disinfection.ppt
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Mar 31, 2023
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About This Presentation
Destruction or removal of all pathogenic organisms, or organisms capable of giving rise to infection.
Slide Content
CHEMICAL DISINFECTION
Historical Review
•Wine used externally & internally
•1363 -Brandy used for military dressing
•1830 -Tincture of iodine US
pharmacopoeia
•1832 -Creosote (phenol) “I preserve flesh
“in Greek
•1854 -Hypochlorites used in hospital wards
•1905 –Kinnaman, disinfectant action of
chemicals
•Wine used externally & internally
•1363 -Brandy used for military dressing
•1830 -Tincture of iodine US
pharmacopoeia
•1832 -Creosote (phenol) “I preserve flesh
“in Greek
•1854 -Hypochlorites used in hospital wards
•1905 –Kinnaman, disinfectant action of
chemicals
Definitions
•Sterilization
•Disinfection
•Antisepsis
•Decontamination
•Sterilization
•Disinfection
•Antisepsis
•Decontamination
Definitions
•Sterilisation–Process by which an
article, surface or medium is freed of all
living microorganisms either in the
vegetetative or spore state.
•Disinfection –Destruction or removal of
all pathogenic organisms, or organisms
capable of giving rise to infection.
•Sterilisation–Process by which an
article, surface or medium is freed of all
living microorganisms either in the
vegetetative or spore state.
•Disinfection –Destruction or removal of
all pathogenic organisms, or organisms
capable of giving rise to infection.
Definitions
•Antisepsis–Prevention of infection,
usually by inhibiting the growth of
bacteria in wounds or tissues.
•Decontamination–Process of
rendering an article or area free of
contaminants eg.microbial, chemical
etc.
•Antisepsis–Prevention of infection,
usually by inhibiting the growth of
bacteria in wounds or tissues.
•Decontamination–Process of
rendering an article or area free of
contaminants eg.microbial, chemical
etc.
Properties ; Ideal Disinfectant
•Wide spectrum of activity
•Active in presence of organic matter
•Effective in acid & alkaline media
•Speedy action
•High penetrating power
•Wide spectrum of activity
•Active in presence of organic matter
•Effective in acid & alkaline media
•Speedy action
•High penetrating power
Properties ; Ideal Disinfectant
•Stable
•Compatible with other antiseptics &
disinfectants
•Non corrosive, non irritant & non toxic
•Cheap & easily available
•Safe & easy to use
•Stable
•Compatible with other antiseptics &
disinfectants
•Non corrosive, non irritant & non toxic
•Cheap & easily available
•Safe & easy to use
Modes of action
•Protein coagulation
•Disruption of cell membrane
•Removal of sulphydryl groups essential
for enzyme functioning
•Substrate competition
•Protein coagulation
•Disruption of cell membrane
•Removal of sulphydryl groups essential
for enzyme functioning
•Substrate competition
Levels of Disinfectant Action
BACTERIA FUNGI VIRUSES
Disinfectant
Level Spores
Tubercle
Bacillus
Vegeta
tive
CellsFungi
Non
lipid
and
Small
Lipid
and
Medium
Sized
High +‡ + + + + +
IntermediateS + + + ±(in
high
conc|)
+
Low - - + ± ± +
BACTERIA FUNGI VIRUSES
Disinfectant
Level Spores
Tubercle
Bacillus
Vegeta
tive
CellsFungi
Non
lipid
and
Small
