Sterilization
is
a process, by which living organisms are killed or removed to the extent that
they are no longer detected by standard culture media which have previously
been found to proliferate.
Commonly used methods for sterilization are
1. Physical methods
2. Chemical methods
·
Thermal (heat) methods
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a. Dry heat sterilization
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b.Moist heat sterilization
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·
Radiation method
(Gamma
rays & UV light)
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·
Filtration method
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2.
Chemical methods
Gaseous
method
(Ex: Formaldehyde, Ethylene oxide)
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Methods
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Mechanism
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Merits
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Demerits
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Applications
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Heat sterilization
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Oxidation and protein denaturation
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Most widely used and reliable method of
sterilization, involving destruction of enzymes and other essential cell
constituents.
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Can be applied only to the thermostable
products.
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Dry heat is applicable for sterilizing
glasswares and metal surgical instruments and moist heat is the most
dependable method for decontamination of laboratory waste and the
sterilization of laboratory glassware, machine parts,media, and reagents.
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Gaseous sterilization
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Alkylation
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Penetrating ability of gases
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Gases being alkylating agents are potentially
mutagenic and carcinogenic
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Ethylene oxide gas has
been used widely to process heat-sensitive devices.
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Radiation sterilization
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Ionization of nucleic acids
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It is a useful method for the industrial
sterilization of heat sensitive products.
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Undesirable changes occur
in irradiated products,an example is aqueous solution where radiolysis of
water occurs.
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Radiation sterilization is generally applied
to articles in the dry state; including surgical instruments, sutures,
prostheses, unit dose ointments, plastics
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Filtration sterilization
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Does not destroy but removes the
microorganisms
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It is used for both the
clarification and sterilization of liquids and gases as it is capable of
preventing the passage of both viable and non viable particles.
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Does not differentiate between viable and non
viable particles
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This method is Sterilizing grade filters are
used in the treatment of heat sensitive injections and ophthalmic solutions,
biological products and air and other gases for supply to aseptic areas.
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Biological indicators (BI)
Biological indicators are
devices (class 2) for monitoring sterilization process, that consists of a standardized population of micro organisms
with a known resistance to the mode of sterilization,
placed in or on a carrier and enclosed in a protective package.
The most important
characteristic of biological indicators is the level of resistance, this is
known as decimal reduction value (D value).The D value is the time taken to
reduce the population of a known microorganism by 1 log (or 90% of the population).D values will vary according to the
resistance of microorganisms and the population challenge.
Uses of Biological indicators
vBiological indicators are being used to monitor the effectiveness of a
sterilization process (A negative BI result when incubated under a suitable
conditions along with a positive control indicates the efficiency of a
sterilization process).
They are only process
indicators that directly monitor the lethality of a given sterilization
process.
v To validate the performance of
a sterilization equipment.
Choice of Biological
indicators for different sterilization process
A single species of bacterial
endospores are not universally used to monitor all modes of sterilization,
because the resistance of different species of endospores varies and depends on
the mode of sterilization.
Biological indicators for different sterilization process are
tabulated below
Biological
indicators for steam sterilization
(moist heat)
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Geobacillus stearothermophilus (formally
known as Bacillus stearothermophilus)
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Biological indicators for dry
heat sterilization
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Bacillus atrophaeus (formally known as
Bacillus subtilis)
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Biological indicators for Ethylene oxide sterilization
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Bacillus
atrophaeus (formally known as
Bacillus
subtilis)
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Biological indicators for Ionizing radiation
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Bacillus pumilus
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Biological indicators (BIs) are
considered the highest level of sterility assurance because they actually test
the sterilizer’s ability to kill specific strains of highly resistant organisms.
Commercially available BIs are non-pathogenic. The target population for
biological indicator is >106 .Because it is generally accepted that
“devices purporting to be sterile” such as an autoclave, are designed to achieve
a 10-6 probability (i.e. there is less than one chance in a million
that a microorganism would survive the sterilization process).
The most important
characteristics of a biological indicator is that sporulation must definitely
occur on a defined medium and the survivors form easily countable colonies. Without
possessing these characteristics, the biological indicator is off little value.
As this is a critical parameter, it is recommended that a positive control be
run along with each test of biological indicators.
All biological indicators must
come with a certificate of conformity. The certificate should indicate the
population,D-value and purity of the organism.