Abstract:
The inventor here discloses destructive (self-destructing) documents useful for the protection of confidential information. The invention comprises a document which can be easily and instantly broken down into dozens of individual components, hence obliterating any information contained thereon. As the self-destruction of the document requires no extraneous equipment for destruction and guarantees elimination of readable data, the invention represents a vast improvement over the state of the art. Numerous embodiments of the document of the invention specialized for different applications are illustrated and described.

Description:
BACKGROUND OF THE INVENTION 
     Threats to data privacy and identity theft are increasingly common, resulting in untold anguish, and hundreds of millions in losses yearly to those who have their personal or corporate information stolen and abused. But while online hacking, phishing and other computer aided theft of personal information makes newspaper headlines, masses of such information is still stolen the old fashioned way, by extracting information from printed personal communications which end in the trash, commonly known as dumpster diving. 
     The myriad of items passing through a typical mailbox, some solicited, others beyond the control of the individual, contain a wealth of information in public view, from names and addresses, to other more private information not designed for public disclosure. Currently such items have no quick and simple way to assure that this information is destroyed, and the use of information purloined from discarded mailings and the like remains a huge problem to which the instant invention provides a solution. 
     In addition, data theft and espionage within industry are increasingly common. Even in an office with strict environmental controls such as a secured intranet and the absence of file save facilities on sensitive equipment, the necessity of hand written notes and temporary memos remains a weak link in an otherwise secure system. 
     While numerous solutions exist to protect such private information, these most often require extraneous equipment, such as paper shredding, or may result in incomplete erasure of information, as is usually the case with simple paper ripping, use of concealment stamps and markers or the like. Lacking real world utility the currently available solutions fail to address a pressing need. The inventor herein discloses a destructive (or self-destructing) document, and provides a series of solutions to the theft of personal and industrial information consequently providing a superior level of privacy and protection. 
     BRIEF SUMMARY OF THE INVENTION 
     The instant invention provides a series of solutions to the theft of personal, medical and industrial information. In summary, the invention comprises a printable surface called a coversheet. Using a pattern of light cuts or perforations, the coversheet is divided into a series of releasable island cutouts and a residual framework, such that the integrity of the page is maintained, but each cutout can be released from the page using only minimal force, due to the presence of the perforations. The cutouts, are joined by a filament which can be pulled upon to release each or sequentially all of the cutouts, hence removing the portions of printed or written matter that reside on the cutouts. A stripping device attached to the filament is then used to release the individual cutouts from the filament, resulting in destruction of the printed surface and obliteration of any readable text. In some embodiments the coversheet is adhered to an adhesive backing sheet with an optional release liner, allowing it to be affixed to items as desired. 
     The invention comprises the following elements: 
     a coversheet, 
     a filament 
     a stripping device, sometimes with an optional shredder 
     an optional backing sheet and optional associated release liner, each of which are further detailed below, followed by a description of certain preferred embodiments. 
     A first element of the invention comprises a coversheet. The coversheet is typically a piece of paper, plastic, polymer, cloth, metal, or other suitable material. The upper surface comprises a writable or printable surface, on which hand writing, printing, graphics, mailing and other information can be entered. In some instances the lower surface may also comprise a writable surface. The coversheet is cut or perforated with a series of island outlines or cutouts using methods well known in the art and commonly employed in the production of stickers, adhesive labels, stamps, toilet paper etc. The cutouts may be the same or different shapes and sizes, and their patterning on the coversheet may be uniform or random, and may cover all or a part of the coversheet. Dimensions, sizes and shapes of the cutouts and filament will depend on font type, font characters and font size, and can be chosen to maximize data masking. Typical cryptographic methods of obscuring the information can be employed to optimize these parameters to ensure the information is indeterminate after destruction and cannot forensically be reassembled. In some embodiments the coversheet is adhered to an underlying backing sheet with optional release liner. In some embodiments the backing sheet is transparent. When no backing sheet is present, the cutting or perforation shall be such that the cutouts are substantially separated from the coversheet so that the integrity of the page is maintained, but each cutout can be released from the page using only minimal force, due to the presence of the perforations. When a backing sheet is present the cuts/perforations may be such that the cutouts are more easily released from the backing and coversheets to leave the residual coversheet lattice affixed to the underlying backing sheet. Depending on the application, either the upper or lower surface of the coversheet further comprises adhesive regions to which the filament can be affixed. The adhesive regions are placed within the cutouts, and employ an adhesive capable of forming a strong bond between the filament and cutouts, such that the cutouts remain attached to the filament, and are released from the backing sheet by pulling or drawing upon the filament. In embodiments in which a backing sheet is employed, the coversheet is akin to a perforated sticker and the coversheet&#39;s lower surface is covered in an adhesive which can form a releasable bond with the underlying upper surface of the backing sheet, which is formulated as a release layer as further described below. 
