INFECTION CONTROL 2.pptx

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INFECTION CONTROL

the dentist, dental assistant, dental
hygienist and dental technician are at risk
of exposure to disease agents through
contact with blood or other potentially
infectious materials. So by studying and by
carefully following the infection control
and safety guidelines, all the team work can
minimize the risks of disease transmission
to himself and to the patients in the dental
office.
All practitioners should incorporate
recommended CDC
, PDA and OSHA , DOH infection control

CHAIN OF
INFECTION
All links must be connected for
infection to take place

Pathogen
(sufficient
virulence &
adequate
numbers)

Susceptible Host

(i.e., one that is not immune)

Entry
(portal that
the pathogen
enter
can the

Sourc
(allows pathogen
esurvive &
to
multiply)

Mode
(of transmission
from source to
host)

DEFINITIONS:
CDC:
Center of Disease Control and
Prevention .
ADAA:
Americ Dental Assistants
an
Association.
OSHA:
Occupational Safety and Health
Administration.
OSAP:
Organization for Safety and Asepsis
Procedures.
EPA:
Environmental Protection Agency.
FDA :
Food and Drug Administration.
NIOSH:

WHY , WHO AND WHAT
Why is infection control necessary in dentistry ?
Dental staff and patients may be exposed to a wide variety of
pathogenic
microorganisms .
Who is responsible for
infection control in the
dental office ?
Each member of the dental team must follow the
recommended guidelines . What should be done to
prevent the transmission of disease in the dental office
?
The most effective ways to prevent the transmission of
diseases includes :
1)Hand washing
2)Gloves
3)Face masks
4)Protective eye wear
5)protective clothing

DISEASES TRANSMISSION IN DENTAL
OFFICE
Diseases Transmission in Dental Office
The dental office should have an infection control program to
prevent the
transmission of disease from the following :
Patient to dental
team Dental team
to patient Patient
to patient
Dental office to
community
( include dental
team’s family )
Community
to
dental office to
patient
To prevent such infections, following is a list of all those
procedures and precautions that together constitute infection

STANDARD PRECAUTIONS
1.IMMUNIZATION
2.PATIENT SCREENING
3.HAND WASHING
4.BARRIER TECHNIQUES • Personal Protective Equipment (PPE)
• Rubber dam, Pre-procedural rinsing
6. INSTRUMENT STERILIZATION AND
DISINFECTION
5.NEEDLE & SHARP INSTRUMENT
SAFETY
• Occupational Exposure To Blood/Body
Fluids
7.SURFACE DISINFECTION
8.radiographic asepsis
9.laboratory asepsis

MODES OF DISEASES
TRANSMISSION







Direct contact with blood or
body fluids
Indirect contact with a
contaminated instrument or
surface
Contact of mucosa of the eyes,
nose, or mouth with droplets or
spatter
Inhalation of airborne
microorganisms

A) INFECTION CONTROL DURING
THE PRETREATMENT PERIOD
•It is the period of protective
equipment :
An essential pretreatment procedure is the
preparation of all personnel involved in
patient care. This includes the utilization of
personal protective equipment (gown,
eyewear, mask and gloves) and hand
hygiene.

Infection Control During the Pretreatment Period
The process of infection control begins during the
period of preparation for clinical treatment. Paying
attention to infection control at this time has several
payoffs. In addition to reducing the risk of transmission
of infectious agents during patient care, thinking
ahead will make the treatment session more efficient
and will also make the post treatment infection control
process easier and more effective.
1. Remove unnecessary items from the dental
procedure area : The dental procedure area
should be arranged to facilitate a thorough cleaning
following each patient.
2. Preplan the materials needed during
treatment.
Set out all instruments, medications, impression
materials, and other items that are needed for a

3. UTILIZE DISPOSABLE ITEMS WHENEVER
POSSIBLE :

THE USE OF DISPOSABLE ITEMS SAVES TIME
DURING CLEANUP AND DECONTAMINATION
AND SOLVES THE PROBLEM OF PROPER
4.Use prearranged tray set-ups for
REPROCESSING.

routine or frequently performed
procedures.
Helps to eliminate the need to go into cabinets
once you have started a procedure.
5.Use individualized, sterilized bur blocks
for each procedure
. Using individualized bur blocks containing only
the burs required for that procedure helps to
eliminate the contamination of other, unneeded burs
and to make clean-up easier.