Lipid
and
Medium
Sized
High +‡ + + + + +
IntermediateS + + + ±(in
high
conc|)
+
Low - - + ± ± +
Classification
Low & Intermediate
level
•Halogens
•Alcohols
•Phenols
•Dyes
•Metallic salts
•Surface active agents
High level
•Aldehydes
•Peroxygen Compounds
Low & Intermediate
level
•Halogens
•Alcohols
•Phenols
•Dyes
•Metallic salts
•Surface active agents
High level
•Aldehydes
•Peroxygen Compounds
PRIONS
BACTERIAL SPORES
MYCOBACTERIA
PARASITIC CYSTS
SMALL NON ENVELOPED VIRUSES
TROPHOZOITES
NON SPORULATING GRAM NEGATIVE BACTERIA
FUNGI
LARGE NON ENVELOPED VIRUSES
NON SPORULATING GRAM POSITIVE BACTERIA
ENVELOPED VIRUSES
HIGHEST
LOWEST
BACTERIAL SPORES
MYCOBACTERIA
PARASITIC CYSTS
SMALL NON ENVELOPED VIRUSES
TROPHOZOITES
NON SPORULATING GRAM NEGATIVE BACTERIA
FUNGI
LARGE NON ENVELOPED VIRUSES
NON SPORULATING GRAM POSITIVE BACTERIA
ENVELOPED VIRUSES
HIGHEST
LOWEST
Halogens
•Chlorine & chlorine compounds
–Chlorine
–Hypochlorites
–Chlorine dioxide
–Chloramines
•Iodine & iodine compounds
–Iodine & iodide
–Iodophors
–Preparations producing iodine in situ
•Chlorine & chlorine compounds
–Chlorine
–Hypochlorites
–Chlorine dioxide
–Chloramines
•Iodine & iodine compounds
–Iodine & iodide
–Iodophors
–Preparations producing iodine in situ
Chlorine & Chlorine Compounds
•Mechanism of action
Cl + H
2O → HOCl + H
+
+ Cl
-
Oxidize thiol gps and halogenate –NH
2gps in proteins
•Advantages
–Low cost
–Rapidity of action
–Broad antimicrobial activity
•Disadvantages
–Corrosiveness
–Inactivation by organic matter
–Chemical instability.
•Mechanism of action
Cl + H
2O → HOCl + H
+
+ Cl
-
Oxidize thiol gps and halogenate –NH
2gps in proteins
•Advantages
–Low cost
–Rapidity of action
–Broad antimicrobial activity
•Disadvantages
–Corrosiveness
–Inactivation by organic matter
–Chemical instability.
Practical applications
•Water treatment
–Drinking water
–Swimming pools
–Sewage & waste water
•Disinfection of open wounds & dental therapy
–Hypochlorites & organic chloramines
•Disinfection of equipment, instruments & laundry
•Decontamination
–Blood and body fluid spills
–Bedpans, urinals, and kidney bowls
–Culture spills in the microbiology laboratory
•Water treatment
–Drinking water
–Swimming pools
–Sewage & waste water
•Disinfection of open wounds & dental therapy
–Hypochlorites & organic chloramines
•Disinfection of equipment, instruments & laundry
•Decontamination
–Blood and body fluid spills
–Bedpans, urinals, and kidney bowls
–Culture spills in the microbiology laboratory
Iodine & Iodine Compounds
•Mode of action
–Oxidation of -SH group
–Iodination of phenolic & imidazolic groups of
amino acids
•Iodophores
–Complex of iodine with a carrier
•Carriers –neutral polymers e.g. polyvinylpyrrolidinone
(Povidone Iodine)
•↑ solubility of iodine
•Sustained release reservoir
•Mode of action
–Oxidation of -SH group
–Iodination of phenolic & imidazolic groups of
amino acids
•Iodophores
–Complex of iodine with a carrier
•Carriers –neutral polymers e.g. polyvinylpyrrolidinone
(Povidone Iodine)
•↑ solubility of iodine
•Sustained release reservoir
Iodine & Iodine Compounds
•Topical antiseptics
•Topical Iodine soln (aq soln of 2% Iodine & 2.4% NaI)
•Tincture of iodine (2% Iodine & 2.4% NaIin aqethanol)