     A second element comprises one or more filaments. To facilitate release, the cutouts are joined by the aforementioned thin filament which overlays, underlays or is woven within the coversheet and threads between the cutouts, connecting them in a random and non-linear fashion. At one terminus, the filament is attached to the final cutout of the series, while at the other is the free end. The filament over or underlays the residual framework of the coversheet and is attached thereto, usually juxtaposed to a side or corner to facilitate easy release. Pulling on the filament by the free end results in release of the cutouts from the coversheet, in a daisy chain configuration, with individual cutouts arrayed along the length of the released filament. As the filament is connected to the cutouts on the coversheet in a random fashion, juxtaposed pieces of printed text are not contiguous on the filament after its release and so cannot be easily rearranged to form the original text. The filament will typically be a string, thread, ribbon or tape, composed of any suitable material. The filament may underlay or overlay the coversheet depending on the application, but in either case is separate from and affixed to the cutouts of the coversheet at the adhesive regions. The filament may further comprise a pull-tab at the free end adjacent to the stripper, which can be gripped to facilitate pulling of the filament. The pull-tab may be any shape and conformation suitable for gripping with the fingers, and while always attached to the filament, may additionally be attached to the stripper and/or the coversheet. Alternatively the pull-tab may be integral to the filament, comprising a flattened and reinforced section of the filament which aids gripping, and may additionally comprise a mechanism to secure the free end to the coversheet. In one embodiment the filament overlays the cutouts and further comprises a surface which can be written or printed upon, so that the coversheet and filament present as a uniform writable surface. In this embodiment the filament may be shaped as a tape or other flattened surface and employ an integral pull-tab. 
     A third element of the invention comprises a stripping device, or stripper, which encircles the filament. Typically the stripper is a ring, tube or collar with an internal diameter slightly larger than the diameter of the filament which it encircles. The stripper may be a collar of any shape, as long as it is able to accommodate and be drawn unimpeded along the length of the filament. By holding the filament terminus or pull-tab and drawing the stripper along the length of the filament, the cutouts which are adhered to the filament after release from the coversheet are stripped away as they are drawn into the stripper, and released from the filament as discrete chads. As each chad contains a small piece of random information, these chads may be safely discarded without risk of information reconstruction. In some embodiments the stripper my further comprise an optional set of blades inset into the stripper, a shredder, so that chads are shredded, being cut by the blades as they encounter the stripper. This makes the chads more indistinct and adds a further layer of security to the invention. 
     The stripper may be attached to either the filament and/or the coversheet, in either a permanent or temporary fashion. In one embodiment of the invention, the stripper is attached permanently to the coversheet and the cutouts and filament are released in a single motion by drawing the filament through the stripper affixed to the coversheet, with chads being released from the filament as it passes through the stripper. In a preferred embodiment the affixed stripper is formed with finger-holds to facilitate gripping of the document. In an alternative embodiment the stripper may be attached temporarily to the coversheet so as to hold it in place prior to use. In this embodiment the stripper and filament are released in a first motion by pulling on the filament end or pull-tab, resulting in the separation from the coversheet of both the stripper and the filament with its attached released cutouts. In a second stripping motion, the stripper is then drawn along the length of the released filament so as to discharge the cutouts as chads. 
     A fourth optional element of the invention comprises a backing sheet and optional release liner. By including a backing sheet, the document of the invention can be strengthened, or can be affixed to items as desired. The backing sheet comprises an upper surface to which a coversheet can be adhered. Characteristically the upper surface has the properties of a release liner, i.e. coated with polyolefins such as HDPE, LDPE and PP plastic resins, silicon, polyvinyl alcohol or other suitable components, and allowing a reliable but temporary bond to the lower surface of the coversheet. This facilitates sticking to the coversheet, but allows subsequent release of the perforated cutouts from the upper surface of the backing sheet. In some embodiments of the invention, the backing sheet has no adhesive applied to its lower surface, and acts to strengthen the overlaying coversheet by bonding thereto. In other embodiments the lower surface of the backing sheet comprises a second adhesive surface capable of affixing to a mailing or other surface and is usually protected by a release liner. In some embodiments, the lower surface may be coated in an adhesive, with or without an optional release liner, and can be adhered to a mailing or other surface by any of those techniques known in the art. For instance, the lower surface may typically comprise a simple sticker, with a pressure sensitive adhesive covering the surface. The adhesive is protected by a release liner, to safeguard the adhesive prior to the label being applied as is common in the sticker industry. Characteristically, similarly to the upper surface of the backing sheet, the release liner comprises an upper surface which is coated with silicon, polyvinyl alcohol or other suitable components, to reduce the stickiness of the surface, and allow a reliable but temporary bond to a second adhesive coated surface. The attached release liner can be peeled away from the backing sheet to expose the adhesive covered lower surface to facilitate affixing to a mailing or other surface. Alternatively the adhesive on the lower surface of the backing sheet may be uncovered, and require activation by water, light, temperature or other means known in the art, and in this instance the optional release liner may be omitted. 
