5-STERILIZATION-AND-MAINTENANCE-OF-SURGICAL-EQUIPMENT (1).pdf

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Sterilization and
Maintenance of Surgical
Equipment
P R I SCI LO P. FON TANI LLA , JR.

COLLEGE OF VETERINARY MEDICINE
DON MARIANO MARCOS MEMORIAL STATE UNIVERSITY
NORTH LA UNION CAMPUS
Bacnotan, La Union
Definition of Terms
◦ Sterilization
◦ The process intended to kill or remove ALL types of
micro-organisms on an item/object.
◦ Object
◦ Things that come in contact with sterile tissue or enter
the vascular system
◦ Disinfection
◦ A process that eliminates many or all pathogenic
microorganisms, EXCEPT bacterial spores, on inanimate
objects
Methods of Sterilization
1. Autoclaving (Steam Sterilization)
Method: Uses saturated steam
under pressure.
Process:
o Clean and dry instruments
o Wrap in sterile packaging.
o Place in an autoclave at 121-
134°C (250-273°F) for 15-30
minutes.
Advantages: Highly effective,
quick, and cost-efficient. Autoclave

Disadvantages: Not suitable for
heat-sensitive instruments.
Methods of Sterilization
2. Ethylene Oxide (EtO) Sterilization
Method: Uses ethylene oxide gas.
Process:
o Clean and dry instruments
o Placed in a sterilization chamber with
ethylene oxide gas at 45 - 60ºC @ 10 – 12
psi
o Aeration period follows to remove gas
residues.
Advantages: Effective for heat- and
moisture-sensitive instruments.
Disadvantages: Time-consuming and
Ethylene Oxide sterilizer
requires proper ventilation due to
toxicity.
Methods of Sterilization
3. Cold Chemical Sterilization
Method: Uses chemical agents such as
glutaraldehyde, peracetic acid, or hydrogen
peroxide.
Process:
o Immerse instruments in a chemical sterilant for a
specified period.
o Contact time: Sterilization
▪ 2% Glutaraldehyde – 6 – 10 hours of immersion
▪ 1% Peracetic acid – 30minutes – 1 hour of immersion
▪ 35% Hydrogen Peroxide solution – 6 – 12 hours of immersion
o Rinse with sterile water to remove chemical residues.
Advantages: Suitable for heat-sensitive
instruments.
Disadvantages: Chemical residues can be
hazardous if not properly rinsed.
Methods of Sterilization
4. Dry Heat Sterilization
Method: Uses hot air ovens.
Process:
o Clean and dry instruments.
o Place instruments in a dry heat oven
at 160-170°C (320-338°F) for 1-2
hours.
Advantages: for instruments that
can withstand high
temperatures.
Dry Heat Sterilizer
Disadvantages: Time-consuming
and not suitable for heat-
sensitive instruments.
Methods of Sterilization
5. Radiation Sterilization
Method: Uses gamma rays or
electron beams.
Process:
Expose Instruments to
radiation (X-rays, UV,
Gamma) in a specialized
facility.
Advantages: Suitable for single-
use, pre-packaged instruments.
Disadvantages: Expensive and
not practical for routine
sterilization.
 Preparation of the Surgical Pack
for Sterilization
STEPS:
1. Gathering and Sorting Instruments
Collect all instruments and supplies needed for
the surgical procedure.
Sort instruments by type (e.g., cutting, clamping,
retracting) and by size to facilitate the cleaning
process.
2. Cleaning and Decontamination
Manually clean instruments using brushes and
detergents to remove all visible soil and organic
material.
Rinse instruments thoroughly with distilled water
to remove cleaning agents.
Inspect instruments for cleanliness, damage, and
proper function. Hinged instruments should be
opened and checked for residue.
 Preparation of the Surgical
Pack for Sterilization
STEPS:
3. Assembly of the Surgical Pack
Allow instruments to dry completely to prevent moisture
from interfering with the sterilization process.
Group instruments by function or by the sequence in which
they will be used during the procedure.
▪ Cutting instruments (e.g., scalpels, scissors)
▪ Clamping instruments (e.g., hemostats, clamps)
▪ Grasping instruments (e.g., forceps, needle holders)
▪ Retracting instruments (e.g., retractors)
Protect sharp instruments using tip protectors or silicone
mats to prevent damage and injury.
Place instruments in perforated sterilization trays. Heavy
instruments are placed at the bottom, lighter ones on top.
Hinged instruments are kept open.
Add sterile gauze, sponges, drapes, and other consumables
required for the procedure.
Place sterilization indicator strips inside the pack to verify
that sterilization conditions have been met.
 Preparation of the Surgical
Pack for Sterilization
STEPS:
4. Wrapping the Surgical Pack
Single or Double Wrap:

o Wrap the pack using sterile

wrapping material. Double wrapping
provides an extra layer of
protection.
Proper Folding Techniques:

o Use proper folding techniques to

ensure the wrap remains secure and
allows for adequate steam
penetration.
Preparation of the Surgical
Pack for Sterilization
Wrapping Instrument Packs
Preparation of the Surgical
Pack for Sterilization
Folding and Wrapping Surgical Gowns
Preparation of the Surgical
Pack for Sterilization
Folding and Wrapping Drapes
Preparation of the Surgical
Pack for Sterilization
Unwrapping and Opening Sterile Items
Preparation of the Surgical
Pack for Sterilization
STEPS:
5. Sealing and Labeling
Use sterilization indicator tape to seal the wrapped
pack. The tape changes color when exposed to
sterilization conditions, providing an external
indication.
Label the pack with information such as the contents,
date of sterilization, and expiration date.
6. Sterilization Process
Load the wrapped packs into the sterilizer, ensuring
adequate space between packs for steam circulation.
Select the appropriate sterilization cycle parameters
(temperature, pressure, and time) based on the
instruments and materials.
Start the sterilization cycle and monitor it using the
sterilizer’s controls and indicators.
 Preparation of the Surgical
Pack for Sterilization
STEPS:
7. Post-Sterilization Handling
Allow the packs to cool in a sterile environment to
prevent condensation.
Inspect the internal and external indicators to ensure
successful sterilization.
Conduct a final inspection to ensure the integrity of
the wrap and the sterility of the pack.
8. Storage
Store the sterilized packs in a designated sterile
storage area, which should be clean, dry, and free
from contaminants.
Organize packs by type and date to ensure a first-in,
first-out (FIFO) system is followed, using the oldest
packs first.
 Maintenance of Surgical
Equipment
STEPS:
1. Cleaning
o Method: Physical removal of organic and inorganic
debris.
o Process:
▪ Instruments should be rinsed immediately after use to
prevent drying of blood and tissue.
▪ Use enzymatic cleaners or mild detergents.
▪ Ultrasonic cleaners can be used for thorough cleaning.
o Importance: Essential to remove all residues before
sterilization.
2. Inspection
o Method: Regular checks for damage or wear.
o Process:
▪ Inspect instruments for cracks, dullness, or misalignment.
▪ Ensure all parts move smoothly and locking mechanisms
function properly.
o Importance: Prevents malfunction during surgery
and ensures patient safety.
 Maintenance of Surgical
Equipment
STEPS:
3. Lubrication
o Method: Use of instrument lubricants.
o Process:
▪ Apply instrument milk or other suitable lubricants to
hinged and moving parts.
o Importance: Maintains smooth operation and
prevents corrosion.
4. Repair and Sharpening
o Method: Professional servicing.
o Process:
▪ Send instruments to specialized technicians for repair
or sharpening as needed. Pre-Autoclave Instrument Dip

