1. Field of the Invention
The present invention relates to an instrument holder and method of sterilization of medical instruments. More particularly, the present invention relates to a pouch for insertion and retention of medical instruments and a method of sterilization of the instruments therein using steam and/or ethylene oxide.
2. Description of the Related Art
Various packaging and containers into which small medical instruments such as clamps, scissors, retractors, pliers, and the like, are placed during steam and/or ethylene oxide (EO) sterilization are known. Currently in the field, paper and plastic pouches, called peel pouches are widely used. These rectangular pouches, such as Converters® Paper Tubing (Cat. T97006) available from Cardinal Health, McGaw Park, Ill., have paper on one side and clear plastic on the other allowing view of items once inserted therein. Instruments are inserted by one end into the narrow top opening of the peel pouch, and down into the length of pouch. After sterilization, the pouch is opened by pulling apart the paper and plastic sides.
Additionally in the art are instrument holders that provide an open-ended pocket or plurality of pockets with each individual pocket receiving an instrument, in order to protect instrument tips from puncturing the holder or injuring a user or from becoming damaged or dulled themselves. See U.S. Pat. No. 4,385,692 to Eldridge, Jr.; U.S. Pat. No. 4,342,390 to Mitchell et al, Additionally, instrument pouches with this arrangement in the field of H2O2 gas plasma sterilization are likewise known. See U.S. Pat. No. 6,391,260 to Davis et al.
These existing instrument holders and pocket organizers are problematic, specifically when inserting instruments and items into the small opening of the various pockets of the holder or at one end of the vertical length of the peel pouch. Instruments tend to stick within these long holders and pouches upon insertion and removal, and this becomes particularly problematic when it comes time to quickly remove them for use through the narrow opening at one end. As such, instruments cannot be accessed quickly and/or may become contaminated in the struggle to remove them.
In addition to insertion and removal impediments, peel pouches currently available in the art have the additional problems of inadequate sterilization when used within wrapped sets or containers as the pouches cannot be positioned to ensure adequate air removal, steam contact, and drying. See The Association for Advancement of Medical Instruments (ANSI/AAMI), ST46, p. 31, 5.6.2.4 Paper/plastic Pouches (2002). Clearly there remains a need in the art for pouches appropriate for use with wrapped sets or containers and/or moist heat (steam) or ethylene oxide (EO) sterilization of medical instruments.
In one aspect of the present invention, an instrument holder comprising at least one pouch having a first layer, a second layer defining an opening and a flap extending from either the first or second layer and receiving at least one instrument laterally into the opening of the pouch or pouches, the flap folding over to close the pouch, is provided.
In one aspect of the present invention, a sterilizing set for holding instruments to be sterilized comprising at least one pouch, each pouch having a first layer and a second layer defining an opening for receiving at least one instrument inserted laterally into the opening of the pouch, and a flap extending from either the first or second layer, the flap folding over to close the pouch; and a sterilization wrap to cover, enclose or wrap the pouch or pouches during sterilization, is provided. In another aspect of the present invention, a method of sterilizing instruments comprising at least one pouch, each pouch having a first layer and a second layer defining an opening and a flap extending from either the first or second layer; inserting laterally at least one instrument into the opening of the pouch or pouches; folding the flap over the opening of each pouch to close the instrument or instruments in the pouch or pouches; and placing the pouch or pouches into a sterilization unit, is provided.
The subject invention is also directed to a pouch for protecting delicate medical instruments during sterilization and transport to an operating room. This pouch, which is particularly well adapted for use during ethylene oxide and steam sterilization procedures, includes a generally rectangular envelope-like structure formed by opposed front and rear panels that are attached to one another along bottom and side edges. The rear panel of the envelope-like structure has a generally trapezoidal flap portion that extends above a top edge of the front panel to enclose the pouch when a medical instrument is placed inside for sterilization and/or transport. Preferably, the pouch is formed from a firm hydrophobic foam material. It is envisioned that this pouch can have a broad range of sizes, but in one particular instance, the envelope-like structure has a length of about 12″ and a depth of about 5″ so that it is dimensioned to hold a fairly broad range of medical instruments.
These and other aspects of the instrument protector pouch and methods of using the same will become more readily apparent to those having ordinary skill in the art from the following description of the invention taken in conjunction with the drawings described hereinbelow
So that those having ordinary skill in the art to which the subject invention pertains will more readily understand how to make and use the subject invention, preferred embodiments thereof will be described in detail hereinbelow with reference to the drawings, wherein:
According to the present invention, a method of retaining instruments during sterilization process and additionally, for storing and protecting instruments afterwards so they remain sterile until needed for use is provided as an instrument holder comprising at least one pouch. In one aspect of the present invention, the pouch has an edge or length of the pouch, which is greater than at least two other lengths defining an opening for lateral insertion of at least one instrument.
In another aspect of the present invention, a method of steam or ethylene oxide sterilization is provided where the instrument pouch receives at least one instrument. In another aspect of the present invention, a sterilization set comprising at least one pouch and sterilization wrap to cover, enclose or wrap each pouch singly and/or wrap each pouch together, is provided. In another aspect of the present invention, a method of sterilization is provided using at least one pouch contained in a wrapped set, tray or container, which is placed in the sterilization unit.