     The exact choice or combination of materials employed in construction of the invention depends on the specific application and embodiment. Suitable materials are known, or will become known, to those skilled in the art, and their exclusion from this list is not intended to detract from their importance in this invention. In any case, suitable materials and methods are well known in the art and the following is intended to illustrate, not limit, the choices of materials which may be employed. Typically, the coversheet, backing sheet and release liner are composed of papers or cardboards, e.g. any pulp of wood or other fibrous products as known in the art. In some embodiments these elements are composed of cloth or other woven materials. Alternatively plastics and other organic polymers may be used. In certain applications metallic foils and alloys may also be advantageous. The filament may also be composed of the above materials and may be the same or different material to the coversheet. The filament may additionally be composed of string, thread or other rope or ribbon-like fibrous materials. Likewise the stripper and pull-tab may be constructed from the variety of materials listed above. 
     The adhesive may be of any type commonly used in the production of stickers and labels. For instance, the adhesive may be permanent, peel able or high tack. The adhesive chosen for each of the surfaces will best suit the task at hand. For instance, a relatively strong bond is needed between the backing sheet and the mailing to ensure fastening, while a relatively weaker bond might be employed between the backing sheet and coversheet so as to facilitate easy release of the cutouts upon drawing of the filament. Any materials and method known in the art which produces a firm bond of the lower surface to a mailing, and a releasable bond between the upper surface and coversheet is contemplated within the scope of the instant invention. 
     The principle advantage of the invention over the art is the combination of simplicity and security features afforded. As the advantage is integral to the invention and does not require extraneous equipment there is minimal incremental cost and no further ongoing costs or requirements. As described, following destruction the text is divided into three physically distinct parts, that on each of the released cutouts, that on the residual framework, and that on the filament. Following document destruction, each separate part contains components of the text indecipherable in its own right, and triply secure due to the combination of features cited herein. The inclusion of an optional shredder further obfuscates the document by destroying each chad as it is released from the filament. 
    
    
     
       BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS 
       The drawings on the first sheet illustrate a first embodiment of the invention, useful in corporate security.  FIG. 1A  details document components in an exploded view, while  FIG. 1B  shows a filled document ready for destruction.  FIG. 1C  illustrates initiation of release of the cutouts and document destruction. 
       The drawings on the second sheet illustrate a second embodiment of the invention, useful in protection of information during mailing.  FIG. 2A  details document components in an exploded view, including an inset ( FIG. 2E ) detailing filament end components.  FIG. 2B  shows a document affixed to a box and enclosed in a mailing pouch.  FIG. 2C  illustrates initiation of release of the cutouts and document destruction, while in  FIG. 2D  only the residual framework remains on the box. 
       The drawings on the third sheet illustrate the typical steps of document destruction.  FIG. 3A  thru  3 E show the steps from a completed document ready for destruction ( FIG. 3A ) through final release of the filament ( FIG. 3D ) and removal of chads with the stripper in  FIG. 3E . 
       The drawings on the fourth sheet illustrate an embodiment of the device, used in the protection of prescription and medical information. In  FIG. 4A  a label of the invention is affixed to a prescription container. Insets ( FIG. 4B  and  FIG. 4C ) detail alternative embodiments of the stripper element. 
       The drawings on the fifth sheet in  FIG. 5  illustrate an embodiment of the device, in which multiple labels are formulated as a single sheet. 
     
    
    
     DETAILED DESCRIPTION OF THE DRAWINGS 
     The following drawings are offered to illustrate, but not to limit the claimed invention. 
