كويز نايمرو ٣.pdf

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Do you know who is carrying Dental patients and professionals are exposed to variety of
bacterial / Viral / infections? disease-causing microorganisms (bacteria, viruses, fungi) Mode of transmission in dental setting
CLINICAL CONTACT
(source/reservoir) l Direct contact with blood, oral fluids, or other patient materials; SURFACES
Person who looks healthy may Body fluids: Blood, oral fluids (saliva), secretions, excretions l Indirect contact with contaminated objects e.g:
be a carrier of serious infection Mucous membranes (e.g. oral) contaminated dental instruments, equipment,  have a high potential for

amnion
Broken skin direct contamination
contaminated clinical surfaces from patient materials
rt Respiratory tract
 by direct spray or spatter
generated during dental
l Contact of conjunctival, nasal, or oral mucosa with droplets (cough/sneeze)
l Inhalation of airborne microorganisms suspended in the air procedures
 or by contact with
me
I
DHCP's gloved hand.
These surfaces can later
contaminate other
instruments, devices,
hands, or gloves.

Environmental surfaces are contaminated The potential routes of transmission of micro-organisms in Breaking the chain of infection !!
transmission to clinical contact surfaces
Hands can transmit infections the dental surgery Reservoir : equipments, surfaces, skin…

dental instruments, equipment, contaminated directly Sterilization / Disinfection

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transfer from patient oral fluids by gloved hands / or/ aerosals to clinical surfaces
clinical surfaces become contaminated (source of infection to next patient…)

WHY ? Decontamination
WHY ? a is the process by which microorganisms
Decontamination
‫األخذ باألسباب واجب شرعي بعد التوكل على هللا عز وجل قال‬ Failure to properly disinfect or sterilize equipment are removed or destroyed in order to render an object safe.
Cleaning
)‫النبي صلى هللا عليه وسلم (اعقلها وتوكل‬ carries risk for person-to-person transmission of
microbes causing infections that may lead to major Cleaning is a process, usually involving
diseases/ chronic or untreatable infections (e.g., levels of Decontamination: detergent or enzymatic presoak that
hepatitis B/C viruses , HIV “blood born viruses” Cleaning removes visible foreign materials (e.g.
which then, spread… sexually to wife/husband and dirt or blood) from an object.
vertically from mother to foetus.
medical devices contact or penetrate with a patient’s
Disinfection - Antiseptic
sterile tissue or mucous membranes Cleaning is the first and essential step in
Disinfection and sterilization are essential for reprocessing dental instruments and
ensuring that medical and surgical instruments do Sterilization equipment.
not transmit infectious pathogens to patients.

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Chemical Disinfectants have
Cleaning
Soaps Disinfection Methods of Disinfection different Mechanisms of action
Instruments must be rinsed after cleaning with Disruption of lipid containing / cell membranes main
purified water, dried by disposable paper towels Is the removal of harmful pathogenic Moist heat Examples, alcohol 70% wide spectrum of bacterial, fungi, and many viral activities but NOT spores

of
Quaternary Ammonium Compounds (QAC)

one
then inspected to ensure that all debris has been microbes, or reducing their number to be washing and rinsing in water at 70°C-90°C will kill most non-sporing
micro-organisms Heat at a temperature below 100°C: e.g., Pasteurization disinfection
chlorhexidine

removed very low Heat at a temperature at l00°C: Boiling

Modification of proteins
Cleaning machines are available for large scale
Wear heavy-duty utility gloves, mask, eyewear, and protective
NOT usually including bacterial spores 6 Chemical disinfection (common) Examples, chlorine: hypochlorite (Clorox)
iodine

clothing should only be used if heat treatment is impractical or if it may cause
damage to the equipment. Modification of nucleic acids / DNA
D
Examples, crystal violet inhibit fungi

ultraviolet radiation rarely used in dental practice. NB. Depends on concentration of both microorganisms and disinfectant and contact
time. And presence of organic matter such as blood/tissue.

