Disinfection - PowerPoint PPT Presentation

1 / 36
About This Presentation
Title:

Disinfection

Description:

... Hot air oven Used for inoculating loop Incineration of contaminants Dry Heat, ... is the most effective method of moist heat sterilization the steam must ... – PowerPoint PPT presentation

Number of Views:670
Avg rating:3.0/5.0
Slides: 37
Provided by: Steve1105
Category:

less

Transcript and Presenter's Notes

Title: Disinfection


1
Disinfection
  • Disinfection is the elimination of pathogens,
    except spores, from inanimate objects
  • Disinfectants are chemical solutions used to
    clean inanimate objects
  • (physical processes, e.g., UV radiation, may
    also be employed to effect disinfection)
  • Germicides are chemicals that can be applied to
    both animate (living) and inanimate objects for
    the purpose of eliminating pathogens
  • Antiseptics are formulated for application to
    living tissue

Destruction/Removal of Harmful Microorganisms
2
The Ideal Disinfectant
  • Resistant to inactviation
  • Broadly active (killing pathogens)
  • Not poisonous (or otherwise harmful)
  • Penetrating (to pathogens)
  • Not damaging to non-living materials
  • Stable
  • Easy to work with
  • Otherwise not unpleasant

3
Disinfectant Performance
  • Is dependent on Disinfectant concentrations
  • Is dependent on length (time) of administration
  • Is dependent on temperature during administration
  • (usual chemical reaction 2x increase in rate
    with each 10C increase in temperature)
  • Microbe type (e.g., mycobacteria, spores, and
    certain viruses can be very resistant to
    disinfectionin general vegetative cells in log
    phase are easiest to kill)
  • Substrate effects (e.g., high organic content
    interferes with disinfectionstainless steel
    bench easier to disinfect than turd)
  • It is easier (and faster) to kill fewer microbes
    than many microbes

4
Cleansing
  • Cleansing is the removal of soil or organic
    material from instruments and equipment may be
    done, clinically, in four steps
  • Rinsing the object under cold water
  • Applying detergent and scrubbing object
  • Rinsing the object under warm water
  • Drying the object prior to sterilization or
    disinfection

5
Sterilization
  • Sterilization is the total elimination of all
    microorganisms including spores
  • Typically the last things to die are the highly
    heat- and chemical-resistant bacterial endospores
  • Instruments used for invasive procedures must be
    sterilized prior to use
  • Moist heat or steam, radiation, chemicals (e.g.,
    glutaraldehyde), and ethylene oxide (a gas) are
    employed for sterilization
  • Sterilization by autoclaving, which uses moist
    heat, is used in most hospital and microbiology
    laboratory settings

6
Other Terms
  • Sanitization Lowering of microbial counts to
    prevent transmission in public setting (e.g.,
    restaurants public rest rooms)
  • Degerming Mechanical removal of microbes, e.g.,
    from hands with washing
  • Sepsis Bacterial contamination
  • Antisepsis Reduction of or Inhibition of
    microbes found on living tissue
  • Germincides, Fungicides, Virucides
  • Physical versus Chemical disinfectants
  • Static (stasis) versus Cidal (e.g.,
    bacteriostatic versus bacteriocidal)

7
Exponential Death
8
Different Kinds of Bacteria Death
1. Bacteriostatic
2. Bacteriocidal
3. Bacteriolytic
9
Resistance to Killing
  • Gram-negative bacteria (with their outer
    membrane) are generally more resistant than
    gram-positive bacteria to disinfectants and
    antiseptics
  • Stationary-phase (I.e., non-growing) bacteria
    generally are more resistant than log-phase
    (I.e., growing) bacteria
  • Mycobacteria, endospores, and protozoan cysts and
    oocysts are very resistant to disinfectants and
    antiseptics
  • Nonenveloped viruses are generally more resistant
    than enveloped viruses to disinfectants and
    antiseptics
  • Organic matter (such as vomit and feces)
    frequently affects the actions of chemical
    control agent
  • Disinfectant activity is inhibited by cold
    temperatures
  • Longer application times are preferable to
    shorter
  • Higher concentrations, though, are not always
    preferable to lower concentration (e.g., alcohols)