     The drawings on the first sheet illustrate a first embodiment of the invention useful in corporate security. Note that the exploded view is used to illustrate the various layers, but in reality the document presents as a uniform surface as seen in  FIG. 1B , which shows a document ( 1 ) ready for destruction.  FIG. 1A  illustrates an exploded view of the document and further illustrates the various elements. The embodiment includes a coversheet ( 2 ) which has been perforated ( 3 ). The perforations form a series of cutouts ( 4 ) which can be released from the coversheet by pulling on the filament ( 5 ), leaving a residual framework ( 6 ). The filament runs through the collar of a stripper ( 7 ) and terminates in an optional pull-tab ( 8 ). In this embodiment the stripper and/or pull-tab is attached to the coversheet by a temporary bond ( 9 ) and is detachable therefrom. In this embodiment the coversheet ( 2 ) is lightly perforated ( 3 ), such that the cutouts ( 4 ) can be easily released by pulling on the filament ( 5 ), but the page ( 1 ) maintains its integrity and usability prior to release.  FIG. 1C  shows release of the cutouts and document destruction. At the time of destruction, the document ( 1 ) may be placed writing down on a flat surface with the filament side up, anchored at a corner or as desired, and the filament ( 5 ) is pulled to release the cutouts, often employing the optional pull-tab ( 8 ). As the print is distributed over the entire surface of the document, by removing the cutouts and the information printed thereon, the print remaining on the residual document framework becomes incomprehensible. Next the stripper is pulled along the length of the cutout bearing filament, and the cutouts are released as chads, completely obliterating any data. This process is further detailed in  FIG. 3 . 
     The drawings on the second sheet illustrate a second embodiment of the invention useful as a solution to the theft of personal information from discarded mailings.  FIG. 2A  shows an exploded view of a mailing label. As in the earlier figure, the invention comprises a coversheet ( 2 ) composed of the residual framework ( 6 ) and the cutouts ( 4 ), a filament ( 5 ) which in this case overlies the coversheet and a stripping device ( 7 ) as described above, but additionally comprises a backing sheet ( 10 ), with optional release liner ( 11 ), which can be adhered to a package, container or mailing ( 12 ). Elements at the terminus of the filament ( 5 ) are detailed in  FIG. 2E , and include the stripping device ( 7 ), an optional pull-tab ( 8 ) and an attachment point ( 9 ). The addition of a backing sheet allows the invention to be attached to items at will. After release of the cutouts ( 4 ), the residual framework ( 6 ) remains adhered to the backing sheet and mailing. As the print is distributed over the entire surface of the label, by removing the cutouts and the information printed thereon, the print remaining on the residual framework attached to the package or mailing becomes incomprehensible. In  FIG. 2B  the mailing label is shown adhered to a box ( 12 ). In this drawing the label is contained within a mailing pouch ( 13 ) and adhered to the box. In  FIG. 2C  label destruction is initiated by drawing the filament ( 5 ) through the stripper ( 7 ) using the pull-tab ( 8 ), resulting in release of cutouts ( 4 ) from the perforated ( 3 ) coversheet ( 2 ) and displacement of chads ( 14 ) from the filament. In  FIG. 2D  the destructed document now composed only of the residual framework ( 6 ) remains adhered to the box. The steps of document destruction are further detailed in  FIG. 3 . The label of the invention is suitable for all forms of shipping and communications requiring a label, including but not limited to a box, letter, parcel, package, mailing tube, posting, delivery, airmail, shipment, document, note, memo, flyer, newspaper, advertising materials etc. 
     The drawings on the third sheet illustrate the sequence of steps in destruction of a typical document of the invention. Starting at the left side,  FIG. 3A  shows a document ( 1 ) ready for destruction. In this embodiment, the stripper and pull-tab are temporarily attached ( 9 ) to the coversheet. In  FIG. 3B  the stripper ( 7 ) and pull-tab ( 8 ) have been released from their attachment ( 9 ) to the coversheet ( 2 ), after pulling lightly on the pull-tab.  FIG. 3C  shows the cutouts ( 4 ) being released from the coversheet as the filament ( 5 ) is drawn by the pull-tab, while in  FIG. 3D  the filament ( 5 ), cutouts ( 4 ) and stripper ( 7 ) are fully separated from the label, leaving the residual coversheet framework ( 6 ) now without cutouts, but still adhered to the underlying backing sheet (not shown in this view, see  FIG. 2 ). Finally in  FIG. 3E  the filament is grasped by the pull-tab ( 8 ) and the stripper ( 7 ) is drawn along the length of the filament ( 5 ), resulting in release of the cutouts ( 4 ) as chads ( 14 ), bearing random pieces of text and destruction of the original printed label. 
