Killing or destroying A ll forms of living microorganisms from objects. (bacteria and their spores)....

Killing or destroying All forms of living microorganisms from objects. (bacteria and their spores).

Sterilization is an absolute term means - germ free objects.

Disinfection:◦Is removing or reducing the number of

the pathogenic microorganisms from objects. (Not absolute)

◦Unable to destroy spores and some could not kill non enveloped viruses.

Physical methods.◦Chemical methods.

◦ Physical methods.◦Are more commonly used, simple, economical and reliable.

prevention of microbial growthprevention of microbial growth::

important in: • Food industry.• Health care: nosocomial infections. •Drinking water distribution systems• other industrial processes: e.g., biofouling of oil pipeliness

•The objective is to render the articles non infectious.

Sterilization by

Physical methods

Heat Radiation Filtration

Heat:◦ Exposure of the objects to heat will kills

microbes by coagulation of protein, denaturation of enzymes and oxidation.

Filtration:◦ Sterilization through removing of microbes from

fluids by exposing them to small size filter. This is used for heat sensitive fluids like serum, sugars and urea.

Radiation:◦ Exposure to radiation: This causes denaturation

of proteins and enzymes.

HeatHeat

Dry heat Moist heat

Dry heat

Red hot Flaming Hot air oven

Incineration

Exposure of wires and forceps to the Bunsen flame until it becomes red hot, then cooled down and used.

Used for wire loop, straight wire, forceps, scalpels and metal rods.

Slowly passing of objects to the Bunsen flame to reduce the number of microorganisms.

The Bunsen flame give partially sterile area around it. This is used for sterilization of the mouth of bottle, flasks, containers and test tubes.

it is also used for the preparation of smears, cultivation of bacteria ands. subculture

This is a metal chamber (instruments) consists of a heater, thermometer, thermostat, perforated shelves, door and timer.

It kills microbes by oxidation-reduction. There are certain thermal death points and

Thermal death times for the articles to be sterilized:◦ 160C for 60 min.◦ 170C for 40 min.◦ 180C for 30 min.

oven for dry heat sterilizationoven for dry heat sterilization

Bowei Dick test (Adhesive tabe). Browne’s tube No 3. (Red ----- green).

Is treating of an objects to heating over 250 until they become black.

Done for used equipment.

Moist heat

Less than 100C At 100C Above 100C

Pasteurization of milk:◦ Holding method (65C for 30 min)◦ Flash method (72C for 15 - 20 sec)

Inspeciation:◦ Heating at 80C for 30 - 1hrs until coagulation of

protein.◦ Used for preparation of Dorset egg medium and

L.J medium for TB. Preparation of vaccine:

◦ By heating at 56C for 30-60 min.

pasteurizationpasteurization::

• 71ºC for 15 seconds (high temperature short time, HTST, method)

• significantly reduces microbial population size

• does not sterilize

Steaming (Koch steamer):◦ Single exposure of the microbe to steam at 100C

for 90 min (Shelves over the boiler).◦ Tyndalization:

Steaming at 100C for 30 min for 3 successive days. 1st day kill vegetative bacteria and germinate sporulated

one ---- Put on the bench. 2nd day kills all vegetative bacteria ---- Put on the bench. 3rd day insure complete sterilization.

Boiling (Inside the boiler,no shelves)◦ At 100C for 30 min.

It is a double jacketed steal cylinder or chamber supplied with:

1.Heater, water and pressure.2.Has a thermometer and pressure supplier.3.Control valves for steam, water and

pressure

flow of steam through an autoclaveflow of steam through an autoclave::

Depends on steam and pressure.◦ Steam is a hot sticky air able to penetrate

through things.◦ Pressure will rise the temperature from 100C to

121C Kills microbes and their spores by

coagulation of protein and denaturation of enzymes.

Make complete killing of bacteria, their spores, fungi and their spores, parasites and viruses including Envelop and non Envelop virus.

Thermal death point and thermal death time:◦ 121C (15 bound or 1.1 bar) for 15 min.◦ Flash autoclaving at 134C for 4-5min.

an autoclavean autoclave::

• steam under pressure enables temperature to reach 121ºC

• sufficient to destroy endospores as well as vegetative cells

Sterilization by mechanical removal of pathogenic microbes by passing through filter.

Used for sterilization of heat sensitive fluids like serum, glucose, urea, and Amino acids.

Different filtration units is used according to the amount of filtrate and pores of the filter:◦ Seitz filter ---- use asbestos◦ Chamberland filter ------ use ceramic◦ Sintered filter ----- use glass filter.◦ Milipore or membrane filter ---- use filter paper.

• removal of particles from liquids

• 0.2 μm pore size usual for sterilization

filter sterilizationfilter sterilization::

• filtration also used to separate or distinguish organisms based on size

5 μm dia pores

depth filter:depth filter:

• fibrous sheet or mat of randomly overlapping fibers of different substances (paper, glass)

• can use as pre-filter to remove suspended particles• “trapping action”

conventional membrane filter:conventional membrane filter:• polymeric compounds such as cellulose acetate or cellulose nitrate• pore diameter variable during production• “sieve-like action”

• thin, polycarbonate films (~10 m thick)• pores formed by chemical “etching”• consistent pore size

• useful for microscopy – filtered material is in a single plane on surface

Nucleopore filter:Nucleopore filter:

lab-scale membrane filtration:lab-scale membrane filtration:

syringe filter: small volumes

system for larger volumes

disposable, presterilized, assembled membrane filter units

◦ Sterilization by radiation kills microbes by causing mutation to the cellular protein and disrupting cellular elements.