Pouch and any and all components of the pouch or instrument holder according to the present invention, such as flap and layers, may be made of any suitable material appropriate for use in a sterilization process. The material may be penetrated by sterilant to achieve adequate sterilization of instrument or instruments therein and later provide adequate air removal and drying instrument or instruments therein after sterilization. Suitable materials may include foam, plastic, paper, and any other materials that may be flexible, reticulated, perforated, porous, and/or cellular. Preferably, the pouch and any and all components thereof are at least partially made of foam. An example of foam preferentially employed in the present invention is molded urethane foam available from the Wm T. Burnett & Co. Foam Division, Jessup, Md. (Polyester Polyurethane Foam No. S82N). The pouch and any and all components of the pouch or instrument holder according to the present invention may be formed by any appropriate means including but not limited to techniques of molding, cutting, heat sealing, and/or radio frequency (RF) welding.
Referring to
In one aspect of the present invention, opening 30 is disposed on edge 26 of pouch that defines the longest length of pouch 10. As shown in
Referring to
Additionally, adjacent to top edge 126, flap 120 extends upward from second layer 116. Top edge 126 and second layer 116 together define the opening 130 of pouch 100 that is capable of receiving at least one instrument 112 when in open position. Extending upward from the second layer 116 is flap 120. In one aspect of the present invention, the opening 130 is disposed on the edge 126 of pouch that is longer than at least two other edges, and further may be longer than all other edges, as shown in
Referring again to
Flap 120 is adhered to first layer 114 by use of a suitable closure or attachment means, such as tape 140, as shown in
In another aspect of the present invention, sterilization indicator may be disposed on the pouch to indicate when sterilization is complete, typically by a color change. Referring to
Referring to
Alternatively, as shown in
In another aspect of the present invention, sterilization indicator may be separate from the pouch and disposed on or within the tray or closed container. Sterilization indicator disposed on or within the tray or container may be in addition to sterilization indicator 134 disposed on the pouch.
The sterilization pouch of the present invention is preferably made at least partially, and more preferably entirely of foam, or a similarly sterilant-penetratable and dryable material that will ensures proper sterilization, by providing adequate sterilant (such as steam) contact, during sterilization and air removal and drying after sterilization (by steam or ethylene oxide sterilization). Preferably, the pouch is formed from a firm hydrophobic foam material. The use of foam or other like material to construct the pouch additionally protectively cushions instruments and prevent them from bouncing around when they are placed in wrapped sets or containers for sterilization.
Referring to
Referring to
Preferably, the pouch of the present invention has four edges (quadrilateral), with the opening disposed on the edge that is longer or greater in dimension than at least two of the other three edges. In one example, pouch may be substantially rectangular in shape, flap extending from one rectangular layer, noting the “top” of the pouch. In this example, two side edges of substantially equal length would measure approximately two inches to approximately six inches, and top and bottom edges with substantially equal lengths would measure five to twenty-eight inches, with opening disposed along the top edge, which is longer or greater in dimension than the two sides. This results in various possible pouch sizes, in height by length, including but not limited to: 3″ by 5″; 2″ by 20″; 5″ by 9½″; and 6″ by 28″.
While it is envisioned that the envelope-like rectangular pouch can have a broad range of sizes, in one particular instance, the structure has a length of about 12″ and a depth of about 5″ so that is dimensioned to hold a fairly broad range of medical instruments.
In another example, the pouch may be substantially trapezoidal in shape, with the opening disposed along the edge longer than the other three edges. In this example, the dimensions would change for the bottom edge, resulting in various possible pouch sizes, in height by top length and bottom length, including but not limited to, 3″ by 5″ top and 1½″ bottom; 2″ by 20″ top and 14″ bottom; 5″×9½″ top and 4″ bottom; and 6″ by 28″ top and 20″ bottom.
In one aspect of the present invention, at least one pouch is placed in sterilization tray or basket as part of a wrapped set to be placed in sterilization unit for sterilization. Sterilization wrap, such as KIMGUARD, commercially available from Kimberly-Clark Health Care, Roswell, Ga., is placed over and/or around the tray to enclose the at least one pouch therein. In another aspect of the present invention, at least one pouch may be placed in a container, which is closed with a lid when placed in sterilization unit. In another aspect of the present invention, a sterilization set includes at least one pouch with an opening in its long dimension side for receipt of at least one instrument to be sterilized, and a sterilization wrap to enclose the at least one pouch before placement in the sterilization unit.
In another aspect of the present invention, pouch may be used to hold a count sheet. Depending on size of pouch used, user may have to first fold count sheet, place it in pouch, fold over flap and tape shut for placement in the sterilization unit. The term “sterilization unit” refers to any machine or apparatus utilizing any process, including but not limited to steam, gas, and plasma, for sterilizing and decontaminating medical instruments according to the present invention, currently known and which may be developed in the future.
The present invention overcomes problems in the art related to inadequate steam penetration of the traditional paper and plastic pouches in wrapped sets or containers and difficulty of vertical insertion of instruments into sterilization pouches into a shorter edge of the pouch. The present invention provides a low profile and light-weight instrument holder and pouch achieving exceptional sterilization results. Further, preferable construction of the pouch with foam or other like material, cushions and protects instruments inserted in the pouch and provides a sterile storage means as instruments may be left in the pouch until time for use.
The pouch according to the present invention may be used in wrapped sets, closed containers or wrapped individually in sterilization wrap for placement in a sterilization unit. The present invention additionally provides a method of sterilization using the pouch in closed containers, and wrapped sets, or providing pouch alone or pouches wrapped in sterilization wrap.
The above description is for the purposes of teaching the person of ordinary skill in the art how to practice the present invention, and it is not intended to detail all those obvious modifications and variations of it which will become apparent to the skilled worker upon reading the description. It is intended, however, that all such obvious modifications and variations be included within the scope of the present invention, which is defined by the following claims. The claims are intended to cover the claimed components and steps in any sequence, which is effective to meet the objective there intended, unless the context specifically indicates to the contrary.