Presentation is loading. Please wait.

Presentation is loading. Please wait.

Control of Microorganisms by Physical and Chemical Agents

Similar presentations


Presentation on theme: "Control of Microorganisms by Physical and Chemical Agents"— Presentation transcript:

1 Control of Microorganisms by Physical and Chemical Agents
Chapter 7 Control of Microorganisms by Physical and Chemical Agents

2 Definition of Frequently Used Terms
sterilization destruction or removal of all viable organisms disinfection killing, inhibition, or removal of pathogenic organisms disinfectants agents, usually chemical, used for disinfection usually used on inanimate objects

3 More definitions… sanitization antisepsis
reduction of microbial population to levels deemed safe (based on public health standards) antisepsis prevention of infection of living tissue by microorganisms antiseptics chemical agents that kill or inhibit growth of microorganisms when applied to tissue

4 Antimicrobial agents agents that kill microorganisms or inhibit their growth -cidal agents kill -static agents inhibit growth

5 -cidal agents -cide suffix indicating that agent kills germicide
kills pathogens and many nonpathogens but not necessarily endospores include bactericides, fungicides, algicides, and viricides

6 -static agents -static suffix indicating that agent inhibits growth
include bacteriostatic and fungistatic

7 Conditions Influencing the Effectiveness of Antimicrobial Agent Activity
population size larger populations take longer to kill than smaller populations population composition microorganisms differ markedly in their sensitivity to antimicrobial agents

8 More conditions… concentration or intensity of an antimicrobial agent
usually higher concentrations or intensities kill more rapidly duration of exposure longer exposure  more organisms killed

9 More Conditions… temperature
higher temperatures usually increase amount of killing local environment many factors (e.g., pH, viscosity and concentration of organic matter) can profoundly impact effectiveness organisms in biofilms are physiologically altered and less susceptible to many antimicrobial agents

10 The Use of Physical Methods in Control
heat low temperatures filtration radiation

11 Moist Heat Sterilization
must be carried out above 100oC which requires saturated steam under pressure carried out using an autoclave effective against all types of microorganisms including spores degrades nucleic acids, denatures proteins, and disrupts membranes

12 The Autoclave or Steam Sterilizer
Figure 7.3

13 Pasteurization controlled heating at temperatures well below boiling
used for milk, beer and other beverages process does not sterilize but does kill pathogens present and slow spoilage by reducing the total load of organisms present

14 Dry Heat Sterilization
less effective than moist heat sterilization, requiring higher temperatures and longer exposure times items subjected to oC for 2 to 3 hours oxidizes cell constituents and denatures proteins

15 Dry Heat Incineration bench top incinerators are used to sterilize inoculating loops used in microbiology laboratories Figure 7.4

16 Low Temperatures freezing refrigeration
stops microbial reproduction due to lack of liquid water some microorganisms killed by ice crystal disruption of cell membranes refrigeration slows microbial growth and reproduction

17 Filtration reduces microbial population or sterilizes solutions of heat-sensitive materials by removing microorganisms also used to reduce microbial populations in air

18 Filtering liquids depth filters membrane filters
thick fibrous or granular filters that remove microorganisms by physical screening, entrapment, and/or adsorption membrane filters porous membranes with defined pore sizes that remove microorganisms primarily by physical screening

19 Figure 7.7

20 Ultraviolet (UV) Radiation
limited to surface sterilization because it does not penetrate glass, dirt films, water, and other substances has been used for water treatment Figure 7.9

21 Phenolics commonly used as laboratory and hospital disinfectants
act by denaturing proteins and disrupting cell membranes tuberculocidal, effective in presence of organic material, and long lasting disagreeable odor and can cause skin irritation

22 Alcohols bactericidal, fungicidal, but not sporicidal
inactivate some viruses denature proteins and possibly dissolve membrane lipids

23 Halogens - Chlorine oxidizes cell constituents
important in disinfection of water supplies and swimming pools, used in dairy and food industries, effective household disinfectant destroys vegetative bacteria and fungi, but not spores

24 Quaternary Ammonium Compounds

25 Sterilizing Gases used to sterilize heat-sensitive materials mattress
microbicidal and sporicidal combine with and inactivate proteins

26 Figure 7.13

27 Chemotherapeutic Agents
chemicals that can be used internally to kill or inhibit the growth of microbes within host cells their selective toxicity allows them to target the microbe without harming the host most are antibiotics, chemicals synthesized by microbes that are effective in controlling the growth of bacteria


Download ppt "Control of Microorganisms by Physical and Chemical Agents"

Similar presentations


Ads by Google