•Lugol’s iodine (5% Iodine with 10% KI)
•Povidone iodine
Preoperative preparation of skin
Treatment of infected & burnt skin
•Veterinary medicine
•Disinfection of cow’s udder
•Disinfection of water & air
•Topical antiseptics
•Topical Iodine soln (aq soln of 2% Iodine & 2.4% NaI)
•Tincture of iodine (2% Iodine & 2.4% NaIin aqethanol)
•Lugol’s iodine (5% Iodine with 10% KI)
•Povidone iodine
Preoperative preparation of skin
Treatment of infected & burnt skin
•Veterinary medicine
•Disinfection of cow’s udder
•Disinfection of water & air
Alcohols
•Ethyl alcohol & isopropyl alcohol (70%)
•Mode of action
–Protein coagulation/denaturation
•Range
–Vegetative bacteria
–Viruses (enveloped)
–Fungus -Methyl alcohol
–Protozoans
•Disinfection of thermometers & stethoscopes
•Skin antiseptics
•Ethyl alcohol & isopropyl alcohol (70%)
•Mode of action
–Protein coagulation/denaturation
•Range
–Vegetative bacteria
–Viruses (enveloped)
–Fungus -Methyl alcohol
–Protozoans
•Disinfection of thermometers & stethoscopes
•Skin antiseptics
Phenolic compounds
•Coal tar
–clear soln phenolics
–black fluids
•Fractionation of coal tar
•Synthetic-phenol, cresol & xylenol
•Bisphenols -two phenolic gps e.g.
dichlorophane
•Chlorhexidine
•Coal tar
–clear soln phenolics
–black fluids
•Fractionation of coal tar
•Synthetic-phenol, cresol & xylenol
•Bisphenols -two phenolic gps e.g.
dichlorophane
•Chlorhexidine
Phenolic compounds
•Mode of action
–At high conc -penetrates and destroys cell wall &
precipitates cellular protein
–In lower conc -inactivates essential enzymes
•Disinfection of environmental surfaces and
noncritical devices
•Chlohexidine
–Skin disinfection
–Surgical hand disinfection
–Obstetrics & gynaecology
•Mode of action
–At high conc -penetrates and destroys cell wall &
precipitates cellular protein
–In lower conc -inactivates essential enzymes
•Disinfection of environmental surfaces and
noncritical devices
•Chlohexidine
–Skin disinfection
–Surgical hand disinfection
–Obstetrics & gynaecology
Surface active agents
•Amphophilic compounds
•Hydrophilic gp
•Lipophilic gp
•On the basis of charge on polar group
–Cationic (QAC)
–Anionic
•K laurate, Na lauryl sulphate (soaps, shampoos)
–Nonionic
•Stabilizers, wetting agents, detergents & emulsifiers
–Amphoteric/ zwitter ions
•Catonic & anionic charge
•Nonionic at isoelectric pH
•Amphophilic compounds
•Hydrophilic gp
•Lipophilic gp
•On the basis of charge on polar group
–Cationic (QAC)
–Anionic
•K laurate, Na lauryl sulphate (soaps, shampoos)
–Nonionic
•Stabilizers, wetting agents, detergents & emulsifiers
–Amphoteric/ zwitter ions
•Catonic & anionic charge
•Nonionic at isoelectric pH
Surface active agents (Cationic)
•Mode of action
–Act on the PO
4gp of cell membrane → enter cell →
denature proteins
•Antimicrobial activity
–Gram +ve & Gram –ve at higher conc
–Spores, mycobacteria & viruses –no effect
•Cetavlon(savlon), benzalkonium chloride & cetrimide
•Disinfection of skin, bladder irrigation, diaper rash
•Disadv : Gm -ve bacteria Pseudomonas and Proteus
spp. capable of growing in these solutions
•Mode of action
–Act on the PO
4gp of cell membrane → enter cell →
denature proteins
•Antimicrobial activity
–Gram +ve & Gram –ve at higher conc
