Chemistry: molecular biology and microbiology – Apparatus – Including measuring or testing
Reexamination Certificate
1995-05-18
2003-09-23
Guzo, David (Department: 1636)
Chemistry: molecular biology and microbiology
Apparatus
Including measuring or testing
C435S031000, C435S038000, C435S810000, C422S051000, C422S051000, C422S051000, C422S067000, C422S067000, C422S086000
Reexamination Certificate
active
06623955
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a rapid method for determining the efficacy of a sterilization cycle. In particular, the present invention employs an enzyme whose activity can be correlated with the viability of at least one microorganism commonly used to monitor sterilization efficacy, hereinafter referred to as a “test microorganism”. The enzyme, following a sterilization cycle which is sublethal to the test microorganism, remains sufficiently active to react with an enzyme substrate in a relatively short period of time, e.g., normally eight hours or less. However, the enzyme is inactivated or appreciably reduced in activity following a sterilization cycle which is lethal to the test microorganism. The invention further relates to biological sterility indicators which include such an enzyme.
BACKGROUND OF THE INVENTION
Biological indicators and chemical indicators used to determine the efficacy of sterilization are well known in the art. In conventional biological indicators, a test organism which is many times more resistant to the sterilization process employed than most organisms which would be present by natural contamination, is coated on a carrier and placed in a sterilizer along with the articles to be sterilized. After completion of the sterilization cycle, the carrier is incubated in nutrient medium to determine whether any of the test organism survived the sterilization procedure. Growth of a detectable number of organisms normally takes a minimum of twenty-four hours. During this period, the supposedly sterilized articles should be quarantined.
In frequent practice, however, the hospital has neither the space for proper quarantining of the supposedly sterilized articles, nor a sufficient number of the articles themselves to permit actual quarantining. As a result, the supposedly sterilized articles are placed back into stock on the assumption that sterilization was proper and will be confirmed by a subsequent report from the laboratory.
Commercially available chemical indicators utilize chemicals which indicate sterility by color changes, or change from solid to liquid state. The advantage to such chemical indicators is that the results are known by the end of the sterilization cycle. However, those results indicate only, as in the device described in U.S. Pat. No. 4,448,548, that a particular temperature has been reached for a certain period of time; or, as in U.S. Pat. No. 4,348,209, that ethylene oxide gas was present. These devices do not indicate whether all conditions necessary to inactivate the test organism have been achieved. Only the living organism can sense the true relationships of physical and chemical parameters necessary to affect sterilization. Therefore, it is recognized in the art of sterilization that biological tests are the most accurate sterility tests.
There remains a need for a sterility indicator which will provide rapid results, yet provide a high level of confidence that all parameters, necessary to achieve sterilization, including the interrelated parameters of time, temperature and concentrations of moisture, chemicals or radiation dose, have been reached.
SUMMARY OF THE INVENTION
The present invention provides a method of determining the efficacy of a sterilization cycle, whether the sterilizing media be steam, dry heat, radiation, ethylene oxide, or other gaseous or liquid agents, which combines the reliability of the conventional biological indicators with a speed closer to that of the chemical indicators. The present invention provides methods and devices for indicating sterilization efficacy which, in most cases, can indicate sterilization failure within eight hours.
The method of the present invention comprises
a) subjecting to a sterilization cycle a source of active enzyme, said enzyme having activity which correlates with the viability of at least one microorganism commonly used to monitor sterilization; and
b) incubating the enzyme source, following the completion of the sterilization cycle, with an effective amount of a substrate system for that enzyme, which system is capable of reacting with any residual active enzyme to produce a detectable enzyme-modified product.
The reaction mixture is then evaluated in, e.g., a fluorometer or a colorimeter, to determine the presence of any enzyme-modified product. The existence of detectable enzyme-modified product above background within an established period of time (dependent upon the identity of the enzyme and the substrate, the concentration of each, and the incubation conditions) indicates a sterilization failure. The lack of detectable enzyme-modified product within the established period of time indicates a sterilization cycle which has been lethal to the test organism and is therefor adequate.
The source of active enzyme may be the purified enzyme isolated from an organism, or may be a microorganism, which may itself be one commonly used to monitor sterilization, such as
Bacillus stearothermophilus
or
Bacillus subtilis
. When such a microorganism is used as the enzyme source, the method of the present invention may include the step
c) incubating any of the microorganisms which remain viable, following the completion of the sterilization cycle, with an aqueous nutrient medium capable, with incubation, of promoting growth of viable microorganisms, and a detector material capable of undergoing a detectable change in response to growth of the microorganisms, under conditions suitable to promote growth of viable microorganisms.
The present invention further provides rapid read-out sterility indicators useful in practicing the above-described methods. One such sterility indicator comprises:
a) an outer container having liquid impermeable and substantially non-gas absorptive walls, the container having at least one opening therein, with a gas-transmissive, bacteria-impermeable means covering the opening; and
b) contained within the outer container, a detectable amount of an isolated active enzyme whose activity correlates with the viability of at least one microorganism commonly used to monitor sterilization.
Another rapid-read out sterility indicator comprises:
a) an outer container having liquid impermeable and substantially non-gas absorptive walls, the container having at least one opening therein, with a gas-transmissive, bacteria-impermeable means covering the opening;
b) contained within the outer container, a source of active enzyme in a detectable concentration, the enzyme having activity which correlates with the viability of at least one microorganism commonly used to monitor sterilization; and
c) also contained within the outer container an effective amount of an enzyme substrate system capable of reacting with active enzyme to produce a detectable enzyme-modified product.
The ability of the present invention to rapidly determine the efficacy of a sterilization cycle is based upon the discovery that
1) certain enzymes remain active following a sterilization cycle which is marginally sufficient to kill the test microorganism whose viability correlates with the enzyme's activity; and
2) the enzyme activity following the marginal sterilization cycle is sufficient to convert a substrate system for that enzyme to a detectable concentration of product within a relatively short period of time, e.g., generally less than about eight hours.
Where a test microorganism is used along with, or as the source of, the enzyme, very low numbers of the test microorganism can survive the marginal sterilization cycle. However, there is sufficient enzyme activity associated with the inactivated microorganisms to indicate a sterilization failure.
The enzyme detection method of the present invention acts as a fail safe in marginal sterilization cycles because the enzymes of the present invention are more resistant to sterilization conditions than the test microorganism. In less complete sterilization cycles the existence of detectable enzyme-modified product, and, hence, the existence of enzyme activity can be used to predict the survival or viability of the tes
Foltz William E.
Matner Richard R.
Woodson Lewis P.
Boeder Jennie G.
Guzo David
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