IC6 Disinfectants

Question 1

Factors that affect efficacy of both disinfection and sterilisation (12)

Answer 1

• Prior cleaning of object (most important)
• Organic and inorganic load present
• Type and level of microbial contamination
• Exposure time to germicide
• Physical nature of object eg crevices, hinges, lumens
• Presence of biofilms
• Temperature and pH of disinfection process
• Number of microbes
• Innate resistance of microorganisms
• Concentration and potency of disinfectants
• Humidity
• Water hardness

Question 2

Definition of sterilisation

Answer 2

Process that destroys or eliminates all forms of microbial life and is carried out in health care facilities by physical or chemical methods

Question 3

Definition of disinfection

Answer 3

Process that eliminates many or all pathogenic microorganisms, except bacterial spores, on inanimate objects

Question 4

Name the 4 most common vapour phase sterilants

Answer 4

1) ethylene oxide
2) formaldehyde
3) hydrogen peroxide
4) peracetic acid

Question 5

What is the advantage of formaldehyde gas over ethylene oxide gas?

Answer 5

Non-explosive

Question 6

What is the MOA of ethylene oxide and formaldehyde

Answer 6

They are broad-spectrum alkylating agents and they attack proteins, nucleic acids and other organic compounds; both are particularly reactive with sulfhydryl and other enzyme reactive groups

Question 7

Name 2 disadvantages of using Ethylene oxide gas.

Answer 7

Mutagenic and explosive

Question 8

Name the chemical disinfectants (16)

Answer 8

• Alcohol
• Ammonia
• Chlorine containing compounds
• QAC
• Aldehyde & Ortho phthalaldehyde OPA
• Biguanide
• Iodine and iodophors
• Peroxygen & Accelerated H2O2
• Peracetic acid
• Phenols
• Diamidines
• Silver compounds
• Chloroxylenol
• Mercuric chloride
• Benzalkonium chloride
• Vapour phase sterilants

Question 9

MOA of UV lamps

Answer 9

Short wavelength UV light use to kill or inactivate microorganisms by destroying nucleic acids and disrupting DNA

Question 10

Uses of UV lamps (2)

Answer 10

• Supplement current hospital or laboratories cleaning and disinfection of contaminated surfaces
• Recently used for water treatment (usually coupled with ion sequestration and chlorine disinfection)

Question 11

Factors affecting effectiveness of UV lamps

Answer 11

• Exposure time
• Intensity and wavelength of UV radiation
• Presence of interfering particles
• Microorganism’s UV innate resistance
• Line-of-sight exposure of microorganisms to UV light

Question 12

Uses of alcohol (3)

Answer 12

• Hard surface disinfection and skin antisepsis, especially coupled with other excipients or other biocides
• Preservation
• Kill bacteria, virus, fungi (no spores)

Question 13

What are some excipients used to enhance disinfectant activity and how do they enhance activity?

Answer 13

1) Emollient; makes the skin softer and allow for easier entry into 1st layer of skin and not just the surface

2) Surfactants; disrupt the outer layer of the bacteria and make them more sensitive to the disinfectant

3) Chelating agents; protects the disinfectant by complexing with metal ions

Question 14

MOA of alcohol

Answer 14

• Inhibition of the production of metabolites essential for rapid cell division (bacteriostatic)
• Denaturation of proteins and this mechanism is increased by water

Question 15

What is the MOA of ammonia

Answer 15

It works by saponifying lipids within the envelopes of microorganisms (affects lipids in outer membrane by complexing them and making them precipitate)

Question 16

What is ammonia used for?

Answer 16

General purpose cleaner for many surfaces like glass and stainless steel (disinfectant)

Question 17

Comment on the safety of ammonia

Answer 17

Irritant for the eyes and the gastric system (should not be ingested); if mixed with bleach, it may release chloramine which is toxic

Question 18

Comment on the activity of aldehydes

Answer 18

Broad spectrum; Can kill spores, bacteria, fungi and viruses

Question 19

What is the MOA of aldehydes

Answer 19

Biocidal activity of results from alkylation of sulfhydryl, hydroxyl, carboxyl and amino groups of microorganisms, which alters RNA, DNA and protein synthesis.
(RNA and DNA not as affected as much compared to protein synthesis as they need sulfhydryl groups to work, which is found in amino acid)

Question 20

Name the disadvantages/ concerns of using aldehydes

Answer 20

Toxicity and their odor.

Question 21

Name the advantages of OPA over aldehydes (formaldehyde and glutaraldehyde) and its limitations

Answer 21

Advantages:
1) More lipophilic compared to formaldehyde and glutaraldehyde and can be absorbed more effectively.

2) Not a known irritant to the eyes and nasal passages, barely no perceptible odor

Disadvantages:
Stains protein grey (including unprotected skin)

Question 22

What are aldehydes used for?