6. If indicated, have the rubber dam setup
on the tray.
When a rubber dam will be used during a clinical
procedure, it also should be included on the tray
setup. In addition, include those items needed for
high-velocity evacuation.

7.Identify those items that will become
contaminated during treatment.
While preparing the dental procedure area prior to
beginning a clinical procedure, consider which items
will become contaminated during treatment.
Examples of such surfaces include countertops, light
handles, X-ray unit heads, tray tables etc. Decide
whether to use a barrier, e.g., plastic wrap to prevent
contamination of these surfaces and items or to
disinfect them when the procedure is complete.
8.Review patient records before initiating
treatment and place radiographs on the view
box.
Do not leave the record on the countertop or
handle it after beginning treatment. Place the
record in a drawer or out of the dental procedure
area, so that it doesn’t become contaminated.

9. Prepare personnel involved in patient care.
An essential pretreatment procedure is the
preparation of all personnel involved in patient care.
This includes the utilization of personal protective
equipment (gown, eyewear, mask and gloves) and
hand hygiene.

A .Handwashing and hand care :
According to
the U.S.
Centers for
Disease Control (CDC) , hand washing is the
single most important procedure for
preventing the spread of infection. So , you
must wash your hands each time before you
put on gloves and immediately after you
remove gloves . Handwashing is also
required if you touch contaminated
instruments or surfaces during working .
We should always use liquid soap during
handwashing
. Bar soap should never be used because

HANDS NEED TO BE
CLEANED WHEN
Visibly dirty
After touching contaminated objects with
bare hands
Before and after patient treatment
(before glove placement and after
glove removal)

PERSONAL PROTECTIVE
EQUIPMENT ( PPE )
OSHA requires the employer to provide
employees with appropriate personal
protective equipment .
Examples of
PPE :
1 Protective clothing
2 Surgical masks
3 Face shields
4 Protective eyewear
5 Disposable patient treatment
gloves , and

These PPE must be used
whenever you :
•Performing tasks that could
produce splash or spatter .
•Any contact with body fluids
•Perform other clinical activities
that require handling
contaminated items e.g.
radiographs , impressions ,
dentures or contaminated

We will study 4 aspects
of each one of these
equipments :
•The purpose of using .
•Types .
•Guidelines for the use .
•Requirements .

1) Protective clothing :
Purpose : to protect
the skin and
underclothing from the
exposure to saliva ,
blood , aerosol , and
other contaminated
materials .
Types
1) Laboratory coats

2) GOWN

3) SURGICAL
SCRUBS

Guidelines for the use of protective clothing
1)It should not be worn out of the office for
any reason .
2) Change these work clothes at least daily,
or more often if soiled, especially if they
become visibly contaminated with blood.
3)It must not be worn during eating or in
resting rooms
.
4) It should be washed and laundered
separately . Protective clothing
requirements :
1)Should be made of fluid-resistant
material ( cotton , cotton/polyester, or

2) Protective masks :
Purpose the mask worn over the nose and
mouth to protect the person from inhaling
infectious organisms spread by the aerosol
spray of the handpiece or air-water syringe .
Types the two most common types of
masks are the dome-shaped and flat types
.

The dome-

Flat
types

Guidelines for the use of protective masks :
•Masks should be changed for every patient
or more often, particularly if heavy spatter is
generated during the treatment or if the mask
becomes damp.
• Masks should be handled by touching only
the side edges to avoid contact with the more
heavily contaminated body of the mask.
•Masks should conform to the shape of the
face .
• Masks should not contact the mouth when
being worn because the moisture generated
will decrease the mask filtration efficiency .
Requirements : masks should be at least with
95% filtration efficiency to remove particles 3 –

3) Protective eyewear :
Purpose eyewear is worn to protect the
eyes against damage from :
•Aerosolized pathogens .
•Flying sharp debris such as scrap
amalgam and tooth fragments .
•Splattered solutions
•Caustic chemicals
Guidelines for the use of protective
eyewear
:
1)OSHA requires the use of eyewear with
both front and side protection ( solid side
shields ) .
2)Members who wear correction glasses or
contact lenses must wear protective eyewear

3) It must be cleaned
and decontaminated
after each treatment or
patient visit according to
the manufacture’s
instructions .
Types :
Two types of protective
eyewear used during
patient care :
1)Glasses with
protective side shield ,
and
2)Clear face shields .

