomer (1ZE) may be a sheet or strips on the bottom of the support surface (1ZS) or the bottom tray (1), or any other configuration to facilitate adhesion or otherwise inhibit movement of the assembly to the work surface when in use. The elastomer may be a thermoplastic elastomer (TPE), such as Santoprene, of sufficient hardness and high co-efficient of friction so as to prevent the tray from moving around the work surface when under the load of the complete assembly.

[0027] The workspace foam layer (2) of a workspace layer provides a sterile work surface when the system of the present invention is in use. As shown in FIGS. 1A, 1B and 2A-2C, the foam layer (2) is affixed to the top surface of the tray (1). The foam layer may be medical-grade, closed cell foam to create a non-absorbent, smooth surface; in some embodiments the closed cell foam is polyethylene. Alternatively the foam layer may be formed from polyurethane plastic. Other suitable materials for the foam layer include PVC film, ionomer resin, polyimide, polyester, polypropylene, or polycarbonate, or any combination thereof. In some embodiments the foam layer is coated with antibiotic preparations. Preferably the material selected for the foam layer minimizes the thickness thereof, while maintaining compression values suitable to cushion items placed on the surface during use. Suitable compression values include between about 3 psi and 40 psi, or between about 5 psi and 10 psi. In some embodiments the foam layer has a thickness of between about 0.01 and 0.1; in some embodiments the foam layer has a thickness of about 0.04.

[0028] The dimensions of the workspace foam (2) may be sized in relationship to the size of the tray (1) to leave a channel (1C) between the perimeter of the foam (2) and the interior sides of the border (1A), as shown in FIGS. 1B and 2A-2C. By this configuration the channel (1C) collects incidental fluids flowing from the foam surface in use, which is particularly advantageous when the surface of the foam is non-absorbent. In an exemplary embodiment, where the tray (1) is sized 19.2510, with a raised border (1A) having a width of 0.375, the workspace foam (2) may be sized 18.058.08.

[0029] The workspace foam layer (2) may be affixed to the tray (1) by means of an adhesive applied between the foam and the tray, wherein the adhesive has sufficient strength to retain the workspace foam on the tray during use. In some embodiments your inventors use a pressure sensitive adhesive (PSA) to secure the foam layer to the tray.

[0030] The barrier layer (3) of a workspace layer of an assembly of the present invention is a film intended to isolate the workspace layer of each tray, maintain sterility of the workspace and prevent contamination prior to use of the tray. The barrier film should be impervious to liquids, bacteria and viruses, providing an effective barrier to external contamination. As shown in FIGS. 2A-2C and 5A-5D, the barrier may be affixed to the tray (or its raised border) by heat sealing methods, or otherwise. The barrier layer may be a medical grade, low density polyethylene (LDPE). Alternatively, Tegaderm film marketed by 3M is a suitable polyurethane plastic for use as the barrier layer (3) of the present invention, having a sterile top surface and a suitable amount of adhesive on the underside to removably fasten the layer to the tray. As shown in FIG. 1, in some embodiments one or more tabs (3T) are provided along one or more sides of the barrier layer (3) to assist in pealing the layer away from the tray when intended for immediate use. As shown in FIGS. 5A and 5B the barrier layer may be sized larger than the raised edge of the tray, in a polygonal shape so that it extends in a triangular shape at one end beyond the raised edge of the tray. In this configuration, a triangular shape forms the tab (3T) by which a user may grasp the film and pull back the same, exposing a sterile workspace, without the risk of contamination. Thereby, the sterility of the work surface is maintained until the barrier layer is removed.

[0031] By securing the barrier layer (3) to the raised border (1A) of the tray as shown in FIGS. 2A-2C and 5B-5D, the barrier layer may be provided with a certain degree of sag or slack over the foam layer, as shown in FIGS. 2B-2C. Thereby, the film does not remain planar with the top of the border (1A) (as shown in FIG. 2A), and the sag may be absorbed in the depressed area of the tray (formed within the raised border) when a tray is placed above it in the layered assembly of the present invention, as shown in FIG. 2C. This sag allows trays to assemble more closely, decreasing the profile of the assembly of the present invention by 30-50%, and preventing lateral movement of the trays. Furthermore, the slack can be integral to maintaining the sterility of each workspace layer.