o Importance: Extends the life of instruments
and maintains precision.
 Maintenance of Surgical
Equipment
STEPS:
5. Storage
o Method: Proper storage to
prevent damage and
contamination.
o Process:
▪ Store instruments in a clean, dry
environment.
▪ Use protective cases or trays to
prevent damage.
▪ Ensure sterile instruments remain
sealed until use.
o Importance: Maintains sterility
and functionality.
 Sterilization Monitoring
Ensures that sterilization processes are
effective and that surgical instruments are free
from microbial contamination.
Monitoring methods
1. Biological Indicators (Spore Test) - gold
standard for monitoring sterilization efficacy.
o Use of bacterial spores of heat-resistant bacteria – Biological Indicators
▪ Geobacillus stearothermophilus (for steam and hydrogen
peroxide sterilization)
▪ Bacillus atrophaeus (for ethylene oxide and dry heat
sterilization) are used.
o Best indicator of sterilization efficacy
o After sterilization, the biological indicator is
incubated to see if any spores survive. If no growth
is observed, the sterilization process is considered
effective.
Sterilization Monitoring
2. Chemical Indicators
used to provide a visual confirmation that the
conditions required for sterilization have been met.
Change color when exposed to sterilization
conditions
o These indicators contain chemicals that change
color when exposed to certain temperatures,
pressures, or chemical concentrations.
o The color change indicates that the sterilization
conditions have been achieved.
External Indicator
Types:
o External Indicators: Applied to the outside of
sterilization packs or containers. They provide a
quick visual confirmation that the pack has
been exposed to the sterilization process.
o Internal Indicators : Placed inside sterilization
packs to confirm that the sterilizing agent has Internal Indicator
penetrated the pack and reached the contents.
Sterilization Monitoring
3. Mechanical Indicators - involve monitoring
and recording the physical parameters of the
sterilization process, such as temperature,
pressure, and time.
Monitor and Record Sterilization Parameters
o uses built-in sensors and recording devices in sterilization
equipment to track critical parameters (temperature, pressure,
and cycle duration)
Provide Immediate Feedback on the Process
o Any deviation from the set parameters can be identified and
corrected promptly.
 Importance of Using All Three
Monitoring Methods
Biological Indicators - confirm that the sterilization process can
effectively kill highly resistant microorganisms.
Chemical Indicators - provide immediate visual confirmation that
sterilization conditions have been met for each item.
Mechanical Indicators - continuously monitor and record the
sterilization process, providing a detailed log of each cycle’s
conditions.
 Operating Room Setup and
Protocols
Operating Room Setup
1. Layout and Design
Sterile Field - Establish a sterile field around the patient and surgical team.
Zones: unrestricted, semi-restricted, and restricted. The restricted zone includes the operating
area and is maintained as sterile.
Lighting - Ensure adequate and adjustable lighting.
Ventilation: Maintain proper ventilation with High-Efficiency Particulate Air (HEPA) filters to
minimize airborne contaminants. HEPA filters traps 99.97% of particles as small as 0.3
microns.
2. Equipment and Instruments
Surgical Instruments - Instruments should be organized logically for quick access.
Monitoring Equipment: Set up monitors for vital signs (e.g., heart rate, blood pressure, oxygen
saturation) within easy view of the anesthesiologist and surgical team.
Anesthesia Equipment: Ensure anesthesia machines, ventilators, and emergency drugs are
ready and functioning.
Suction Apparatus: Prepare suction devices for clearing fluids during surgery.
Sterile Supplies: Include sterile gloves, gowns, drapes, and dressing materials.
3. Patient Preparation
Positioning: Position the patient appropriately based on the surgical procedure. Secure the
patient to prevent movement.
Skin Preparation: Cleanse and disinfect the surgical site with an antiseptic solution.
Draping: Use sterile drapes to isolate the surgical site from other body areas and maintain a
sterile field.
 Operating Room Setup and
Protocols
Operating Room Protocols
1. Aseptic Technique
Perform surgical scrubs thoroughly before gowning and gloving.
Wear sterile gowns and gloves to prevent contamination.
Avoid touching non-sterile surfaces and ensure that sterile instruments do not contact non-sterile items.
2. Surgical Safety Checklist
Verify patient identity, surgical procedure, and surgical site. Confirm all necessary equipment and supplies are
available.
Conduct a time-out before incision to confirm correct patient, procedure, and site. Ensure all team members are in
agreement.
Postoperative Verification: Confirm the procedure is completed correctly, and all instruments and materials are
accounted for.
3. Infection Control
Clean and disinfect the OR before and after each procedure.
Use properly sterilized instruments. Follow strict protocols for handling and storing sterile items.
Wear appropriate PPE, including masks, caps, and shoe covers, to minimize contamination risk.
4. Patient Safety
Continuously monitor the patient’s vital signs and anesthesia depth. Be prepared to address any changes or
complications promptly.
Maintain clear and effective communication among the surgical team.
Be prepared for emergencies with readily available resuscitation equipment and protocols.
5. Documentation
Document all relevant information, including patient details, procedure specifics, anesthesia records, and any
complications or unusual events.
Perform instrument counts before, during, and after the procedure to ensure nothing is left inside the patient.