10
Chemical Antimicrobials
Agent Mechanisms of Action Comments
Surfactants Membrane Disruption increased penetration Soaps detergents
Quats (cationic detergent) Denature proteins Disrupts lipids Antiseptic - benzalconium chloride, Cepacol Disinfectant
Organic acids and bases High/low pH Mold and Fungi inhibitors e.g., benzoate of soda
Heavy Metals Denature protein Antiseptic Disinfectant Silver Nitrate
Halogens Oxidizing agent Disrupts cell membrane Antiseptic - Iodine (Betadine) Disinfectant - Chlorine (Chlorox)
Alcohols Denatures proteins Disrupts lipids Antiseptic Disinfectant Ethanol and isopropyl
Phenolics Disrupts cell membrane Disinfectant Irritating odor
Aldehydes Denature proteins  Gluteraldehyde - disinfectant (Cidex) Formaldehyde - disinfectant
Ethylene Oxide Denaturing proteins Used in a closed chamber to sterilize
Oxidizing agents Denature proteins Hydrogen peroxide antiseptic Hydrogen peroxide disinfectan Benzoyl peroxide antiseptic
11
Surfactants
12
Soap Detergents
  • Soaps are sodium or potassium salts of fatty
    acids, a natural product
  • Detergents, instead, are artificial surfactants
  • While soaps are always negatively charged, some
    detergents are negatively charged while others
    are positively charged
  • One example of a positively charged detergent are
    quaternary ammonium compounds (a.k.a., quats)

13
Quats
  • Quats are cationic detergents that act by
    disrupting lipid bilayers
  • Quats are bactericidal, fungicidal, viricidal
    (enveloped), and amoebicidal
  • Quats are most effective against Gram-positive
    bacteria
  • Quats do not kill endospores, Mycobacteria spp.,
    nor non-enveloped viruses
  • Quats are rapidly inactivated by organics
    including cotton and soap
  • Zephiran ? Benzalkonium chloride
  • Cepacol ?Cetylpyridinium chloride

14
Heavy Metals
  • Ag, Cu, Hg, Ni, Zn, Ag(NO3)2, CuSO4, ZnCl2, HgCl2
  • These metals (and metal ions) react with
    sulfhydral (SH) groups of proteins, denaturing
    proteins
  • Silver nitrate is used to treat Ophthalmia
    neonatorum in newborns as caused by Neisseria
    gonorrhoeae
  • Oligodynamic action the ability of very small
    amounts of heavy metals (especially silver and
    copper) to exert antimicrobial activity

15
Halogens
  • Halogens are the seventh (VII) column of the
    periodic table of elements
  • Two halogens are regularly employed as
    antimicrobials Iodine and Chloride
  • Iodine commonly used as an antiseptic against
    all microbes, fungi, and viruses
  • Iodine It inhibits protein synthesis and
    oxidizes SH groups of amino acids
  • Chlorine Used as a disinfectant (10 bleach)
  • Chlorine Hypochlorous acid (HOCl) is a product,
    formed in water, that is the active form of the
    disinfectant
  • Chlorine Applied in treatment of drinking water,
    swimming pool, and sewage

16
Chlorination
  • 1744 discovered in Sweden
  • 1810 identified as an element
  • 1835 first used to control odors
  • 1890s started to be used as a disinfectant
  • 1896 earliest recorded use in experiments on
    water supplies
  • 1897 used in England to sterilize water mains
    following typhoid outbreak
  • 1902 first continuous use in water supplies in
    Belgium
  • 1909 liquid chlorine (compressed gas) became
    commercially available
  • Subsequent rapid spread in use of chlorine
    throughout the world
  • WWI Chlorine gas used as chemical warfare agent

17
Chlorination
  • Hypochlorite may either be added directly (i.e.,
    in the form of bleach) or created within water by
    bubbling chlorine gas through the water
  • Chlorine gas - preferred for medium to large
    disinfection systems
  • Sodium Hypochlorite (liquid) - typically used for
    small disinfection systems and large swimming
    pools
  • Calcium Hypochlorite (powder, tablet) - typically
    used for private swimming pools
  • For water purification, do not use scented bleach
  • Bromine sometimes used as a less-smelly
    alternative
  • Hypochlorite is less effective in the presence of
    significant organic compounds

What is known as modern chemical warfare began
during World War I. The first chemical agent to
be used was large amounts of chlorine gas, about
one hundred sixty tons, which was released from
6,000 pressurized cylinders into the wind by the
Germans against the Allies. The chlorine floated
in a huge clouds toward the Allies until it
reached the Allied lines causing men to die from
the effects of the chlorine gas. Because of the
large amounts of gas released the chlorine caused
large amounts of yellowish fluid to form in the
lungs of its victim, also causing eye, nose, and
throat burning before causing death by
choking. http//www.geocities.com/CapeCanaveral/
Lab/4239/chemweapons/history.html
18
Alcohols
  • Aqueous ethanol (60-95) and isopropanol are used
    as disinfectants
  • Effectively kill bacteria and fungi but not
    endospores nor nonenveloped viruses
  • Fast acting, no residue (evaporate away), no
    staining
  • But not very penetrating and no residual activity
    (once gone gone)
  • Exert their action by denaturing proteins and
    dissolving lipids
  • In tinctures, they enhance the effectiveness of
    other antimicrobial chemicals
  • Flammable also may damage rubber, plastic, etc.