[0032] The barrier layer sag may be created by flexibility in the material of the barrier layer, or by having excess barrier layer material within the border of the tray when the barrier film is sealed to the edges of the tray. In some embodiments the sag allows the barrier layer to contact a portion of the workspace layer; in some embodiments the barrier layer contacts the entire workspace layer (2). The topmost layer of an assembly of the present invention may or may not provide sag or slack in the barrier layer.

[0033] In the layered assembly of the present invention, the bottom surface of each tray (1) may be secured to the barrier layer (3) of the tray immediately below it by means of a low-tack adhesive applied to the bottom surface of the tray. The peel force of the adhesive applied to the bottom surface of a tray (1) is sufficiently less than the peel force of the barrier layer (3) to its tray (1), so that the a workspace layer may be removed from the assembly, as shown in FIG. 3C, without removing the barrier layer in the subsequent workspace layer. Thereby, after use and contamination of a workspace layer, the layer may be removed by grasping the tab (1T) of the layer's tray (1) and pulling the tray off of the assembly, exposing another workspace layer with the barrier film intact on the tray, which workspace layer is maintained as sterile by this configuration until the barrier film is removed. The peel force of the adhesive applied to the bottom surface of the tray may be between about 0.1 psi and 5 psi, or 0.25 psi and 3.0 psi, or may be between about 0.5 psi and 1.5 psi, depending on the adhesive selected to secure the barrier layer to the tray. The peel force of the adhesive applied to the bottom surface of the tray may also be selected to allow the removal of the tray with one hand, without requiring a second hand to provide additional strength to hold down the remainder of the assembly when removing a tray. Meanwhile, the peel force of the adhesive used to secure the barrier layer to the tray may be between about 0.5 psi and 10.0 psi; in some embodiments the peel force is between about 0.75 psi and 5 psi; or may be between about 1.0 psi and 3.0 psi.

[0034] In practice, a sterilized assembly of this embodiment is provided, as shown in FIG. 3B; when the sterile workspace is required for a procedure, the barrier film (3) is removed from the upper-most tray, as shown in FIGS. 5C and 5D, by pulling on the tab (3T) of the film. A sterile workspace is now provided for use. This space may be discarded after use by removing the tray (1) of the top workspace layer, as shown in FIG. 3C, exposing a subsequent sterile layer with the barrier film intact until the sterile workspace is required. Critically, the sterility of the newly exposed workspace is maintained until the barrier layer thereof is removed.

[0035] Another configuration of the multi-layer adhesive assembly of the present invention includes a plurality of workspace layers (e.g., 10), as shown in FIG. 6. In this assembly each layer comprises a workspace foam (2) having a non-porous bottom surface, with a barrier layer (3) removably adhered to the top surface of the foam.

[0036] In some embodiments of this configuration, the workspace foam (2) as hereinabove described has a bottom surface of plastic to provide rigidity to the surface and the assembly, such as medical grade thermoplastic or HDPE, with an adhesive (e.g., PSA) bonding the foam to the plastic.

[0037] An adhesive strip (2B) may be placed on the bottom surface of the plastic to removably affix a first workspace layer to another workspace layer of the assembly. This adhesive (e.g., a PSA) has sufficient peel force so as to retain the workspace as part of the assembly until intentionally removed therefrom. The peel force of the adhesive applied to the bottom surface of the foam layer may be between about 0.5 psi and 15.0 psi, or about 1.0 psi and 7.0 psi, or may be between about 2.0 psi and 5.0 psi, depending on the adhesive selected to secure the barrier layer to the foam layer. In some embodiments this adhesive has a width between about 0.25 and 2.0, or between about 0.5 and 1.0, and a length about the same dimensions as the width of the foam layer, positioned at or near one side of the bottom surface of each layer.

