Principle of disinfection

1. Principle of disinfection

2. Disinfection lectures • Principle of disinfection • Individual disinfection processes • Water and wastewater disinfection (w/disinfection kinetics) • Air disinfection and disinfection on surfaces • Disinfection on infectious solids (biosolids)

3. Definitions • Sterilization: A process intended to remove or destroy all viable forms of microbial life, including bacterial spores.

4. Definitions • Disinfection: The destruction of pathogenic and other kinds of microorganisms by physical and chemical means. • Disinfection is less lethal process than sterilization because it destroys most recognized pathogenic microorganisms, but not necessarily all microbial forms such as bacterial spores.

5. Definitions • Preservation: The process by which chemical or physical agents prevent biological deterioration of substances.

6. Definitions • Sterilizer: An agent that destroys or eliminates all forms of microbial life in the inanimate environment, including all forms of vegetative bacteria, bacterial spores, fungi, fungal spores, and viruses.

7. Definitions • Disinfectant: An agent that frees from infection, usually a chemical agents but sometimes a physical one, such as x-rays or ultraviolet light, that destroy disease or other harmful microorganisms but may not kill bacterial spores. It refers to substances applied to inanimate objects.

8. Definitions • Sanitizer: An agent that reduces contaminants in the inanimate environment to level considered safe as determined by Public Health Ordinance, or that reduces the bacterial population by significant numbers where public health requirements have not been established.

9. Definitions • Antiseptics: An agent that opposes sepsis, putrefaction, or decay by preventing or arresting the growth of microorganisms. • Antiseptic products are applied on or in the living body of humans or other animals. • Antibiotics: an organic chemical substance produced by microorganisms that has capacity in dilute solutions to destroy or inhibit the growth of bacteria or other microorganisms. • It is usually used as a chemitherapeutant and must be low in toxicity while effective against microorganisms.

10. The target sites of antibiotics

11. The target sites of drugs against helminths

12. Common sterilizers and disinfectants • Sterilizer • Most heat (>121 oC) • Dry heat (> 160 oC) • Ionizing radiation • Disinfectant • Physical • Ultraviolet radiation • Hydrostatic pressure • Chemical • Alcohols • Phenols • Quaternary ammonium compounds • Glutaraldehyde • Iodine and iodine compounds • Chlorine species (free chlorine, chloramines, and chlorine dioxide) • Ozone

13. Mechanisms of sterilizers and disinfectants • Sterilizer • Moist and dry heat: protein denaturation, enzyme inhibition, RNA and DNA breakdown • Ionizing radiations: single or double-strand breakage in DNA • Disinfectants • Ultraviolet radiation: thymine dimers, various photoproducts (5,6-dihydroxy-dihydrothymine, TDHT, pyrimine-(6-4)-pyrimidone,…) • Chemical disinfectants: protein denaturation, enzyme inhibition, breakdown of nucleic acids

14. Mode of action of (chemical) disinfectants • Adsorption on the microbes’ surface • Diffusion through the surface • Binding to the vulnerable sites (e.g. plasma membrane, cytoplasmic proteins, nucleic acids, and so on) • Disruption of the vulnerable sites • Injury and death of the microbes

15. Structure of viruses

16. Structure of bacteria

17. Structure of bacterial cell walls

18. Structure of fungi

19. Structure of fungal cell wall

20. Structure of algae

21. Components of algal cell walls • Cellulose • Silica or calcium carbonate or polysaccharide

22. Structure of bacterial spores

23. Surface structure of bacterial endospores • Exosporium: a thin protein cover • Spore coat: layers of spore-specific proteins • Cortex: loosely cross-linked peptidoglycan • Core: core cell wall, cytoplasmic membrane, cytoplasm, nucleoid, ribosomes, and others • Remarkable physical barrier against sterilization and disinfection • Survive up to 150 oC with dry heat • Extremely resistant to ultraviolet, strong acid and bases, and chemical disinfectant

24. Structure of Giardia cysts

25. Surface structure of Giardia cysts • An inner membrane • A thick (0.3 µm) outer filamentous portion • Filaments • 7-20 nm in diameter • Protein and a unique carbohydrate (ß(1-3)-N-acetyl-D-galactopyranosamine) • Strong interchain interaction and tightly packed meshwork • Remarkable physical barrier against most chemical disinfectants

26. Surface structure of Cryptosporidium oocyst

27. Surface structure of Cryptosporidium oocyst • Glycocalyx • 82 % carbohydrate, 17 % protein, and trace fatty acid • Outer oocyst wall • Multilaminate glycoprotin, lipid, and lipid conjugates • Central lipid layer • Inner oocyst layer • Cross-linked glycoprotein • Outer and inner zone • Remarkable physical barrier against most chemical disinfectants

28. Structure of Helminth eggs (Ascaris)

29. Surface structure of Helminth eggs (Ascaris)

30. Surface structure of Ascaris eggs • Outer surface: protein and filamentous fibers • Outer limited membrane • Chitinous zone • Inner limited membrane • Considerable physical barrier against most chemical disinfectants

31. Factors in antimicrobial processes • Target microorganisms • The media to be treated • The intended use of the media • Presence of interfering materials in the media

32. Antimicrobial products • Regulated by EPA • 5000 antimicrobial products (1997) with 256 antimicrobially active ingredient • 19 % sanitizers • 80 % disinfectants • 1% sterilizers

33. Selection criteria (chemical antimicrobial agents) • Antimicrobial efficacy • Corrosivity • Chemical hazard • Environmental concerns • Use solution pH • Stability

34. Biocidal spectrum

35. Corrosivity

36. Chemical hazard

37. Environmental concerns

38. Stability

39. To be continued