Chemical apparatus and process disinfecting – deodorizing – preser – Physical type apparatus – Apparatus for treating solid article or material with fluid...
Reexamination Certificate
2000-10-02
2002-10-22
Thornton, Krisanne (Department: 1744)
Chemical apparatus and process disinfecting, deodorizing, preser
Physical type apparatus
Apparatus for treating solid article or material with fluid...
C206S363000, C206S370000, C422S297000
Reexamination Certificate
active
06468482
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates, in general, to a method for sterilizing medical instruments with steam and, in particular, to a sterilization container useful for flash sterilization and gas plasma sterilization, which includes a filter that permits maximum steam or gas sterilant penetration and prevents microorganisms and dust from entering, and which permits for stat flash sterilization by restricting the volume, and therefore the mass, of instruments placed into the container by utilizing a basket which fits into the container.
2. Description of Related Art
Steam sterilization is a common method used for the sterilization of items, especially medical instruments by processing the items in an autoclave and exposing them to high-pressure steam. This method requires the wrapping of individual items, heating the items with steam and then waiting for a drying/cooling period. Often during surgical procedures commonly used instruments are needed on a “stat” basis, i.e., the instruments-need to be quickly sterilized after use or inadvertent contamination. Under such circumstances the standard autoclave method would take too long. An alternative sterilization method, which can be used under these circumstances, is known as flash sterilization. In flash sterilization metal instruments are not wrapped but are heated directly by the steam allowing sterilization in a reduced period of time. One drawback to the use of flash sterilization is the lack of a drying period. When the items are still moist and hot from sterilization, microorganisms and dust can contaminate the items when they are transported from the autoclave/sterilizer. Nevertheless, flash sterilization results in reduced exposure time.
Sterilization time can also be reduced by limiting the amount of instruments placed into the sterilization container. If too many instruments with too much mass are placed into the sterilization container, “stat” sterilization will not be effective. One method to restrict the amount of instruments placed into the sterilization container is to weigh the instruments. Weighing of instruments, however, can be time consuming in itself and difficult to control given the various sizes, shapes and odd surface areas of medical instruments.
One common design for containers for flash sterilization is described in U.S. Pat. Nos. 5,097,865 and 4,748,003. Such containers use valves which require greater than atmospheric pressures to open the valves and allow the high-pressure steam to enter the container but are closed under normal pressure conditions. This approach has a number of disadvantages. Such containers must be opened to allow the steam to escape, thus breaking the sterile field. Even if kept sealed, these containers cannot maintain the sterile field for longer than 24 hours. Also, the high temperature, high-pressure valves needed for this method are very complex and very expensive. In addition, such containers do not provide an indication as to whether or not the valve properly functioned to allow the high pressure steam to enter the container.
In addition to flash steam sterilization the industry is beginning to use gas plasma as an alternative. One commercially available gas plasma system is sold as STERRAD® by Advanced Sterilization Products, a division of the Johnson & Johnson Company. Gas plasma has known advantages over steam sterilization, including sterilizing at a lower temperature than required for steam sterilization, which is beneficial when sterilizing temperature-sensitive devices. However, it has been learned that frequently the sterilizing gas plasma does not reach all important surfaces on the inside of the sterilization container, especially where long tubular instruments or cables are contained. Accordingly, there are believed to be very few, if any, sterilization containers approved for use with gas plasma, especially in the mid-size range. Clearly a technique is missing in the prior art to guarantee satisfactory circulation of gas plasma within a sterilization container, especially where it is critical to reach the edges and corners of the interior of the sterilization container and to penetrate internal components such as laparascopic guides and tubing. The present invention, however, maintains its efficacy when utilized with gas plasma as the sterilant.
SUMMARY OF THE INVENTION
Briefly described, the invention comprises a sterilization container and a flash sterilization method for sterilizing items, which allow for extended, sterile storage of the sterilized items. The flash sterilization method uses a sterilization container having a pan, a cover and one or more filters for preventing dust and microorganisms from entering the container and contaminating the sterilized items while still allowing steam or gas plasma in and out of the container during the sterilization process. These containers can be used in the flash sterilization process commonly used in surgical theaters. The filter can be permanently mounted in the container or can be removable for replacement with new or different types of filters. Removable filters will allow for the retrofitting of currently used containers with the filters so that new containers do not need to be purchased to take advantage of the filtered flash sterilization method of the present invention. The filter can be removably attached to the container, manufactured as an integral part of the container, or incorporated into a self-contained removable filter unit.
A filter is attached to the sterilization container through a filter retainer. The filter retainer has a plurality of steam penetration holes which can be of various sizes and shapes allowing sufficient steam to enter the container. The filter retainer also comprises one or more gaskets for maintaining a seal between the filter retainer and the sterilization container as well as a locking means for removably attaching the retainer to the container.
Another aspect of the present invention allows for instruments to be sterilized on a “stat” basis by utilizing a basket which limits the amount of instruments that can be placed into the container for sterilization. When instruments need to be sterilized on a “stat” basis, for example, because the instrument became contaminated during the surgical procedure and no other such instrument is available, the time required to sterilize the instrument can be drastically reduced by limiting the amount or volume of instruments sterilized through utilization of a size restricted basket containing the instruments which would fit into the sterilization container. This indirectly limits the total mass of instruments to be sterilized, which in turn, reduces the sterilization time.
Another alternative embodiment of the invention provides for a single set of vent holes in the center of the lid, or cover, of the container and two sets of vent holes, arranged in a circular fashion, located in the base of the pan or bottom of the container. The second and third sets of vent holes in the base are located on opposite sides of the minor axis center line of the base in such a way that they do not overlap. Gas plasma passing through the first set of vent holes in the lid is then forced to travel to the extremes of the container in order to be exhausted thereby guaranteeing that all parts of the tray or sterilizable instruments on the inside come into contact with the gas plasma as well as the edges and comers and interior of the container.
According to yet another embodiment of the invention, a pair of vent means, comprising a first and fourth set, are located in the lid in a manner similar to the way the second and third set of vent holes are located in the base. This also helps to guarantee thorough circulation of the gas plasma within the container. These two improvements are especially suited for use with mid-size sterilizable containers that employ gas plasma as the sterilizing agent. This invention, however, enhances the efficacy of all methods of sterilization, including steam sterilization and gas plasma ster
Frieze Allan S.
Frieze Marcia A.
Kislevitz Kate
Case Medical, Inc.
Thornton Krisanne
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