–Spores, mycobacteria & viruses –no effect
•Cetavlon(savlon), benzalkonium chloride & cetrimide
•Disinfection of skin, bladder irrigation, diaper rash
•Disadv : Gm -ve bacteria Pseudomonas and Proteus
spp. capable of growing in these solutions
Peroxygen Compounds
•Hydrogen peroxide
•Peracetic acid
•Performic acid
•Perpropionic acid
•Hydrogen peroxide
•Peracetic acid
•Performic acid
•Perpropionic acid
Peroxygen Compounds
•Mode of action
–Cl
-
+ H
2O
2
MPO
OCl
-
+ H
2O
–O
2
-
+ H
2O
2 → OH + OH
-
+ O
2
–H
2O
2 + Fe
2+
→ OH + OH
-
+ Fe
3+
•Range of action
–Bacteria, yeasts , fungi, viruses & spores
•Applications
–Antiseptic
–Odor control in sewage treatment
–Contact lens disinfectant
•Mode of action
–Cl
-
+ H
2O
2
MPO
OCl
-
+ H
2O
–O
2
-
+ H
2O
2 → OH + OH
-
+ O
2
–H
2O
2 + Fe
2+
→ OH + OH
-
+ Fe
3+
•Range of action
–Bacteria, yeasts , fungi, viruses & spores
•Applications
–Antiseptic
–Odor control in sewage treatment
–Contact lens disinfectant
Gaseous Chemical Sterilization
•Alkylating agents
–Ethylene oxide (ETO)
–Formaldehyde
•Oxidizing agents
–Ozone
–Betapropiolactone (BPL)
–Propylene oxide
–Chlorine dioxide
•Alkylating agents
–Ethylene oxide (ETO)
–Formaldehyde
•Oxidizing agents
–Ozone
–Betapropiolactone (BPL)
–Propylene oxide
–Chlorine dioxide
Ethylene oxide (ETO)
•Mode of action
–Alkylating –NH
2, -OH & -SH gps
•Applications
–Heart lung machine
–Respirators
–Dental equipment
–Glass, metal, paper surfaces
•Disadvantage
–Explosive nature
–Carcinogenic
–Mutagenic
•Mode of action
–Alkylating –NH
2, -OH & -SH gps
•Applications
–Heart lung machine
–Respirators
–Dental equipment
–Glass, metal, paper surfaces
•Disadvantage
–Explosive nature
–Carcinogenic
–Mutagenic
Aldehydes
•Glutaraldehyde
•Formaldehyde
•Glutaraldehyde
•Formaldehyde
Glutaraldehyde
•Saturated dialdehyde
•Mode of action
–Alkylation of sulfhydryl, hydroxyl,
carboxyl, and amino groups
•Contact time -20 to 90 min
•Chemosterilant -long contact time (6
to 10 hrs)
•Saturated dialdehyde
•Mode of action
–Alkylation of sulfhydryl, hydroxyl,
carboxyl, and amino groups
•Contact time -20 to 90 min
•Chemosterilant -long contact time (6
to 10 hrs)
Glutaraldehyde
•Advantages
–Broad spectrum
–Activity in presence of organic matter
–Non corrosive action on metals, rubber&
lenses
•Disinfection of endoscopes,
cystoscopes & anesthesia equipment
(Cidex 2% soln))
•Dental surgical instruments
•Advantages
–Broad spectrum
–Activity in presence of organic matter
–Non corrosive action on metals, rubber&
lenses
•Disinfection of endoscopes,
cystoscopes & anesthesia equipment
(Cidex 2% soln))
•Dental surgical instruments
Formaldehyde
•Less potent germicide
•Fumigation of wards/ laboratories/ OTs
(150g KMnO4 + 280 ml formalin/1000cu ft)
•Application
–Disinfection of dialysis systems and
hemodialysis filters
–10% soln used as preservative
•Less potent germicide
•Fumigation of wards/ laboratories/ OTs
(150g KMnO4 + 280 ml formalin/1000cu ft)
•Application
–Disinfection of dialysis systems and
hemodialysis filters
–10% soln used as preservative
Metals
Copper Silver Mercury
Sulphate
Acetate
Citrate
Nitrate
Sulphadiazine
Thiomersa
Mercurochrome
Phenyl mercuric
nitrate
•Fungicide
•Algicide
•Antisepsis •Disinfectant
•Fungicide