FACE SHIELDS
:
a chin-length
plastic face
shield that protects your
eyes, nose, and mouth from
spatter may be worn and
replace the protective
eyewear .However , a shield
cannot replace the mask
because it does not protect
against inhalation of
contaminated aerosol

Face shield worn in addition to
the mask

PATIENT
EYEWEAR
Patients
should be: provided with
protective eyewear because they may
subjected to eye damage from :
1)Handpiece spatter
2)Splashed dental materials
3)Airborne bits of acrylic or tooth
fragments

4) Gloves :
Purpose :
Gloves must be worn by the dentist , dental
assistant , and dental hygienist during all
dental treatment to avoid contact with the
patient’s blood , saliva , or mucous
membranes or with contaminated items or
surfaces .
Types :
The typeof gloves
used
in
dental practice should be determined by
the various procedures that are performed in
the practice as follow :
1) Examination gloves usually are latex or
vinyl . These are the gloves most frequently

Examination gloves are
inexpensive , available in a
range of sizes from extra
small to extra large , and
are ambidextrous ( used for
both right and left hands )
.
These
gloves
are
nonsterile and serve only
as a protective barrier for
the wearer .
Examination
gloves

2) OVERGLOVES ARE MADE OF LIGHTWEIGHT,
INEXPENSIVE , CLEAR PLASTIC . OVERGLOVES
MAY BE WORN OVER CONTAMINATED TREATMENT
GLOVES ( OVERGLOVING ) TO PREVENT
CONTAMINATION OF CLEAN OBJECTS
( TELEPHONE , PEN ,OPENING DRAWERS AND
CABINETS ) THAT MAY BE HANDLED DURING
TREATMENT . OVERGLOVES ARE DISCARDED
AFTER A SINGLE USE .

To prevent contamination , an
Overgloves is
worn while using a pen .

3) STERILE SURGICAL GLOVES
during
ARE USED
procedures such as oral surgery orsurgical
periodontal
treatment . Sterile surgical gloves are
supplied in specific sizes and prepackaged
unites to maintain sterility before use .

Sterile surgical
gloves

4) UTILITY GLOVES ARE MADE FROM A
PUNCTURE-RESISTANT , HEAVY MATERIAL
WHICH ARE NOT USED FOR DIRECT PATIENT
CARE . UTILITY GLOVES MAY BE WASHED ,
DISINFECTED , OR STERILIZED AND REUSED
AND MUST BE DISCARDED WHEN THEY BECOME
OLD .

Guidelines for the use of gloves :
•All gloves used in patient care must be
discarded after
a single use.
•Torn or damaged gloves must be replaced
immediately .
• Do not wear jewelry under gloves
because , it may tear the gloves .
•If the procedure is long , change the gloves
each hour .
• Contaminated gloves should be removed
before leaving the chair side during patient
car.
• Hands must be washed after glove

5) NON-LATEX CONTAINING GLOVES
OCCASIONALLY , THE HEALTH CARE PROVIDERS
OR PATIENTS MAY EXPERIENCE SERIOUS
ALLERGIC REACTIONS TO LATEX . THE PERSON
WHO IS SENSITIVE TO LATEX CAN SUBSTITUTE
WITH GLOVES MADE FROM VINYL, NITRILE AND
OTHER NON-LATEX CONTAINING MATERIALS .

Hand dermatitis that
developed from wearing
latex gloves.

B) INFECTION CONTROL
DURING THE TREATMENT
PERIOD (CHAIRSIDE
INFECTION CONTROL ) :

1) Use care when receiving,
handling, or passing sharp
instruments.
2)Take special precautions with
syringes and needles.
3)Use a rubber dam whenever

4) AVOID TOUCHING UNPROTECTED SWITCHES,
HANDLES AND OTHER EQUIPMENT ONCE GLOVES
HAVE BEEN CONTAMINATED.
5) Avoid entering cabinets once gloves have been
contaminated.

c) Infection Control during the PostTreatment Period
After patienttreatment , dental unite and
treatment room surfaces are likely to become
contaminated with saliva or by aerosol
containing blood .
Also a primary
source of cross-contamination
occurs when
a member of the dental team touches
surfaces with contaminated gloves .
The laboratory studies have proved that
microorganisms may survive on
environmental surfaces for long time . For
example, Mycobacterium tuberculosis may
survive for weeks .