19
Tincture
  • Formulae Fresh juice of Organic Habanero
    peppers, New Mexico Jalapeno, African Bird
    peppers and Hatch Chili peppers.
  • Dosage Five to thirty drops, three times daily. 
    CAUTION EXTREMELY HOT!!
  • Therapeutic Action Cayenne is the greatest
    herbal aid to circulation and should be used on a
    regular basis.  The extract is very concentrated
    and gets into the bloodstream quickly and makes
    it a perfect first aid remedy for heart attacks,
    stroke, fainting, shock, dizziness, hemorrhage,
    internal and external bleeding.  Use a few drops
    to 10 droppers full.  It has saved many lives.

20
Tincture II
  • Formulae Fresh Garlic Juice, Goldenseal root,
    Usnea lichen, Myrrh gum, Pine resin, Echinacea
    root juice, Tea Tree oil, Kelp, Black Walnut
    inner hulls, Oak galls and Cayenne pepper in 80
    grain alcohol.
  • Dosage Generally for external use but can be
    used in the oral cavity.  Soak a cotton swab in
    the tincture and scrub into the infected area,
    let air dry.  It has a burning sensation. If the
    wound is tender, just flush it with multiple
    droppers full of the tincture but no need to
    scrub it in.
  • Therapeutic Action There has never been an
    infected occur when this formula has been used. 
    It's excellent for treating any cut or wound and
    it is anti-bacterial, anti-viral and
    anti-fungal.  The tree resins in this formula
    leave an invisible protective, anti-bacterial
    coating over the wound.  This formula was use on
    a man in England who had the top of his knee torn
    off in an automobile accident.  In 24 hours it
    literally glued his knee back together.  A nurse
    from Ireland on the scene said in all the years
    in the hospital, she had never seen such a severe
    wound close right up and heal, and with no
    infections.

A tincture is a nonvolatile substance (medicine)
presented as an alcohol solution, e.g., (for fun
with numerous sic)
21
Iodine Iodophores
22
Phenol, Carbolic Acid, Phenolics
  • Phenol (carbolic acid) and derivatives
  • Affect plasma membrane, inactivates enzymes, and
    denature proteins
  • Stable, persistant, and especially effective when
    dealing with disinfecting materials contaminated
    with organics
  • but leave residual films, can irritate skin,
    dont kill endospores, and are corrosive to
    rubber and plastics
  • Some phenolics are mild enough for use as
    antiseptics while others are too harsh or
    otherwise dangerous to be employed on living
    tissue
  • Hexachlorophene, Triclosan, Lysol, soap

23
Oxidizing Agents
  • HOOH, hydrogen peroxide, is most common
  • HOOH is not a terribly effective disinfectant or
    anticeptic
  • This is because bacteria and body tissues contain
    enzymes (catalase) that inactivate hydrogen
    peroxide
  • However, the oxygen released upon inactivation
    can help oxygenate deep wounds and thus kill
    strict-anaerobe contaminants, e.g., Clostridium
    tetani
  • Ozone and peracetic acid are also oxidizing
    antimicrobial agents
  • They exert their effect by oxidizing cell
    macromolecules (e.g., proteins, DNA, etc.)

24
Glutaraldehyde
Glutaraldehyde is capable of effectiving
sterilizationat room temperature, even against
endospores, and even in the presence of
organics, but achieving sterilization requries
many hours of exposure and it is nasty stuff to
work with!
25
Gaseous Chemosterilizers
  • Propylene oxide (C3H6O)
  • Chlorine gas (Cl2)
  • Chlorine dioxide (ClO2)
  • Ozone (O3)
  • Ethylene oxide (C2H4O)
  • is used to sterilize heat- or moisture-sensitive
    items
  • is used for items damaged by heat or moisture
  • is not corrosive, not damaging to delicate
    instruments, microscopes, disposable plastic
    instruments and materials
  • permeates porous materials
  • dissipates rapidly from material
  • but is costly, toxic, carcinogenic, explosive,
    and relatively lengthy process

