Antisepsis, Disinfection, and Sterilization. Gerald E. McDonnell

      1 Chapter 1FIGURE 1.1 A typical helminth life cycle (example: Enterobius vermicularis).FIGURE 1.2 Typical fungal structures. (A) Filamentous fungus (mold). Hyphae are ...FIGURE 1.3 Simplified fungal cell envelope. The cross-linked cell wall is linked...FIGURE 1.4 Life cycle of Toxoplasma gondii.FIGURE 1.5 Simple representation of a mycoplasma cell surface structure.FIGURE 1.6 Basic structure of a bacterial cell, showing the cell surface in grea...FIGURE 1.7 Bacterial cell wall structures. The cell membranes are similar struct...FIGURE 1.8 Basic structure of peptidoglycan. Polysaccharides of repeating sugars...FIGURE 1.9 Cells of Mycobacterium tuberculosis. Courtesy of Clifton Barry, NIAID...FIGURE 1.10 Basic viral structure.FIGURE 1.11 Typical viral life cycle. The stages include (1) attachment, (2) pen...FIGURE 1.12 E. coli bacteriophages. The T-phages are complex DNA viruses; MS2 an...FIGURE 1.13 Theory of prions as infectious proteins. PrPc is the normal form of ...FIGURE 1.14 Representation of the proposed structural changes in PrP.FIGURE 1.15 The general structure of lipopolysaccharide. The lipid A component i...FIGURE 1.16 Typical fungal aflatoxin structure.FIGURE 1.17 General microbial resistance to biocides and biocidal processes. Thi...FIGURE 1.18 Typical time kill, or D-value, determination. A known concentration ...FIGURE 1.19 Determination of the D value on microbial exposure to a biocide.FIGURE 1.20 Typical survivor curves on biocide exposure. Curve 1 is concave down...FIGURE 1.21 Qualitative and semiquantitative population determinations.FIGURE 1.22 D-value estimation using most probable number estimations.FIGURE 1.23 Example of a self-contained biological indicator. The 3M Attest 1292...FIGURE 1.24 Example of a chemical-indicator color change.FIGURE 1.25 Rate of microbial inactivation on exposure to sterilization processe...FIGURE 1.26 Basic structures of surfactants and soaps and micelles (a water-in-o...FIGURE 1.27 Examples of single (left)- and multiple (right)-chamber washer and w...FIGURE 1.28 Various types of cleaning chemical formulations.

      2 Chapter 2FIGURE 2.1 Typical microbial sensitivities to moist-heat disinfection.FIGURE 2.2 Effect of temperature on microbial lethality and Z-value determinatio...FIGURE 2.3 A pasteurizer for heat treatment of liquids. Courtesy of System Produ...FIGURE 2.4 Moist-heat resistance of microorganisms.FIGURE 2.5 Atomic structure and the source of radiation.FIGURE 2.6 The electromagnetic spectrum. The range of wavelengths is shown on th...FIGURE 2.7 A representation of a typical UV (low-pressure UV mercury) lamp and t...FIGURE 2.8 Simple structure of a magnetron used for the production of microwaves...FIGURE 2.9 A simple continuous-duty UV disinfection system for liquids. The UV l...FIGURE 2.10 The theory of filtration. Various types of filtration processes are ...FIGURE 2.11 The microscopic structures of the surfaces of three filter materials...FIGURE 2.12 Examples of a variety of liquid filter types. Reproduced with permis...FIGURE 2.13 An example of a rigid-walled isolator system, with glove access port...FIGURE 2.14 Air pressure in environmentally controlled enclosed areas. (A) Rooms...FIGURE 2.15 Biological safety class I, II, and III cabinets. Class I cabinets pr...FIGURE 2.16 Range of filtration methods and reference size exclusion capabilitie...

      3 Chapter 3FIGURE 3.1 Dissociation of benzoic acid. As the pH increases, the dissociation o...FIGURE 3.2 High-level disinfectants for medical-device disinfection based on 2.4...FIGURE 3.3 Examples of formaldehyde-releasing agents.FIGURE 3.4 Examples of an alcohol-based disinfectant (left) and an alcohol-based...FIGURE 3.5 Aminoacridines commonly used as antiseptics.FIGURE 3.6 Examples of chlorhexidine-based antiseptics and disinfectants. Courte...FIGURE 3.7 An example of an essential-oilcontaining disinfectant.FIGURE 3.8 Simplified chemistry of iodine in water, demonstrating those species ...FIGURE 3.9 The structure of PVPI. The polymer consists of repeating units of the...FIGURE 3.10 Various types of PVPI antiseptic products. Reproduced with permissio...FIGURE 3.11 Simplified chemistry of chlorine in water, demonstrating those speci...FIGURE 3.12 Examples of organic chloramines.FIGURE 3.13 Typical bromine-releasing agents. PSHB is an example of a water-inso...FIGURE 3.14 Sodium hypochlorite (bleach)-based disinfectant. A concentrate (whic...FIGURE 3.15 Silver sulfadiazine.FIGURE 3.16 A typical copper-silver ionization system. The electrode cell consis...FIGURE 3.17 Structure of benzoyl peroxide.FIGURE 3.18 Example of the generation of PAA from sodium perborate and acetylsal...FIGURE 3.19 Examples of the production of chlorine dioxide from chlorine.FIGURE 3.20 Examples of ozone generators. Courtesy of Absolute Systems (left) an...FIGURE 3.21 Examples of vaporized hydrogen peroxide (VHP) generators. The exampl...FIGURE 3.22 Typical room fumigation setup with a hydrogen peroxide gas generator...FIGURE 3.23 A range of chlorine dioxide-based liquid formulations for medical-de...FIGURE 3.24 A chlorine dioxide gas generator for liquid applications. Courtesy o...FIGURE 3.25 A typical chlorine dioxide fumigation cycle. The biocide concentrati...FIGURE 3.26 The effect of temperature on the sporicidal efficacy of PAA. The ave...FIGURE 3.27 Phenolic-based disinfectants. Both are formulation concentrates (whi...FIGURE 3.28 Typical bisphenolic structures.FIGURE 3.29 The modes of action of triclosan and hexachloro phene against enoyl ...FIGURE 3.30 Basic surfactant and micelle structures.FIGURE 3.31 The basic structure of QACs.FIGURE 3.32 QAC-based disinfectants. A readyto-use spray formulation and an exam...FIGURE 3.33 Examples of chlorine-based N-halamines.FIGURE