DENTAL TREATMENT ROOM
SURFACES
: classified
Dental treatment
room surfaces are
as either

:

•Clinical contact surfaces or
•General housekeeping surfaces .
Clinical contact surfaces are those that
are touched by contaminated hands ,
instruments or by spatter during
treatment . It should be cleaned and
disinfected between patients .
All the other surfaces , such as the walls
and floors
, are considered general housekeeping

CLINICAL CONTACT SURFACES :
THE CLINICAL SURFACES CAN BE
CLASSIFIED INTO THREE
CATEGORIES :
A) Touch surfaces : are directly touched
and contaminated during treatment
procedures . Touch surfaces include ;
Dental light
handles Dental
unite controls and
Chair switches

B) TRANSFER
SURFACES :

are touched by contaminated
instruments such as instruments trays .

C) Splash , spatter , and
droplet surfaces :
countertops are a major example .
Touch and transfer surfaces should be either
barrier- protected or cleaned and disinfected
between patients . In the same time , splash ,
spatter , and droplet surfaces should be cleaned
at least once daily .

DEALING WITH SURFACE
CONTAMINATION
THE GOAL OF THE TWO METHODS TO
DEAL WITH SURFACE CONTAMINATION
ARE :
1 To prevent the surface from becoming
contaminated by the use of a surface
barrier .
2
To preclean and disinfect the
surfaces between Patients .
Each
method
has
advantages
and
disadvantages , and most dental offices use a
combination of surface disinfection and surface
barriers .

SURFACE BARRIERS :
SURFACE BARRIERS
ARE USED TO PREVENT
CONTAMINATION ON
THE SURFACE
UNDERNEATH .
All the surface barriers
should be resistant to
fluids in order to
prevent microorganisms
in saliva , blood , and
other liquids from
soaking through the

Chair
Drapes

Film
Dispenser

SOME PLASTIC BAGS ARE SPECIALLY
DESIGNED TO THE SHAPES OF THE DENTAL
CHAIR , AIR-WATER SYRINGE , AND LIGHT
HANDLES .

STICKY TAPE AS A PLASTIC BARRIER IS
FREQUENTLY USED TO PROTECT SMOOTH
SURFACES , SUCH AS ELECTRICAL SWITCHES
ON CHAIRS AND X- RAY UNITE

INFECTION CONTROL DURING THE
POST-TREATMENT PERIOD
1. Continue to wear personal protective
equipment during clean-up: After patient
care is completed, begin the cleaning and
disinfection process by removing
contaminated gloves used during treatment,
wash your hands and use the utility gloves
before beginning the clean up. Continue to
wear protective eyewear, mask, and gown.
2.
Remove all disposable barriers : All of
the barriers placed before treatment,
including light handle covers and
countertop barriers, should be removed.

Pre-cleaning
Precleaning means that all contaminated
surfaces must be precleaned before they can
be disinfected . Precleaning reduces the
number of microbes and remove blood , saliva
, and other body fluids .
Precleaning
techniques
are
most
effective when used on
contaminated surfaces that are smooth and
easily
accessible for cleaning .

Materials used for precleaning regular soap
and water always used for precleaning .
However , a disinfectants that can cleans as
well as disinfect are present today .
Disinfection
Disinfection is directed to kill diseasecausing microorganisms that remain
on the surface after precleaning .
N.B always do not confuse disinfection
with sterilization . Sterilization is the
process in which all forms of life organisms are
destroyed .
The term disinfectant is used for chemicals
that are applied for cleaning surfaces , such

DISINFECTAN
TS
Disinfectants are

chemicals that destroy or
inactivate
most
species
of
pathogenic
( disease-causing ) micro-organisms . In
dentistry , only those products that registered
with the
U.S Environmental protection Agency ( EPA )
with tuberculocidal action should be used to
disinfect dental treatment areas .
Ideal surface disinfectant
The ideal surface disinfectant must be rabidly
kills a broad spectrum of bacteria , has
residual activity , minimal toxicity , odorless ,
inexpensive
and does not