     The drawings on the fourth sheet illustrate an embodiment of the device, used in the protection of prescription and medical information. A label of the invention is affixed to a prescription container ( 15 ). This embodiment comprises the elements listed above, including a coversheet ( 2 ), perforations ( 3 ), cutouts ( 4 ), and filament ( 5 ), but to facilitate the label sitting flush with the container, the pull-tab is omitted and the filament end modified stiffened or reinforced ( 16 ). The insets ( FIG. 4B  and  FIG. 4C ) show two embodiments of the filament end/stripper. In  FIG. 4B  the filament has a reinforced end ( 16 ) which is integral to the filament ( 5 ) and which can be utilized as a pull-tab. In this embodiment the stripper ( 7 ) encircles and is folded flat against the filament so as to sit flush with the coversheet and container. The filament end ( 16 ) and stripper ( 7 ) are temporarily adhered to the coversheet ( 2 ) and released by lightly pulling to initiate release of cutouts. In  FIG. 4C  the stripper ( 7 ) is a cylinder which is permanently affixed to the coversheet ( 2 ). Filament and cutout release is performed in situ, with the filament ( 5 ) drawn through the stripper ( 7 ) while it is still attached to the container. 
     The drawings on the fifth sheet illustrate the use of multiple label panels ( 17 ) incorporated into a single sheet ( 16 ). The elements of the invention are as previously described and include coversheets ( 2 ) with cutouts ( 4 ), and interconnecting filaments ( 5 ) with attached strippers ( 7 ) and pull-tabs ( 8 ). As the backing sheet and release liner ( 11 ) are perforated at the edge of each panel, each instance of the label may be independently applied. In the illustration six panels, each comprising a duplicate copy of a label, are shown as one sheet. In the bottom right, a panel with a set of duplicate labels ( 17 ) is shown partitioned from the sheet ( 16 ). The top central panel illustrates the use of multiple filaments on a single label ( 18 ). Filament release results in destruction of information from the upper portion of the panel, but leaves information intact on the lower portion for a later time. Hence each filament can be drawn independently to release cutouts from one or more portions of the coversheets, while leaving the adjacent text intact for a later time. 
     DESCRIPTION OF EMBODIMENTS 
     It is understood that the figures, examples and embodiments described herein are for illustrative purposes only and that various modifications or changes in light thereof will be suggested to persons skilled in the art and are to be included within the spirit and purview of this application and scope of the appended claims. The following examples are offered to illustrate, but not to limit the claimed invention, and none of the limitations implied in the example embodiments should be construed as limiting on the claims. All publications, patents, and patent applications cited herein are hereby incorporated by reference in their entirety for all purposes. 
     As the invention comprises certain optional elements, it can be tailored for each desired use. The pull-tab, shredder, backing sheet and the associated release liner are all optional elements of the invention, with their inclusion or exclusion in each embodiment depending on the application selected. Further the filament may under or overlay the coversheet and numerous mechanisms for attachment of the filament, stripper and/or pull-tab are contemplated. 
     Example 1 
     This example provides a solution to the theft of corporate information, for instance communications produced within a controlled work environment. As shown in  FIG. 1 , the invention comprises a coversheet, a filament and a stripping device and may further comprise an optional pull-tab. In this embodiment the coversheet is lightly perforated, such that the cutouts can be easily released by pulling on the filament, but the page maintains its integrity and usability prior to release. At the time of destruction, the document is placed on a flat surface with the text down, filament side up, anchored at a corner or as desired, and the filament is pulled to release the cutouts. As the print is distributed over the entire surface of the document, by removing the cutouts and the information printed thereon, the print remaining on the residual document framework becomes incomprehensible. Next the stripper is pulled along the length of the cutout bearing filament, sometimes employing the optional pull-tab, and the cutouts are released as chads, completely obliterating any data. The addition of an optional shredder further obfuscates any data. In a preferred embodiment, the filament underlays the coversheet so as to present a uniform upper writing surface. In a further embodiment, the label may contain a single panel with one or more instances of the present invention, or may have multiple panels each featuring zero or more instances of the present invention. The panels may be adjoined or present as individual components. By providing a quick, simple and integrated system to remove all identifying information from a confidential document, the invention provides corporations a way of protecting theirs or their client&#39;s information from capture and abuse. As no extraneous equipment is required and the destruction can be achieved in situ, ease of use and compliance are maximized. The label of the invention is suitable for all forms of confidential communications, including but not limited to letters, documents, notes, memos, drawings, graphics, sketches, graffiti, doodle, cards, sheets, rolls, reams and images. 