Answer 22

Disinfectant, Preservation, antisepsis (not really)

Question 23

MOA of biguanides

Answer 23

Chlorhexidine: damage membrane. Cross cell outer membrane by passive diffusion. Attacks bacterial cytoplasmic (coagulation or gelling) or inner membrane or yeast plasma membrane

Alexidine: lipid phase separation. Apoptosis via destruction of bacterial membrane

Question 24

Chlorhexidine VS alexidine

Answer 24

Alexidine has faster onset of bactericidal activity and produces a significantly faster alteration in bactericidal permeability

Question 25

Chlorine MOA

Answer 25

Largely attributed to undissociated hypochlorous acid (HOCl).

• Oxidation of sulfhydryl enzymes & aa. - Ring chlorination of aa.
• Inhibition of protein synthesis.
• DNA disruption.
• Loss of intracellular contents

Question 26

List the strengths of chlorine. (6)

Answer 26

• Broad spectrum
• Cheap
• Fast acting
• Unaffected by water hardness
• Remove dried or fixed organisms and biofilms from surfaces
• Low incidence of serious toxicity (No toxic residues)

Question 27

List the weaknesses of chlorine (5).

Answer 27

• Ocular irritation
• Burns (mouth, throat, stomach)
• Corrosiveness to metals in high concentrations
• Inactivation by organic matter
• Release of toxic chlorine gas

Question 28

chlorine uses (3)

Answer 28

disinfectant, cleaning, antisepsis

Question 29

Comment on the spectrum of activity of Iodine/Iodophors

Answer 29

Broad spectrum of activity against bacteria, virus, fungi.

Question 30

Name the uses of Iodine and Iodophors

Answer 30

Iodine: antiseptics on skin or live tissue

Iodophors: antiseptics and disinfectants

Question 31

What is an Iodophor?

Answer 31

Iodophor is a combination of iodine and a solubilizing agent or carrier;

the resulting complex provides a sustained release reservoir of iodine and releases small amounts of free iodine in aqueous solution.

Question 32

What are the advantages of using Sodium dichloroisocyanurate tablets

Answer 32

Stable, long release, microbial activity greater

Question 32

Peroxygens uses (3)

Answer 32

Disinfection, sterilisation, antisepsis

Question 33

Explain the MOA of Iodine/Iodophors

Answer 33

Penetrates the cell wall of microorganisms quickly and leads to disruption of protein and nucleic acid structure and synthesis

Question 34

Peroxygen MOA

Answer 34

H2O2 acts as an oxidant by producing hydroxyl free radicals (*OH) which attack essential cell components, including lipids, proteins and DNA

Question 35

Spectrum of activity of peroxygens

Answer 35

• Broad-spectrum biocide (bacteria, viruses, fungi, spores)
• Greater activity in gram +ve. - Sporicidal at high concentration & long contact time

Question 36

What is the difference between accelerated H2O2 and normal H2O2

Answer 36

Accelerated H2O2 is a disinfectant/ cleaning agent that uses excipients to stabilise H2O2 so that it can be used for extended periods of time, usually on medical or veterinary devices

Question 37

Are iodophors more rapidly bactericidal when concentrated or diluted? Why?

Answer 37

Diluted. Dilution of povidone iodine might weaken the iodine linkage to the carrier polymer leading to increase of free iodine in solution.

Question 38

Comment on the spectrum of activity of Paracetic acid (with relation to H202)

Answer 38

More potent than hydrogen peroxide, being sporicidal, bactericidal, virucidal and fungicidal at low concentrations (0.3%)

Question 39

Weaknesses of accelerated H2O2 (2)

Answer 39

• Relatively short shelf life
• Irritant to eyes

Question 40

Name the uses for paracetic acid

Answer 40

Low-temperature liquid sterilant for medical devices and environmental surface sterilant

Question 41

What excicipents may be present in accelerated H2O2 that increases its efficacy compared to normal H2O2?

Answer 41

1) Surfactant
eg alkali metal and ammonium salts

2) Organic acid as a chelating agent
eg phosphoric acid

3) Emulsifier
eg alkylated diphenyl oxide

Question 42

What is the MOA of Paracetic acid?

Answer 42

Similar to H2O2, peracetic acid is an oxidant and denatures proteins and enzymes and increases cell wall permeability by disrupting sulfhydryl (-SH) and sulfur (S-S) bonds.

Question 43

Phenol uses (3)

Answer 43

• Antiseptic, disinfectant or preservative
• Possesses antifungal (damage to plasma membrane) and some antiviral properties

Question 44

Phenol MOA

Answer 44

induces progressive leakage of intracellular constituents, including release of K+, which it usually is the first index of membrane damage

Question 45

Chloroxylenol MOA

Answer 45

disruption of microbial cell walls and inactivation of cellular enzymes

Question 46

Chloroxylenol strength (1)

Answer 46

Relatively non toxic and non irritant material when used as an excipient in topical products

Question 47

Name the added advantages of Paracetic acid over H2O2

Answer 47

1) Free from decomposition by peroxidases

2) Remains active in the presence of organic loads.