DISINFECTANT SUCH AS
IODOPHORS :
•Iodophors
are EPA-registered hospital
disinfectants with tuberculocidal action .
•It is recommended for disinfecting surfaces
after dental treatment .
•Iodophors are usually effective within 5 to
10 minutes .
•Non-irritant and non-toxic .
•Unstable solution → must be changed
regularly .
•Because they contain iodine , iodophors
may corrode or discolor certain metals and

SYNTHETIC PHENOL
COMPOUNDS :
•Are EPA-registered intermediate-level
hospital disinfectants with broad-spectrum
activity ( can kill a wide rang of microbes )
that used for surface disinfection
.
•Phenol can be used on metal , glass , rubber ,
or plastic .
•They also may be used as a holding
solution for instruments , however , phenols
leave a residual film on treated surfaces .
•Synthetic phenol compounds must be
prepared daily .

SODIUM
HYPOCHLORITE
Sodium
hypochlorite is a:fast-acting , economic
and broad- spectrum intermediate-level
disinfectant
.
Disinfectant effect observed after 10 minutes .
The Centers for Disease Control and
prevention ( CDC ) currently recommended
the use of up to
1 – 100
dilution of sodium hypochlorite for surface
decontamination .
The disadvantages →
•Unstable solution need daily preparation .
•It has a strong and unpleasant odor .
•Irritant for skin and eyes .
•Corrosive for some metals .

ALCOHOL
:
Ethyl alcohol and isopropyl alcohol have been
used over the years as skin antiseptics and
surface disinfectants . However
, alcohol are not effective in the presence of
blood and saliva droplets because of the rapid
rate of evaporation will limits the antimicrobial
activity of alcohol
. In addition ,
alcohols are damaging to certain materials ,
such as plastics and vinyl .
The American Dental Association ( ADA ) ,
CDC , and OSAP do not recommend alcohol as
an environmental surface disinfectant .

CHLORINE
DIOXIDE :

Chlorine dioxide can be used as an effective ,
rapid-acting
, environmental surface disinfectant ( 3
minutes ) or as a chemical sterilant ( 6
hours ) .
The disadvantages →
(1)it must be prepared fresh daily .
(2)it is corrosive to aluminum containers

CLASSIFICATION OF
INSTRUMENTS AND EQUIPMENT :
According to the Centers for Disease
Control
and
Prevention, dental instruments are classified
into three categories depending on the risk of
transmitting infection.
1) Critical instruments are those used to
penetrate soft tissue or bone and should be
sterilized after each use. Sterilization is
achieved by steam under pressure
(autoclaving), dry heat, or heat/chemical
vapor .
Critical instruments include forceps, scalpels,

2) Semicritical instruments
are those that do not penetrate soft tissues or
bone but contact oral tissues, such as
amalgam condensers, air/water syringe , tips
mirrors, intraoral radiography accessories,
digital radiography sensors, and other dental
high-technology instruments . These devices
should also be sterilized after each use. In
some cases, however, high- level disinfection is
appropriate. A high-level disinfectant is
registered with the U.S. Environmental
Protection Agency (EPA) as a
"sterilant/disinfectant" and must be labeled as
such.

3) Noncritical instruments
are those that come into contact only with
intact skin
such as
.
Such
devices have a relatively low risk of
transmitting infection and, therefore, may
be reprocessed between patients by
intermediate-level or low-level
disinfection.

MANAGING CONTAMINATED
SHARPS :
Contaminated needles and other disposable
sharps , such as scalpel blades ,
orthodontic wires , and broken glass
must be placed into a sharps container .
OSHA , CDC and the EPA classify sharps
as infectious waste .
According to OSHA regulations , disposable
sharps must be placed in a puncture
resistant , closable , and color-coded or
labeled with the biohazard symbol
container immediately after use .

Biohazard
symbol

Proper
processing
of
contaminated
dental instruments in a six-steps process
as :
1)Transport :
transport contaminated
instruments to the processing area .
2)Cleaning : clean instruments with a
hand-free , mechanical process such as
an ultrasonic cleaner or instrument
washer.
3)Packing: warp/package instruments in
appropriate materials containing an external
process indicator .
4) Sterilization : place the packages in a
single layers or in racks to increase
circulation of the sterilizing agent

5)Storage:
Store instruments in a
clean , dry environment
in a manner that
maintains the integrity of the package .
Rotate
packages
so that those with
the oldest sterilization date will be used first .
6)Delivery :
deliver
packages to point of use in a manner that
maintains sterility of the instruments until
they are used . Inspect each package for
damage .