[0038] The barrier layer film (3) removably affixed to each layer of workspace foam (2) is a medical grade film that seals the foam prior to use. The film may have a thickness of between about 0.001 and 0.01; in some embodiments the film has a thickness of about 0.005. Affixed to or integrated with the bottom surface of the film is a layer of film adhesive with sufficient strength to retain the film on the workspace foam, while allowing the film to be removed from the workspace foam in preparation for use; however, the adhesive strength should be selected so that it does not overpower the adhesive selected for use between workspace layers, as hereinabove described; thereby, the barrier layer remains on the foam of its layer, while the foam of the layer above it is removed. The peel force of the adhesive used to secure the barrier layer to the foam layer may be between about 0.5 psi and 10.0 psi; in some embodiments the peel force is between about 0.75 psi and 5.0 psi; or may be between about 1.0 psi and 3.0 psi.

[0039] When the barrier layer (3) is removed from the workspace foam, the film adhesive releases from the workspace foam and remains intact on the film. In some embodiments the adhesive is applied around the perimeter of the film; in other embodiments it is applied to the undersurface of the film in contact with the foam layer. Further, in some embodiments the workspace is truncated at one or more of its corners (as shown in FIG. 6), and the portions of barrier film extending over the void left by the truncated portions of the workspace are free of adhesive to facilitate removal of the barrier film and minimize contact and time of contact when removing the film from the workspace foam, further reducing chances of cross contamination. In some embodiments the outermost perimeter of the film has no adhesive, which perimeter extends beyond the outside perimeter of the workspace foam, thereby acting as a shroud and preventing cross contamination among the layers in the assembly. In some embodiments tabs may be incorporated and extend from the perimeter of the barrier layer (3), spaced among layers to allow and facilitate the removal of the protective barrier.

[0040] Affixed to the bottom most workspace layer of some embodiments of the assembly in this configuration is a support surface (4), preferably an elastomeric sheet made from, for example, a thermoplastic, affixed to and having the same dimensions as the workspace foam. Other suitable materials for the foam layer include PVC film, ionomer resin, polyimides, polyester, polypropylene, or polycarbonate, or any combination thereof. This support surface may be between about 0.02 and 0.1; in some embodiments this support surface is about 0.04 thick.

[0041] The support surface has sufficient hardness to retain rigidity to the assembly when under the load of the complete stack and in use. Adhesive strips or other means of removably adhering the support surface (4) to a work surface are provided on the underside of the support surface to prevent the assembly from moving unintentionally on the work surface when in use, similar to that shown above in other configurations of the assembly of the present invention. Alternatively, the support surface (4) has a non-slip material (e.g., an elastomer) affixed or integrated with the underside of the support surface so that the assembly does not slide on the surface when in use.

[0042] In some embodiments of this configuration, and to further protect the sterility of the workspace layers, the assembly may be designed to have protective barrier layers (3) of decreasing dimensions (e.g., 0.1-0.5, or about 0.2) from the top of the assembly to the bottom; likewise, the workspace foam (2) may have corresponding decreasing dimensions from the top workspace layer of the assembly to the bottom layer. In some embodiments of this configuration the barrier layers (3) may be crimped to cover the sides of the assembly.

[0043] In some embodiments of the assembly of the present invention the foam layer (2) is colored so that a user can identify where it is; in some embodiments the barrier layer (3) is colored so that a user can easily identify if the sterile sheet is exposed, or remains sterile under the barrier layer.

[0044] The number of workspace layers in an assembly of the present invention may be designed for the number of operations performed in a room in a day. For example, if ten operations are typically scheduled in a room, the assembly may include ten workspace layers. The height of the assembly varies based upon its components, and the individual height thereof, as well as the number of layers; in some embodiments of 8-12 layers, the assembly has a height of between about 0.85-1.12.

[0045] The assemblies of the present invention and their components are sterilized using known sterilization methods, and delivered in packaging to preserve the sterilization of the assembly until removed for use; by means of the elements of the present invention sterilization can be maintained among unexposed (barrier layer in-tact) workspace layers.

[0046] The present invention is also suitable when sized and configured for use in various human and business environments, including for use on other surfaces in hospitals or medical facilities, baby changing tables, tables at restaurants, on airplane trays, and semi-conductor plant surfaces.

[0047] While the present invention has been described in reference to certain configurations and embodiments, it will be appreciated by those skilled in the art that the invention may be practiced otherwise than as specifically described herein without departing from the spirit and scope of the invention. It is, therefore, to be understood that the spirit and scope of the invention be only limited by the appended claims.