MicroPara: Control of Microorganisms

Non-ionizing Radiation

Excites electrons; damages DNA

Dry Heat

Hot-air Oven Incineration

Non-ionizing Radiation

Impenetrable to materials

Radiation

Ionizing Radiation Non-ionizing Radiation

Non-ionizing Radiation

UV rays

Membrane Filters

Used to sterilize fluids by removing microorganisms

Dessication

• By light • By temperature • By moisture • By lyophilization • By high concentrations of salt or sugar

Liquid-Nitrogen Refrigerators

-196 °C

Quarternary Compounds (eg. detergents)

0.1-0.2%

Phenol and Related Compounds

0.5-3.0% aqueous solution

Chlorine Compounds

0.5-5.0g available chlorine per liter

Mercurial Compounds

1.0%

Iodine

1.0-2.0%

Boiling Water

100 °C, 10 min

Autoclave

121 °C, 15 psi, 15-30 min

Hot-air Oven

170-180 °C, 1-2 hrs

Pasteurization

62.8 °C, 30 min or 71.7 °C, 15 min

Alcohols

70-90%

Ionizing Radiation

Able to penetrate packaging and products and sterilize their interiors (packaged food, medical equipment, commercial machines)

Antiseptics

Agents that inhibit the growth of microorganisms on living surfaces

Viricide

Agents that kills viruses

Germicide

An agent that kills germs, especially pathogenic microorganisms; a disinfectant

Bactericidal

Antibiotics that kill bacteria directly

Bacteriostatic

Antibiotics that stop bacteria from growing

Disinfectant

Antimicrobial agent that is applied to non-living objects to destroy microorganisms

Moist Heat

Autoclave Boiling Water Pasteurization

Mercurial Compounds

Bacteriostatic agents

Fungicide

Biocidal chemical compound that is used to kill parasitic fungi or their spores

Antimicrobial activity Solubility Stability Lack of toxicity Homogeneity Minimum inactivation by extraneous material Activity at ordinary temperatures Ability to penetrate Material safety Deodorizing ability Detergent ability Availability and low cost

Characteristics of an Ideal Chemical Agent

Alcohols

Denatures protein and disrupts cell membranes

Hot-air Oven

Destructive to materials that cannot withstand high temperatures

Ionizing Radiation

Difficult to control due to emission of isotopes

Phenol and Related Compounds

Disinfection of inanimate objects such as instruments,floor and table surfaces, and (with cresols) rectal thermometers

Mercurial Compounds

Disinfection of skin, instruments; also used as a preservative in some biological materials

Iodine

Disinfection of skin, minorcuts, and abrasions; also used for disinfection of water & swimming pools

Alcohols

Disinfection of skin,delicate surgical instruments,thermometers

Chlorine Compounds

Disinfection of water, nonmetal surfaces, dairy equipment, restaurant utensils, household items

Quarternary Compounds

Disrupt membranes & denatures proteins

Ionizing Radiation

Drive away electron and split molecules

Disinfection

Eliminates many or all pathogenic microorganisms except bacterial spores in inanimate objects

Boiling Water

Endospores are not killed; can't be relied upon to sterilize

Quarternary Compounds

Environmental sanitation of surfaces and equipment

Tube-Dilution Technique Agar-Plate Technique Phenol-Coefficient Technique

Evaluation of Antimicrobial Potency of Disinfectants and Antiseptics

Population size Population composition Concentration or intensity of an antimicrobial agent Duration of exposure Temperature Local environment

Factors Influencing the Effectiveness of an Antimicrobial Agent

Lyophilization

Freeze drying; for preservation of cultures

Low Temperatures

Freezers Liquid-Nitrogen Refrigerators

Ionizing Radiation

Gamma rays and X-rays

Liquid-Nitrogen Refrigerators

High cost of liquid nitrogen

Autoclave

Ineffective against organisms in materials impervious to steam; can't be used for heat- sensitive articles

Pasteurization

Killing vegetative cells of disease- causing microorganisms and of many other organisms in milk, fruit juices, and other beverages

Boiling Water

Killing vegetative cells on instruments, containers

Freezers

Less than 0 °C

Freezers

Mainly microbiostatic instead of microbicidal

Filtration

Membrane Filters High-Efficiency Particulate (HEPA) Filters

Physical Methods

Moist Heat Dry Heat Low Temperature Radiation Filtration Dessication

Chlorine Compounds

Oxidize cellular constituents

Iodine

Oxidizes cellular constituents

Freezers

Preservation of foods and other materials

Liquid-Nitrogen Refrigerators

Preservation of microorganisms

Sanitation

Process of reducing the number of microorganisms to a level that has been officially approved as safe

Sterilization

Process that eliminates all forms of microbial life

Phenol and Related Compounds Alcohols Iodine Chlorine Compounds Quarternary Compounds Mercurial Compounds

Some Commonly Used Disinfectants and Antiseptics

Incineration

Sterilization of transfer loops and needles; disposal of carcasses of infected animals; disposal of contaminated objects that cannot be reused

Autoclave

Sterilizing instruments, linens, utensils, treatment trays, media, other liquids

Hot-air Oven

Sterilizing materials impermeable to or damaged by moisture, e.g. oils, glass, sharp instruments, metals

Algicide

Substance that is used to kill algae

Bactericide

Substance that kills bacteria; disinfectant, antiseptic or antibiotic

Antimicrobial agent

Substance that kills or slows the growth of microbes

Antisepsis

Use of chemical solutions for disinfection

Non-ionizing Radiation

Used to reduce number of microorganisms in air & on surfaces (hospitals, aseptic rooms where sterile products are being dispensed)

HEPA Filters

Used to remove or reduce the number of microorganisms in air to prevent their spread in laboratories & hospital environments (e.g.biosafety cabinet)

Phenol Coefficient

highest dilution of phenol that kills the microorg after 10 min but not after 5 min; highest dilution of test chemical that kills the microorg after 10 min but not after 5 min

Incineration

hundreds of °C