HOLDING
SOLUTION :

•IF THE INSTRUMENTS CAN'T BE CLEANED
IMMEDIATELY AFTER PROCEDURES, THEY SHOULD
BE PLACED IN A HOLDING SOLUTION TO PREVENT
DRYING OF BLOOD AND DEBRIS ON THE
INSTRUMENTS .
•A HOLDING SOLUTION IS A LIQUID
DISINFECTANT/STERILIZING SOLUTION USED TO
SOAK CONTAMINATED INSTRUMENTS BEFORE
THEY ARE CLEANED AND STERILIZED. IT HAS
THE PURPOSE TO:
• DECREASE INFECTIOUS MICROBES ON
INSTRUMENTS .
• LOOSEN AND MINIMIZE DEBRIS

The holding solution must be:
Non-corrosive
liquid, Of low
cost,
Non-staining
and Readily
available.
The holding
solution
should be
changed at
least twice
daily

The holding
solution

Precleaning and packaging
instruments
Precleaning is done in three
ways:
- Hand scrubbing
- Ultrasonic cleaning
-Instrument washing machine

HAND SCRUBBING

This method is unfavorable because it
requires direct hand contact with the
contaminated instrument and accidental
injury from these contaminated items may
happen.
During hand scrubbing we must follow
the following precautions
1 Wear eye wear and puncture-resistant
gloves (P.P.E ) .
2 Clean only one by one .
3 Use only a long-handled brush .
4Do not immerse items in soapy water or

ULTRA-SONIC
CLEANING
•Ultrasonic
cleaning is recommended in
place of hand- scrubbing in order to reduce
direct staff contact with contaminated
instruments.
•The ultrasonic cleaner works by producing
sound waves which causes formation of
bubbles in liquid
. The
bubbles are too small to be seen .
•The mechanical cleaning action of the
bubbles combined with the chemical
action of the ultrasonic solution removes
the debris from the instruments .
•Instruments should be processed in the

AUTOMATED
WASHER
It looks
similar to a
household dishwasher.
It uses a combination of
very hot water together
with a detergent to
remove the organic
material. It is
considered as
disinfector because it
subjects the
instruments to a level
of heat that kills most
vegetative

PACKAGING
INSTRUMENTS
Before
sterilization the instruments must be
packaged to protect them from becoming
contaminated after sterilization .
They can be contaminated by aerosols in
the air , dust , or contact with nonsterile
surfaces .
An additional advantage to packaging
instruments is that they can be grouped into
special setups .

STERILIZATION
MONITORING
Sterilization monitoring

Because sterilization failure can occur at any
time, it is critical to determine that dental
instruments are properly sterilized or not
because microorganisms can not be seen by
naked eye.
Nowadays, three forms for sterilization
monitoring are used :

PHYSICAL
BIOLOGICAL

CHEMICAL

Physical monitoring:
Physical monitoring of
the sterilization process
involves looking at the
gauges and readings
on the sterilizer and
recording the
temperatures,
pressure, and exposure
time.
Remember that the
temperature recorded is
for the chamber, not the
inside of the pack.
Therefore, problems with

Chemical monitoring:
Chemical monitoring involves the use of
heat-sensitive chemicals that change color
when exposed to certain conditions.
The two types of chemical indicators
are process indicatorsand process
integrators.
Process indicators
This is used externally outside
the
instruments packages like autoclave tape and
color change marking. Its aim is to determine
if the package is processed or not.
They simply identify instrument packs that

THEY DO NOT MEASURE THE DURATION OR
THE PRESSURE. THEY ARE USEFUL ONLY IN
DISTINGUISHING BETWEEN PACKAGES THAT
WERE PROCESSED AND THOSE THAT WERE
NOT PROCESSED. THIS CAN PREVENT
ACCIDENTAL USE OF UNPROCESSED
INSTRUMENTS.