◦ Used for plastic syringes, disposable plastic and dental e

2 types:◦ Ionizing radiation:

Depends on ionization of water which forms highly reactive hydroxyl group react with cellular components specially DNA causing mutation.

E.g.: X-rays, Gamma radiation and high energy electron beams.

Have a wavelength less than 1 nm.◦ Non ionizing radiation:

using short wave length rays like Ultraviolet with a wavelength of 260 nm.

Causing mutation by making thymine dimers. Used for sterilization of plastic and surgical room

ultraviolet (UV) radiation:ultraviolet (UV) radiation:

Chemical methods of sterilization

Disinfection:◦ Is removing of pathogenic microorganism or

reducing their number on the exposed area.◦ Unable to destroy spores and some could not kill

non envelop viruses. Factors affects disinfection action:

◦ Type of disinfecant used.◦ Concentration of disinfectant.◦ Type of microorganism.◦ Number of microorganism.◦ Time of exposure.◦ Temperature.◦ Presence of organic compound.

examples of modes of action:examples of modes of action:

• alcohol - lipid solvent, protein denaturant

• hydrogen peroxide (H2O2) – oxidizing agent

• triclosan (a phenolic) – disrupts cell membrane

• chlorine gas – oxidizing agent

• ethylene oxide – alkylating agent

E.g.: Phenol crystal, Dittol, Lysol, Cresol. Injuring lipid containing plasma membrane

leads to leakage of cellular contents. Remain active in the presence of organic

materials, stable and persist for long period of time.

Suitable for disinfecting pus, blood and sputum.

Active against G+ve, G-ve, Mycobacterium & viruses.

Contains 2 groups of phenol. Hexaclorophenol used for surgical and

microbial control, Excessive use for infant could leads to neurologic damage.

Triclosan found in antimicrobial soaps, inhibits an enzyme needed for synthesis of fatty acid which affects the integrity of plasma membrane.

E.g.: Chlorohexidine. Broad spectrum activity as disinfectant of

skin and mucus membrane due to it is ability to bind to mucus membrane.

Cause injury to plasma membrane.

Iodine have broad spectrum activity to many bacteria, spores, fungi and some viruses, it binds to certain amino acids of enzyme and proteins.

Iodophore (Betadine and Isodine) is non pigmented iodine comprise from iodine + organic materials to release the iodine slowly. Used for skin disinfection and wounds.

Chlorine in shape of gas or solution combined with water to give HOCl (Oxidizing agents). Used for swimming pools, drinking water and sewage.

Causes denaturation of proteins, disrupt membrane and dissolve lipids.

They able to act and Evaporate (Volatile). Used as skin disinfectant and in vein

puncture in a concentration of 70%.

Silver, mercury and copper Causes denaturation of proteins when bind

to it. Silver nitrate is used as a droper to avoid

opthalmia neontam by N. gonorrhoea. Silver sulfadiazine (Flamazine) is used in

treating infection associated with burns. Copper sulfate is used to destroy green

algae (effective in one part/million of water).

Gention violet, Crystal violet and Eosine are very effective antiseptic.

Soap and other detergent make mechanical remove of microbe by scrubbing of dead tissue so reduce their number.

Quaternary ammonium compound are positively charged molecules kills G+ve bacteria. Affects plasma membrane and changes cell permiability. E.g.: Citerimide.

E.g.: Formaldehyde and Gultraldehyde. Inactivate proteins by covalent cross-links

with COOH, NH, OH and SH. Used for disinfect hospital instruments,

benches and room. E.g.: Formaldehyde and Gultraldehyde.

Inactivate proteins by covalent cross-links with COOH, NH, OH and SH.

Used for disinfect hospital instruments, benches and room.

Used to sterilize plastics in closed chamber similar to autoclave.

Denaturate proteins. Bacteriocidal, fungicidal and kills viruses. Used at high temperature 60C for 4-24 hrs. Carcinogenic.

H2O2 is an oxidizing agents kills many microbes especially who fail to produce catalase enzymes (Anaerobic bacteria). Used as disinfectant for gas gangrene.

Ozone (O3) also toxic for microbes and used instead of chlorine in treating drinking water.

In-use test:◦ Used to determine the proper disinfectant concentration

to be used and to check if the used disinfectant is working properly or not:

◦ Take 1ml from used disinfectant to 9 ml of nutrient broth. Immediately transfer 0.02ml into 10 different area of well dried nutrient agar.

◦ Incubate one plate at 37C for 3 days and the other at R.T for 7 days.

◦ Growth in more than5drops- Failure of Disinfectant◦ No growth ------- good disinfectant◦ Growth in less than 5 drop --- success but needs

increasing the concentration.

Phenol co-efficient test:◦ Serial 2 fold dilution of both tested disinfectant

and phenol are inoculated with Salmonella typhi and immediately re-subcultured on agar medium at 0 time, after 5 minutes and after 10 minutes.

◦ Good disinfectant gives real number after dividing the MIC of the disinfectant against the phenol.

◦ 4/2= 2 Good◦ 2/4= ½ Bad disinfectant.

Time killing assay:◦ Used to determine the efficiency of disinfectant

against bacteria during the times.◦ Make serial dilution of disinfectant and subculture

the commonly isolated bacteria and immediate culture on agar medium at 0 time, after 5 min and 10 min.

◦ Determine the last dilution of disinfectant that able to kill M.O in a shortest time.

◦ Use 4X this concentration in your lab.