•Preservative
Copper Silver Mercury
Sulphate
Acetate
Citrate
Nitrate
Sulphadiazine
Thiomersa
Mercurochrome
Phenyl mercuric
nitrate
•Fungicide
•Algicide
•Antisepsis •Disinfectant
•Fungicide
•Preservative
Dyes
Aniline
•Brilliant green
•Malachite green
•Crystal violet
•Affected by presence of
organic matter
•Selective agents in
culture media
Acridine
•Proflavine
•Acriflavine
•Euflavine
•Not affected by presence of
organic matter
•Antisepsis
•Gram +ve > gram –ve organisms
•Bacteriostatic
Aniline
•Brilliant green
•Malachite green
•Crystal violet
•Affected by presence of
organic matter
•Selective agents in
culture media
Acridine
•Proflavine
•Acriflavine
•Euflavine
•Not affected by presence of
organic matter
•Antisepsis
•Gram +ve > gram –ve organisms
•Bacteriostatic
Risk Stratification Of Hospital
Environment
High risk
(Surgical instruments,
endoscopes & catheters)
Contact with broken skin or mucous
membranes/introduced into body
Intermediate risk
(Resp & anesthetic
equipment, thermometers)
Intact skin/mucous membrane/body
fluids
Low risk
(stethoscopes, beddings)
Intact skin
Minimal risk
(floors, walls, ceilings)
Not in close contact
Environment
High risk
(Surgical instruments,
endoscopes & catheters)
Contact with broken skin or mucous
membranes/introduced into body
Intermediate risk
(Resp & anesthetic
equipment, thermometers)
Intact skin/mucous membrane/body
fluids
Low risk
(stethoscopes, beddings)
Intact skin
Minimal risk
(floors, walls, ceilings)
Not in close contact
Hospital Decontamination
AIR Atomized propylene glycol, formaldehyde
BATHS, WASH
BOWLS &
TOILETS
Chlorine releasing compounds
Regular cleaning(acids)
BEDPANS &
URINALS
Decontamination
RESPIRATORY
&
ANAESTHETIC
EQUIPMENT
Ethylene oxide
Glutaraldehyde
ENDOSCOPES Glutaraldehyde
AIR Atomized propylene glycol, formaldehyde
BATHS, WASH
BOWLS &
TOILETS
Chlorine releasing compounds
Regular cleaning(acids)
BEDPANS &
URINALS
Decontamination
RESPIRATORY
&
ANAESTHETIC
EQUIPMENT
Ethylene oxide
Glutaraldehyde
ENDOSCOPES Glutaraldehyde
Chemical Disinfection Of Surfaces
•Doorknobs, sinks & bed
rails
•Intensive care units,
surgical suites, and
nurseries
•Chlorine compounds
(500ppm), phenol, or
QACs
•Walls and windows
•Phenols, QACs, and
chlorine compounds with
100 to 200 ppm
Densely contaminated
surfaces
Sparsely contaminated
surfaces
•Doorknobs, sinks & bed
rails
•Intensive care units,
surgical suites, and
nurseries
•Chlorine compounds
(500ppm), phenol, or
QACs
•Walls and windows
•Phenols, QACs, and
chlorine compounds with
100 to 200 ppm
Densely contaminated
surfaces
Sparsely contaminated
surfaces
BACTERIAL
SPORES
Glutaraldehyde, formaldehyde
vapour, Chlorine dioxide&
peracetic acid
BLOOD BORNE
VIRUSES,
HEPATITIS A &
PRIONS
Glutaraldehyde, 70% Alcohol,
hypochlorites & iodophores
MYCOBACTERIA
Ethylene oxide, glutaraldehyde,
chlorine dioxide
Problem Microorganisms
SPORES
Glutaraldehyde, formaldehyde
vapour, Chlorine dioxide&
peracetic acid
BLOOD BORNE
VIRUSES,
HEPATITIS A &
PRIONS
Glutaraldehyde, 70% Alcohol,
hypochlorites & iodophores
MYCOBACTERIA
Ethylene oxide, glutaraldehyde,
chlorine dioxide
Problem Microorganisms
Testing of Disinfectants
•In vitro tests
–Suspension tests
•Qualitative -Rideal –Walker
