Sterilization Monitoring. Monitoring of sterilization procedures
should include a combination of process parameters, including
mechanical, chemical, and biological (247,248,277). These
parameters evaluate both the sterilizing conditions and the
procedure's effectiveness.
Mechanical techniques for monitoring sterilization include
assessing cycle time, temperature, and pressure by observing
the gauges or displays on the sterilizer and noting these
parameters for each load (243,248). Some tabletop sterilizers
have recording devices that print out these parameters. Correct
readings do not ensure sterilization, but incorrect readings
can be the first indication of a problem with the sterilization
cycle.
Chemical indicators, internal and external, use sensitive
chemicals to assess physical conditions (e.g., time and temperature)
during the sterilization process. Although chemical indicators
do not prove sterilization has been achieved, they allow detection
of certain equipment malfunctions, and they can help identify
procedural errors. External indicators applied to the outside
of a package (e.g., chemical indicator tape or special markings)
change color rapidly when a specific parameter is reached,
and they verify that the package has been exposed to the sterilization
process. Internal chemical indicators should be used inside
each package to ensure the sterilizing agent has penetrated
the packaging material and actually reached the instruments
inside. A single-parameter internal chemical indicator provides
information regarding only one sterilization parameter (e.g.,
time or temperature). Multiparameter internal chemical indicators
are designed to react to >2 parameters (e.g., time and
temperature; or time, temperature, and the presence of steam)
and can provide a more reliable indication that sterilization
conditions have been met (254). Multiparameter internal indicators
are available only for steam sterilizers (i.e., autoclaves).
Because chemical indicator test results are received when
the sterilization cycle is complete, they can provide an early
indication of a problem and where in the process the problem
might exist. If either mechanical indicators or internal or
external chemical indicators indicate inadequate processing,
items in the load should not be used until reprocessed (134).
Biological indicators (BIs) (i.e., spore tests) are the most
accepted method for monitoring the sterilization process (278,279)
because they assess it directly by killing known highly resistant
microorganisms (e.g., Geobacillus or Bacillus species), rather
than merely testing the physical and chemical conditions necessary
for sterilization (243). Because spores used in BIs are more
resistant and present in greater numbers than the common microbial
contaminants found on patient-care equipment, an inactivated
BI indicates other potential pathogens in the load have been
killed (280).
Correct functioning of sterilization cycles should be verified
for each sterilizer by the periodic use (at least weekly)
of BIs (2,9,134,243,278,279). Every load containing implantable
devices should be monitored with such indicators (248), and
the items quarantined until BI results are known. However,
in an emergency, placing implantable items in quarantine until
spore tests are known to be negative might be impossible.
Manufacturer's directions should determine the placement
and location of BI in the sterilizer. A control BI, from the
same lot as the test indicator and not processed through the
sterilizer, should be incubated with the test BI; the control
BI should yield positive results for bacterial growth.
In-office biological monitoring is available; mail-in sterilization
monitoring services (e.g., from private companies or dental
schools) can also be used to test both the BI and the control.
Although some DHCP have expressed concern that delays caused
by mailing specimens might cause false-negatives, studies
have determined that mail delays have no substantial effect
on final test results (281,282). -- Learn
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