Chapter 15 High Temp Sterilzation
Special Purpose Pressure Sterilizers FLASH
Often found in operating rooms and surgical suite sub sterile rooms. Only used for emergency sterilization of instruments when there is not time for thermal sterilization.
Process Challange Device
PCD Bowie Dick
Basic work practices for steam sterilization
Preparing devices and packs for steam sterilization Loading a sterilizer Unloading a sterilizer Controlling wt packs Cleaning and maintaining sterilizers
To decrease the temp of steam
Pressure must be decreased
Table top sterilizers
Primarily used in clinics and dental settings
Gauges and Controls ( Monitors)
Provide a visual and written record of sterilization conditions.
RH
Relative humidity
Dry Heat Sterilization
Relatively slow acting sterilizing agents. and generally requires higher temperature than other sterilization processes
Steam Flush Pressure Pulse Sterilizers
SFPP Use a repeated sequence of a steam flush and a pressure pulse to remove air from the sterilizing chamber and processed materials.
Saturated Steam
Should have a relative humidity of 97 percent to 100 percent.
Jacket keeps the chamber temp
Stable to prevent condensation inside
Two types of High temp sterilization used in hospitals
Steam and Dry heat
Autoclave
Steam comes in thru the steam inlet to the Baffle Plate. The baffle plate prevents steam from going right into the chamber, it expands and goes all around between the jacket and chamber walls. The residual air and water go down the drain.
Saturated Steam
Steam that contains the maximum amount of water vapor.
Types of Steam Sterilizers
Table Top Gravity Air Displacement Dynamic Air Removal Steam Flush and Pressure Pulse Special Purpose Sterilizer (Flash) Special Purpose Sterilizer (Instrument Washer Sterilizer
Drain
The coldest and least amount of air pressure because of air pocket inside the chamber.
Steam
The gaseous state of water
Time
The higher the temp the less time that is required to kill and specific organisms.
320 degrees
The most widely used temp for dry heat sterilization, preferably for 2 hours.
Bioburden
The number of microorganisms on a contaminated object, also called bioload or microbioload.
Exposure Phase
The pressure inside the chamber begins to rise as does the steam temp. After the desired temp is reached the control system begins timing the cycles exposure phase.
Convection
The process of heat transfer by the circulation of currents from one area to another.
Flash Sterilization
The process of sterilizing an item that is not wrapped
Terminal Sterilization
The process of sterilizing an item that is packaged
Oxidation
The slow burning up process of coagulating protein in a cell. Causes death of microorganisms
Steam sterilization cycles are based upon
The time temp relationship required to destroy bacterial spores.
Steam Sterilization cycles are based on
Time and temp relationship required to destroy bacterial spores.
Exposure Time
Time for which the sterilizers chamber is maintained within the specified range for temp, sterilant concentration, pressure and humidity
Convection (liquid ad gases)
Transfer of heat from on point (or one molecule) to another as the liquid or gas circulates Sterilization method-Steam
Radiation ( not used in hospitals)
Transfer of heat from one object to another without warming the space between the objects. Example from the sun to the earth
Conduction (solid)
Transmission of heat from one part to another part of the material. Example transfer of heat from one end of a metal bar to the other end of the bar. Sterilzation Method-Dry Heat
Conditioning Phase
Treatment of products within the sterilization cycle but before sterilant admission to attain a predetermined temperature and relative humidity, may be carried out at atmospheric pressure or under pressure
Temperature
Two most commonly encountered temps for steam sterilization is between 250f and 275f.
Table Top Sterilizers
Type of gravity air displacement sterilizer frequently used in clinics and dentists office. Reach the temp of 250F.
Dynamic Air displacement
Uses a vacuum cycle to pump air out and off the chamber
Gravity air displacement
Uses expanding steam to push out residual air out
Dynamic Air displacement
Uses vacuum, pumps air from the chamber before steam is added. Boiling point decreases
Dynamic Air Removal Sterilizers
Usually operate at 250f to 275f, is a pre vacuum sterilizer
Wet Packs
When moisture in the form of dampness, droplets, or puddles of water are found on or within a package after a completed sterilization cycle.
Boiling
When water turns to steam
Jacket
Where the steam enters from an outside source. Surrounds the top, sides and bottom. Steam circulates in this space to preheat the walls.
Expired packs
With linen wrap must be disassembled and the linen must be relaundered too restore moisture.
Steam Flush Pressure SFPP
active air removal
Three types of heat transfer
conduction convection radiation
Gravity Air displacement sterlizers
gravity = passive air removal
Pre-Vacuum Steam Sterilizers
pre-vac = active air removal
To increase the temp of steam
pressure must be increased
Temperatures for steam sterilaztion
range between 270 to 275 f 125 c to 135 c
Freezing to boiling
0c to 100 c (32) to 212 f. Only pure water h20 will freeze or boil.
Simple printout from a steam sterilization cycle usually contains
1. Date and time cycle began 2. Selected cycle parameters and activities such as type of cycle, sterilization temperature and dry times. 3. A written record of annual cycle activities ie. temperatures, exposure times and pressure.