-Modified Chick Martin
•Quantitative
–Capacity tests
•Kelsey Sykes test
–Carrier tests
•In use tests
•In vitro tests
–Suspension tests
•Qualitative -Rideal –Walker
-Modified Chick Martin
•Quantitative
–Capacity tests
•Kelsey Sykes test
–Carrier tests
•In use tests
Bacterial
suspension
Disinfectant
solution
Phenol
Subculture a loopful
after contact time
Rideal –Walker Test
Phenol coefficientDilution of test disinfectant
that sterilizes suspension in
given time
Dilution of phenol
suspension
Disinfectant
solution
Phenol
Subculture a loopful
after contact time
Rideal –Walker Test
Phenol coefficientDilution of test disinfectant
that sterilizes suspension in
given time
Dilution of phenol
Testing of Disinfectants
•Modified Chick Martin
–Organic matter –dried yeast or faeces
•Capacity tests
–The ability to retain activity in the presence
of an increasing load
•Carrier tests
–Carrier ( 1 cm
2
cotton cloth dipped in
bacterial suspension) transferred to
disinfectant & after fixed reaction time ,
subcultured
•Modified Chick Martin
–Organic matter –dried yeast or faeces
•Capacity tests
–The ability to retain activity in the presence
of an increasing load
•Carrier tests
–Carrier ( 1 cm
2
cotton cloth dipped in
bacterial suspension) transferred to
disinfectant & after fixed reaction time ,
subcultured
In Use Tests
•Microbiological monitoring of
environment
•Sample taken & diluted plated
•Growth of non sporulating bacteria
Inadequate disinfectant
•Microbiological monitoring of
environment
•Sample taken & diluted plated
•Growth of non sporulating bacteria
Inadequate disinfectant
Resistance to Disinfectants
•Intrinsic
–Impaired uptake of the germicide
–Production of biofilms
•Extrinsic
–Plasmids or transposons –inactivate
germicide
–Efflux pumps
•Intrinsic
–Impaired uptake of the germicide
–Production of biofilms
•Extrinsic
–Plasmids or transposons –inactivate
germicide
–Efflux pumps
Hospital Policy
•Every hospital should implement a formal
written policy for its disinfection and
sterilization procedures
•Which disinfectant should be used for a
particular purpose
•Safety aspects
–Methods for preparing an accurate use dilution
–Correct exposure time for each disinfectant
–The contact times and concentrations
recommended by the manufacturer must be
strictly followed
–Frequency of use
•Every hospital should implement a formal
written policy for its disinfection and
sterilization procedures
•Which disinfectant should be used for a
particular purpose
•Safety aspects
–Methods for preparing an accurate use dilution
–Correct exposure time for each disinfectant
–The contact times and concentrations
recommended by the manufacturer must be
strictly followed
–Frequency of use
References
•Seymour S Block; Disinfection
Sterilization & Preservation; V
th
edn
•Russel Hugo & Ayliffe; Principles &
practice of Disinfection Preservation &
Sterilization; 3
rd
edn
•R Ananthnarayan; Textbook Of
Microbiology; VI
th
edn
•Seymour S Block; Disinfection
Sterilization & Preservation; V
th
edn
•Russel Hugo & Ayliffe; Principles &
practice of Disinfection Preservation &
Sterilization; 3
rd
edn
•R Ananthnarayan; Textbook Of
Microbiology; VI
th
edn
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