26
Physical Antimicrobials
Agent Mechanisms of Action Comments
Moist Heat, boiling Denatures proteins Kills vegetative bacterial cells and viruses Endospores survive
Moist Heat, Autoclaving Denatures proteins 121C at 15 p.s.i. for 30 min kills everything
Moist Heat, Pasteurization Denatures proteins Kills pathogens in food products
Dry Heat, Flaming Incineration of contaminants Used for inoculating loop
Dry Heat, Hot air oven Oxidation Denatures proteins 170C for 2 hours Used for glassware instrument sterilization
Filtration Separation of bacteria from liquid (HEPA from air) Used for heat sensitive liquids
Cold, Lyophilization (also desiccation) Desiccation and low temperature Used for food drug preservation Does not necessarily kill so used for Long-term storage of bacterial cultures
Cold, Refrigeration Decreased chemical reaction rate Bacteriostatic
Osmotic Pressure, Addition of salt or sugar Plasmolysis of contaminants Used in food preservation (less effective against fungi)
Radiation, UV DNA damage (thymine dimers) Limited penetration
Radiation, X-rays DNA damage Used for sterilizing medical supplies
Strong vis. Light Line-drying laundry
27
Application of Heat
  • Heat is frequently used to kill microorganisms
  • Thermal death point (TDP) is the lowest
    temperature at which all bacteria in a liquid
    culture will be killed in 10 minutes
  • Thermal death time (TDT) is the length of time
    required to kill all bacteria in a liquid culture
    at a given temperature
  • Decimal reduction time (DRT) is the length of
    time in which 90 of a bacterial population will
    be killed at a given temperature (especially
    useful in canning industry)
  • Dry heat kills by oxidation (slow, uneven
    penetration)
  • Moist heat kills by protein coagulation
    (denaturation) so requires lower temperatures or
    shorter times, but the moisture must penetrate to
    pathogens to be effective (grease oil can block)

28
Moist Heat
  • Moist heat kills microbes by denaturing enzymes
    (coagulation of proteins)
  • Boiling (at 100C, I.e., at sea level) kills many
    vegetative cells and viruses within 10 minutes
  • Autoclaving steam applied under pressure (121C
    for 15 min) is the most effective method of moist
    heat sterilizationthe steam must directly
    contact the material to be sterilized
  • Pasteurization destroys pathogens (Mycobacterium
    tuberculosis, Salmonella typhi, etc.) without
    altering the flavor of the fooddoes not
    sterilize (63C for 30 seconds)
  • Higher temperature short time pasteurization
    applies higher heat for a much shorter time (72C
    for 15 seconds)
  • An ultra-high-temperature, very short duration
    treatment (140C for 3 sec.) is used to sterilize
    dairy products

29
Sterilization Times
  • 171o C, 60 minutes, dry heat
  • 160o C, 120 minutes, dry heat
  • 149o C, 150 minutes, dry heat
  • 141o C, 180 minutes, dry heat
  • 121o C, 12 hours, dry heat
  • 121o C, 15 minutes, moist heat (but dont start
    the clock until entire item is up to tempe.g.,
    large volumes fluid)

30
Filtration Air Fluids
31
Evaluating Disinfectants
  • Phenol Coefficient
  • compares efficacy to that of phenol, with
    greater efficacy indicated with coefficient gt1
  • Salmonella typhi and Staphylococcus aureus
    commonly used to determine coefficients
  • Filter-Paper/Disk Diffusion method
  • placement of disinfectant impregnated filter
    paper on well-inocated agar
  • Use-Dilution test
  • drying bacteria to surface followed by exposure
    to disinfectant and subsequent washing and
    inoculation of sterile broth

32
Disk Diffusion Method
33
Hands Spread Disease
WASH 'EM !!!
34
Link to Next Presentation
35
Acknowledgements
http//www.sw.vccs.edu/rth/RTH_132/decont.ppt http
//www.nt.gov.au/powerwater/html/pdf/tennant_creek
_chlorination.ppt http//www.bugcruncher.com/ws/do
cs/lekcii/DS_INQUAL_eng.ppt (nice overview of
specific antimicrobials) http//www.delmarhealthca
re.com/olcs/white/ppts/chapter2021.ppt (nice
overview of microbilogy in nursing) http//www.cou
ntyofkings.com/health/ehs/forms/FDHNDLR.ppt http/
/bioeng.ttu.edu.tw/chunyi/microbes/Chapter7.ppt h
ttp//microbiology.okstate.edu/courses/micro2124/b
abus/Chpt7_files/chapter7.ppt
36
Chemical Antimicrobials
Type of Disinfectant H High level I
Intermediate level L Low level
Write a Comment
User Comments (0)
About PowerShow.com