Steam sterilization is preferred because
1. It is low cost 2. Sterilization cycles are fast. 3. It is relatively simple technology 4. It leaves no chemical residues or by products behind.
Anatomy of Steam Sterilizers
1. Jacket 2. Door, gasket and chamber drain 3. Thermostatic trap 4. Gauges and controls
3 states of water
1. Solid - ice 2. Liquid 3. Gaseous-steam
What effects sterilization methods
1. Type of microorganisms present. Some are more resistant that others. 2. The number of microrganisms (bioburden) present. The more the harder to sterilize 3. The amount and type of soil present. Soil acts as a shield to protect microorganism. 4. The amount of protection the medical device has. Microorganisms can be protected by cracks and crevices of the device and its designs.
Absolute Pressure
14.7 pounds per square inch at sea level
Conduction
A heat transfer method in which heat is absorbed by an items exterior surface, and passed inward to the next layer
Sterilant
A medium that facilitates sterilization
Flash Sterilizer
A sterilizer that uses higher temps for shorter exposure time to handle emergency sterilization of dropped instruments.
Bowie Dick Test
AKA Residual air removal test. Tests if residual air was removed from chamber also tests door gasket
Heat transfer
AN energy exchanged between the sterilizing agent and the object being sterilizied
Gauge Pressure-Steam Sterilizer
Absolute pressure - atmospheric pressure 14.7 psi at sea level, also called over pressure
Dynamic Air displacement
Action of air removal
Steam Sterilization
Aka Gravity Air Displacement
Gauge Pressure
Always 15 psi lower than the absolute pressure. If the pressure exceeds the temperature the steam contains air, If the pressure is lower than indicated superheat is indicated.
Door gaskets
Are checked daily at the beginning of each shift and clean with lint dry cloth
Bowie Dick tests are performed to
Assure the actual removal of air and the integrity of the sterilizer
Drying Phase
Begins after the exposure phase. Uses the heat of the chamber walls as well as heated filtered fresh air to re-vaporize any liquid water and to remove it from the load and the chamber.
Gas or Steam
Bigger than water, same amount of water but steam will consume more space
Chemical Indictator
CI tapes ad inserts. If exposed to steam or heat it will turn color, same as wrapping tape.
3 stages of decontamination
Cleaning, disinfection and sterilzation
Thermostatic trap
Closes passage way from air and steam
IWS
Combination units that wash and sterilize instruments to insure the safety of processing personnel
Steam Sterilizer Cycle Phases
Conditioning Exposure Exhaust Drying
Conditions necessary fro effective steam sterilization
Contact Time Temp Moisture
Gravity Air Displacement Sterilizers
Create steam in the presence of air, also can sterilize liquids
Sterilization
Distruction of all microorganisms
Door, Gasket and chamber drain.
Door is the weakest part of the sterilizer.
Superheated Steam
Dry Steam. the condition of steam when its temp to high relative to its pressure in a steam table. When steam is dry it will be inefficient at thermal transfer.
Exhaust Phase
End of the exposure phase, chambers drain is opened and the steam is removed through the discharge line. The creates a slight chamber vacuum and sterile filtered air is gradually re introduced into the chamber through a special filter.
Wet Pack
Equals unsterilization
Condensation
Equals wet pack
Two basic sterilization cycles
Flash Terminal
Absolute pressure - steam sterilizer
Gauge pressure, psi.- machine produced plus atmosphere pressure 14.7 psi at sea level
Two types of sterilizers
Gravity air displacement Dynamic Air displacement
Convection
Heat transfer by circulating gas-air or steam
Conduction
Heat transfer by direct contact
Steam Destroys by
Heat, Pressure and time
Geobacillus Stearothermophiles
Highly resistant but relative harmless nonpathogenic microorganism used to challange steam and dry heat sterilizers. A spore or bacteria with a hard shell around it that makes it harder to kill.
Julian Date
How long its been from the first day of the January
Instrument washer sterilers
IWS wash and sterilize instruments. Most frequently used to decontaminate instruments placed into the sterilizer prior to cleaning.
Process Indicators
Intended for use with individual packs or containers to demonstrate that the unit has been exposed to the sterilization process, and to distinguish between processed and unprocessed units. Source ANSI/AAMI ST 60.
Residual Air
Is leftover air that is displaced by expanding steam aka gravity air displacement (on the test)
Dry Saturated steam
Is mandatory for effective steam sterilization.
If drain is clogged
It can not remove condensation from steamed air. This will produce wet packs
Steam sterilization has long been preferred because
It is low cost, sterilization cycles are fast, It is relatively simple technology, it leaves no chemical residues or by products behind
The Jacket of the autoclave
Keeps the chamber warm to prevent condensation
The most frequent reason sterilization failure
Lack of contact between steam and the microorganisms on the entire surface of the device being sterilized.
Gross
Large chunks of soil or bio burden
Thermostatic trap
Located in the drain line. A sensor in the trap measures steam temperature, and automatically controls the flow of air and condensate from the sterilizing chamber.
Mechanical Indicator
MI Machine gauges temp, pressure and time