Process integrators
Process integrators are placed inside
instrument packages. They respond to a
combination of pressure, temperature, and
time. All sterilization factors are integrated.
Examples of process integrators include
strips, tabs, or tubes of colored liquid.

Biologic monitoring
This is the best way to determine if
sterilization has occurred.
Biologic monitoring , or spore testing, is the
only way to determine if sterilization has
occurred. The CDC, American Dental
Association recommend at least weekly
biologic monitoring of sterilization equipment .
Biologic indicators (BIs), also known as
spore tests, are vials or strips of paper that
contain harmless bacterial spores (spores
are highly resistant to heat).
Method :
Three BIs are used in testing. Two BIs are
placed inside instrument packs, and the

THE THIRD STRIP IS SET ASIDE AS A
CONTROL. AFTER THE LOAD HAS BEEN
STERILIZED, ALL BIS ARE CULTURED. IF THE
SPORES SURVIVE THE STERILIZATION CYCLE
(A POSITIVE CULTURE), A STERILIZATION
FAILURE HAS OCCURRED. IF THE SPORES ARE
KILLED (A NEGATIVE CULTURE), THE
STERILIZATION CYCLE WAS SUCCESSFUL.

STERILIZATION IN THE
DENTAL
:
The three
most OFFICE
common forms
of heat
sterilization in the
dental office are :
Steam
sterilization,
Chemical vapor sterilization,
and Dry heat sterilization.

1) Steam sterilization : involves
heating water to generate steam,
producing a moist heat that rapidly
kills microorganisms. As the steam
completely fills the sterilizing
chamber, the cooler air is pushed out
of an escape valve, which then closes
and allows the pressure to increase
which increase the temperature
reaches up to 120 C which is higher
than boiling water . It is the heat, not
the pressure that actually kills the
microorganisms.

A disadvantage of steam sterilization is that
the moisture may cause corrosion on some
high-carbon steel instruments. Distilled water
should be used in autoclaves instead of tap
water, which often contains minerals and
impurities. Distilled water can minimize
corrosion and pitting.
0peration cycles :
Dental office steam sterilizers usually operate
through
four
cycles :
1)
heat-up
cycle
2) sterilizing
3) depressurization
cycle
cycle
4) drying
cycle

Flash Sterilization
involves sterilizing unpackaged instruments
using short exposure times. The instruments
are placed in the chamber unwrapped. The
sterility of the instruments is defeated
immediately when the instruments are
removed from the sterilizer.
Flash sterilization should be used only for
instruments that are to be used promptly
on removal from the
sterilizer.

DRY-HEAT
STERILIZERS
Dry-heat
sterilizers operate by heating air and
transferring that heat from the air to the
instruments. This form of sterilization requires
higher temperatures than steam or chemical
vapor sterilization . temperature ranges
between (160 C to 190 C).
The total cycle time :
placing instruments in oven, heating to 170 C,
timing for 1 hour, and then cooling it from 2–
2.5 hours .
The advantage of dry heat is that the
instruments will not rust if they are thoroughly
dry before they are placed in the sterilizer.

CHEMICAL LIQUID
STERILIZATION
Used for some types of plastics items that
can damaged by heat such as some rubber
dam frames , shade guides , and x-ray filmholding devices .
A liquid sterilizer such as 2% to 3.4%
Glutaraldehyde
must be used for sterilizing these items .
Sterilizing in Glutaraldehyde requires a 10
hours contact time, but if it is less than 10
hours, it is only disinfection, not sterilization .
Glutaraldehyde must be used full strength
( not diluted (

STERILIZATION
FAILURE
Several factors can cause the sterilization
process to fail .
Examples of common mistakes include
•overloading of sterilizer chamber .
•lack of separation between packs or
trays in the chamber .
•wrong packaging material for method
of sterilization .
•more than two layers of wrap,
inhibiting penetration .
•sterilizer timer malfunction .
•improper cleaning of items to be

:

STERILIZATION OF HAND PIECES IS
RECOMMENDED WHENEVER
POSSIBLE :
HAND PIECES THAT ARE DESIGNED FOR
STEAM STERILIZATION BETWEEN USES ARE
PREFERRED. WHEN A HAND PIECE CANNOT
BE HEAT OR STEAM STERILIZED, CHEMICAL
DISINFECTION CAN BE USED AS AN
ALTERNATIVE.

THE
END