3) Not irritant at low concentrations and temperatures except for mild smell

Question 48

Chloroxylenol weakness (1)

Answer 48

toxic upon oral consumption or eye contact

Question 49

Diamidines uses (2)

Answer 49

Antisepsis, disinfection against growth of bacteria (bacteriostatic) esp wounds

Question 50

Diamidines MOA

Answer 50

inhibition of oxygen uptake and leakage of aa

Question 51

Chloroxylenol uses (3)

Answer 51

Antiseptic, antimicrobial, disinfectant

Question 52

Silver compounds uses

Answer 52

Treatment of burns

Question 53

Silver sulfadiazine VS silver nitrate

Answer 53

silver sulfadiazine is newer and has broader spectrum of activity than silver nitrate for bacteria

Question 54

Silver nitrate MOA

Answer 54

interact with thiol groups in enzymes and proteins affecting microbial plasma, cytoplasmic membrane and nucleic acids. also for fungus

Question 55

Comment on the spectrum of activity of mercuric chloride

Answer 55

Broad range disinfectant

Question 56

What is the MOA of mercuric chloride?

Answer 56

affects microbial peptide synthesis

Question 57

Quaternary ammonium compounds uses (3)

Answer 57

• Disinfectant (e.g. preoperative disinfection of unbroken skin)
• Antimicrobial preservative (in pharmaceutical products for application to mucous membranes)
• Disinfection of non critical surfaces eg floor, furniture, wall esp against fungus, bacteria, lipophilic (enveloped) virus (not sporicidal)

Question 58

Quaternary ammonium compound MOA

Answer 58

• Adsorption and penetration of agent into cell wall
• Reaction with cytoplasmic membrane (lipid or protein) followed by membrane disorganisation
• Leakage of intracellular low molecular weight material
• Degradation of proteins and nucleic acids
• Wall lysis caused by autolytic enzymes

Question 59

How is Eucalyptus essential oil produced?

Answer 59

Steam distillation

Question 60

What is Eucalptus essential oil used for?

Answer 60

Disinfectant (effective against E.coli and S. Aureus)

Question 61

Benzalkonium chloride uses (3)

Answer 61

• Antimicrobial preservative in pharmaceutical formulations
• Environmental disinfectant of hard, non-porous surfaces
• Antiseptic hand rubs and personal care products

Question 62

Benzalkonium chloride strength (3)

Answer 62

• Non irritating
• Non sensitising
• Well tolerated in dilutions normally employed on skin and mucous membranes

Question 63

Plant based disinfectants strength (2)

Answer 63

• Nice smell
• Effective against E coli, S aureus

Question 64

Why are spores resistant to many disinfectants?

Answer 64

spore coat and cortex act as a barrier

Question 65

What is/are the mechanism(s) of resistance of mycobacteria against disinfectants

Answer 65

1) Waxy cell wall which prevent disinfectant entry

2) Possesses certain compounds that are non-targetable by certain disinfectant

Question 66

What is the mechanism of resistance of gram negative bacteria against disinfectants?

Answer 66

outer membrane that acts as a barrier

Question 67

State and explain at least 2 physical and chemical factors that affect disinfectant efficacy

Answer 67

1) Temperature
- In general disinfectant activity increases with increased temperature but if temperature is too high, it may also affect thermal stability of disinfectant leading to decreased [disinfectant] at site of action

2) pH
- Activity of certain disinfectants increase with higher pH while others decrease with higher pH.
- Low pH influences the antimicrobial activity by altering the disinfectant molecule or the cell surface.

3) Water hardness
- Water hardness refer to presence of divalent/multivalent cations in the water. These ions may interact with the disinfectant and form insoluble precipitates leading to decrease in disinfectant activity

4) Excipients used in formulation
- Excipients used in the disinfectant formulation must be compatible with the disinfectant to prevent decrease of disinfectant activity

5) Relative humidity
- Single most important factor affecting gaseous disinfectant e.g ethanol, chlorine dioxide and formaldehyde

Question 68

Efficacy of which disinfectants increase with increased pH?

Answer 68

Glutaraldehyde, QAC

Question 69

Efficacy of which disinfectant decrease with increased pH?

Answer 69

phenols, hypochlorites, and iodine

Question 70

Explain how organic matter affect disinfectant efficacy

Answer 70

1) Chemical reaction between the germicide –> reduction in potency or full chemical inactivation

2) Protection by occlusion in salt crystals –> complexation leading to precipitation or formation of inclusion complexes that shield the disinfectant and preventing direct contact with the microorganism

Question 71

Which disinfectants are sporicidal?

Answer 71

Aldehydes, Hydrogen peroxide, paracetic acid, Chlorine compounds (e.g sodium hypochlorite)

Question 72

Which low-medium level disinfectant(s) are sporicidal?

Answer 72

Sodium hypochlorite

Question 73

Compare and contrast efficacy of ethanol and propanol as disinfectants

Answer 73

Both are broad spectrum.

Propanol slightly more useful in killing bacteria and enveloped viruses (CB say non-enveloped but I disagree because viral envelop is made out of lipids so propanol should be more lipophilic and hence more effective). It is also harder to wash off compared to ethanol because it is more lipophilic

Ethanol more useful in killing non-enveloped virus (CB say enveloped)

Question 74

What chemicals present in bacteria may inactivate hydrogen peroxide?

Answer 74

Catalase or other peroxidases

Question 75

Which classes of disinfectants have use as preservatives?

Answer 75

Alcohol
QAC
Aldehydes
Phenols (not as common)