     Example 2 
     This example provides a further solution to the theft of corporate information, for instance communications produced within a controlled work environment. As previously, the invention comprises a coversheet, a filament with optional pull-tab, and a stripping device, and further comprises a backing sheet. In this embodiment the backing sheet does not have an adhesive covered lower surface, and the optional release liner is omitted. The addition of the backing sheet supports and strengthens the overlaying coversheet, and affords and more robust document when circumstances require. In this embodiment the coversheet may be more heavily perforated, as the cutouts are supported by and adhered to the underlying, unperforated, backing sheet. In this embodiment the filament overlays the coversheet and comprises a writable surface. In a further embodiment, the label may contain a single panel with one or more instances of the present invention, or may have multiple panels each featuring zero or more instances of the present invention. The panels may be adjoined or present as individual components. Like the previous embodiment, this embodiment finds utility in the protection of all forms of confidential communications, including but not limited to corporate documents. 
     Example 3 
     This example provides a solution to the theft of personal information from discarded mailings and containers. As shown in  FIG. 2 , the invention provides a mailing label comprising a coversheet, a filament, a stripping device and a backing sheet as described above, but in this embodiment the lower surface of the backing sheet is coated with an adhesive, with optional release liner, which can be adhered to a package, container or mailing. The addition of a backing sheet allows the invention to be attached to items at will. In this embodiment the coversheet may be more heavily perforated, as the cutouts are supported by and adhered to the underlying, unperforated, backing sheet. The cutouts may be removed from the coversheet by pulling on the filament and peeling from the backing sheet, separating at the perforations, while the residual framework remains adhered to the backing sheet. As the print is distributed over the entire surface of the label, by removing the cutouts and the information printed thereon, the print remaining on the residual framework attached to the package, container or mailing becomes incomprehensible. In a preferred embodiment the filament overlays the coversheet and comprises a writable surface. In a further preferred embodiment, the label may contain a single panel with one or more instances of the present invention, or may have multiple panels each featuring zero or more instances of the present invention. The panels may be adjoined or present as individual components. In a further preferred embodiment, the label may be enclosed in a mailing bag, behind a mailing window or may be affixed permanently or temporarily thereto. In this embodiment the adhesive lower surface and associated release liner of the backing sheet may be omitted. The bag may include one or more pouches configured to receive shipping labels. In some embodiments of the invention, the bag may include a single pouch that is viewable from either side of the bag, thereby allowing the bag to receive a label for mailing either, or both, to and from the recipient. In some embodiments of the invention, the bag may include a pouch that can be accessed from either side of the bag, or may comprise two or more pouches that may be proximate to each other, or at different locations in the bag. The bag may be closed by any suitable means, including but not limited to a zipper, channel, zip-lock style closure, hook and loop closure, adhesive closure, mechanical closure, etc. By providing a quick, simple and effective way to remove all identifying information from a mailing label, the invention provides both consumers and mailers with a way of protecting theirs or their client&#39;s information from capture and abuse. The label of the invention is suitable for all forms of shipping and communications requiring a label, including but not limited to a box, letter, parcel, package, mailing tube, posting, delivery, airmail, shipment, document, note, memo, flyer, newspaper, advertising materials etc. 
     Example 4 
     This example provides a series of solutions to the theft of personal and industrial medical information. As previously, the invention comprises a coversheet, a filament, a stripping device, sometimes including an optional shredder, and an adhesive backing sheet, which can be adhered to any item bearing private medical information e.g. a package, container, document or mailing. This embodiment contains all of the elements of example three, but has a specialized filament end comprising a pull-tab integral to the filament. The pull-tab is usually a stiffened extension of the filament which lays flush with the coversheet, presenting a uniform surface for printing and after adhesion to a container. In a preferred embodiment the filament overlays the coversheet and comprises a writable surface. In a further preferred embodiment, the label may contain a single panel with one or more instances of the present invention, or may have multiple panels each featuring zero or more instances of the present invention. The panels may be adjoined or present as individual components. Following advances in the genetic sciences and the subsequent introduction of the Health Insurance Portability and Accountability Act of 1996 (HIPAA), the need for better patient information security has never been greater. This embodiment is well suited for use in the protection of prescription and patient information on pharmaceuticals, container, labels, prescriptions and other items containing such sensitive medical information.