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Noninvasive we
Intermediate-level disinfectants
Chemical Disinfectants High-level disinfectants (HLD)
are used for semi-critical items involved with
Intermediate-level disinfectants
Clean then disinfect clinical contact surfaces that are not DISINFECTING LABORATORY ITEMS
Non-invasive procedures that contact intact mucous barrier-protected ((after each patient))
Disinfectants are categorized according to their spectrum of activity into:  On removal from the mouth, impressions or appliances should be rinsed
membranes without penetration , and cannot withstand heat (e.g., alcohols, iodophor compounds, phenolic compounds)
under running water to remove saliva, blood and debris, immersed in a
– high level disinfectants sterilization
(e.g., certain types of Digital Sensors or endoscopes with plastic or
are used to clean and disinfect surfaces if contamination with
bacterial spores and other highly resilient organisms is unlikely. i.am suitable disinfectant, rinsed and sent to the laboratory

– intermediate level disinfectants other components that cannot be heat sterilized).

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– low level disinfectants
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There are three methods of High-level disinfectants
(HLD):

 boiling
 Moist heat at 70-100°C
 Chemical (Glutaraldehyde)

EY are a NOTE:
Clean the surface to remove any organic matter before disinfection.

Common chemical disinfectants
in dental practice. Antiseptics Sterilization
It is important to differentiate between
disinfectants and antiseptics: is the killing of ALL living forms
antiseptics are biocompatible antimicrobial of microbes including their spores
agents (e.g. 70% alcohol) that can be applied
safely to the skin of the body or to exposed
7
living tissues
For items of invasive procedures
Why not 100% alcohol?
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 Sterilization Sterilization Methods Different methods of sterilization I- STERILIZATION BY HEAT
suit different equipment & instruments
Required for Critical Items: can be achieved by:
objects that enter sterile tissue or the vascular
Dry heat sterilization
Dry heat.
system must be sterile because any microbial (Hot air oven) used for glassware
Moist heat above 100°C i.e. autoclaving.
contamination could transmit disease. NB. Heat kills by denaturing proteins / membrane damage / enzymatic cleavage
Ethylene oxide. (chemical sterilization)
E.g, extraction forceps, hospital dressing, gauze,
syringes and handpieces. Plasma gas sterilizers.
Critical items confer a high risk for infection if they Ionizing radiation.
are contaminated with any microorganism. Filtration.
devices must be Cleaned first!

Autoclave sterilization Advantages and disadvantages of
The autoclave
Steam is the preferred method for sterilizing steam sterilization
Steam sterilization at a temperature higher above 100°C with pressure
Advantages:
dental devices. Steam sterilization requires
Highly effective.
direct contact (in the absence of air) between
dry saturated steam and all surfaces of the Rapid heating and rapid penetration of instruments.
instrument at a temperature of 134°C at 2.25 Nontoxic.
Inexpensive.
am
bar for a minimum of 3 minutes.
This is usually performed in a benchtop Can be used to sterilize liquids.
steam sterilizer Disadvantages:
Items must be heat and moisture resistant,e.g. (metals,
gauze)
Will NOT sterilize powders, ointments or oils.
1 1,18
Use mechanical, chemical, and biological monitors to
ensure the effectiveness of the sterilization.
Needs good maintenance.
am 2

Ill- RADIATION
Ionizing radiation:
II- GASEOUS CHEMICAL IV- FILTRATION
Gamma rays: emitted from radioactive cobalt 60.
STERILIZATION ß-rays produced by electron accelerators have a Membrane (millipore) filters are the most
high penetrating power. commonly used nowadays.
Ethylene oxide (EO) gas sterilizers

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Ultraviolet (UV): UV rays present in sun rays or
artificially produced by mercury lamps Vacuum filtration
Plasma Gas sterilizers: Hydrogen Syringe filters
peroxide (6 hours exposure) Can be used For disposable thermolabile items. Air filters: Large volumes of air may be rapidly
e.g. syringes, surgical gloves freed from microorganisms by passage through
HEPA filters (High Efficiency Particle Arresters).
For reprocessing of thermolabile (heat
For heat sensitive liquids e.g. I.V. drugs/vitamins
sensitive) medical equipment

Gasuos Plasma
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Dental devices classification : Infection control room
The CDC states, “Studies have shown that
handpieces can become contaminated
internally with patient materials and the
next patient may be exposed to potentially
infectious materials.” The CDC goes on to
state handpieces “should always be heat
sterilized after each patient
su on Look at CDC website
Read the lecture from textbook
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