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STERILIZATION METHODS |
WHAT CAN BE ETO STERILIZED
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HISTORY
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Ethylene Oxide (EtO or EO) Sterilization in Healthcare Facilities
All
of us involved in patient care face the challenge of protecting
patients and healthcare staff from infectious disease. We must therefore
employ effective agents to disinfect and sterilize instruments and
equipment.
Ethylene
oxide (EtO or EO) sterilization plays an important role in an effective
healthcare infection control program because of its reliability
and gentleness.
Comparison
of Various Methods of Sterilization
The
most widely used healthcare sterilant in the world, steam effectively
kills micro-organisms, works quickly and is cheap. Although it leaves
no residue and is non-toxic, steam uses both pressure and high temperatures
to achieve sterility, which can be very damaging to sensitive equipment.
Liquid
disinfectants, such as glutaraldehyde and peracetic acid, are widely
used in healthcare facilities; however, they can't be used for all
medical materials. The cycle times and concentrations typically
used only provide disinfection, which can fail to kill resistant
microorganisms. The solutions are highly corrosive, toxic, and cannot
be used with barrier packaging. The moment an instrument is removed
from the liquid, its sterility is compromised.
 Over
20,000 healthcare facilities worldwide use Ethylene oxide sterilizers
to process sensitive instruments which cannot be adequately
sterilized by other methods. EO, a potent, anti-microbial agent,
can kill all known viruses, bacteria and fungi, annihilating
even the most sterilization-resistant types of microorganisms,
bacterial spores. Tough on microbes, ethylene oxide still treats
most medical materials gently, even with repeated use. The ability
to seal items in all-plastic packaging permits sterility maintenance
for an indefinite period following gas sterilization.
As with any other sterilization process, ethylene oxide must
be used carefully. Because ethylene oxide is a toxic substance,
users must pay attention to correct usage guidelines to avoid adverse
effects for operators or patients. Since the gas actually dissolves
in porous substances, aeration is required after sterilization to
remove residues. Because pure ethylene oxide is a flammable ether,
care must be taken to prevent its ignition.
Instruments
which are Frequently Gas Sterilized
Instruments
frequently gas sterilized in healthcare facilities include:
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Fiberoptic endoscopes, surgical telescopes
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Ophthalmic instruments
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Plastic instruments (e.g., specula, syringes)
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Anesthesia masks and circuits
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Rubber and plastic tubing (e.g., catheters)
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Electrical equipment (e.g., drills, pumps, motors)
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Respirators and inhalation therapy supplies
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Surgical staplers/staples, sutures, sharps
Some
of these items may be steam-autoclaved, but the high heat, moisture
and pressure of the process often causes rapid deterioration in
their quality. Many plastic instruments such as speculi can be reused
almost indefinitely when they are gas sterilized. Similarly, fiberoptic
endoscopes may be resterilized with gas, without any adverse effect.
History
of EtO Use
Ethylene
oxide boasts nearly a seventy-year history of use in health care
facilities and the medical device industry. First described as an
insecticide in 1928, it became widely used in the U.S. as a fumigant
for imported agricultural products during the subsequent decades.
In the early 1950's, Dr. Charles Phillips, working at the U.S. Army
research center at Fort Dietrick, Maryland, thoroughly investigated
the microbicidal potential of ethylene oxide. He published a series
of articles leading to its adoption as a sterilant by the medical
device industry. Today, American medical device manufacturers sterilize
over half the goods they produce with Ethylene oxide.
Like
many other beneficial chemicals, ethylene oxide is produced through
the petroleum refining process. Although medical, cosmetic and
spice sterilization consume approximately 8 million pounds of
EO annually in the U.S., the most common application for the
chemical is in making other chemicals. The chemical industry
outputs a total of 9 billion pounds of ethylene oxide for
this purpose. EO is a crucial ingredient in the
production of Ethylene Glycol, which is the main ingredient
in automotive antifreeze. Other important products in which
ethylene oxide plays a key role in manufacturing include soaps,
detergents and shampoos.
Characteristics
of EO
EO
is a tiny molecule in which two carbon and four
hydrogen atoms are joined to one oxygen atom in a highly strained
ring. Because of the chemical's very low boiling point (10.4ºC),
it becomes active at room temperature. It vaporizes and permeates
rapidly through packaging, dissolving in substances like plastic
and rubber. EO readily kills all types of microorganisms under
ordinary atmospheric conditions. Its fragile molecular bonds
allow it to quickly react with a wide variety of compounds.
The resulting chemical reaction is called alkylation.
Requirements
for EO Sterilization
Effective
sterilization requires careful attention to
the six main conditions for ethylene oxide use.
(1)
Although highly penetrative, ethylene oxide must have an unobstructed
path to be able to sterilize the interior of devices. Complex instruments
must be disassembled
for sterilization, so that the gas may penetrate the most remote
recesses. Caps, plugs or stylets must be removed prior
to sterilization.
(2)
Biological matter residues on instruments can shield microorganisms
from EO's lethal effects. Thoroughly wash and dry instruments
prepared for gas sterilization to meet the standard of surgical
cleanliness.
(3)
Use appropriate wrapping materials for gas sterilization: paper,
cloth or EO-permeable plastic. These materials allow EO to
diffuse into the package to sterilize the contents. If the instruments
will be used in an operating
room, they may be double-wrapped, according to the traditional
method for sterilization. Paper or cloth wrapping materials
are not impervious
to microorganisms and therefore
typically require reprocessing at predetermined intervals.
(4) A sufficient dose of ethylene
oxide must be used for an adequate length of time to kill the most
resistant microorganisms.
(5)
Adequate humidity must be present to facilitate the process. Desiccated
organisms may become resistant to ethylene
oxide sterilization.
(6)
The dose of ethylene oxide required depends on the temperature of
the process. The higher the temperature, the lower the
dose of EO that will be necessary to sterilize.
Personnel
Considerations when using EO
In
all sterilization procedures it is important that all staff involved
in the operation of the sterilizer are fully instructed in the correct
operating procedure before using the equipment.
Andersen
Products ensures that all staff involved in the operation
of its sterilizers are fully instructed in correct
procedures. |
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Ethylene
Oxide exposure indicators are available to measure
OSHA compliance.. |
Training
manuals and other relevant reference materials must be readily
available. AAMI (the Association for the Advancement of Medical
Instrumentation) produced a document entitled "Good Hospital
Practice: Ethylene Oxide Gas-Ventilation Recommendations and
Safe Use" in 1992, much of which is still valid today. This
document provides detailed advice on how to operate an EO sterilization
system safely.
Note:
The use of personnel monitors is recommended by AAMI and is
an OSHA regulatory requirement. These devices measure the
average exposure to EO over a given period of time.
Ask
for our free Key Operator Certification by talking to any of our
Customer Service representatives, at 1-800-524-3455.
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