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Foundations in Microbiology, 4/e
Kathleen Park Talaro, Pasadena City College
Arthur Talaro
Physical and Chemical Control of Microbes

Chapter Overview

  • The control of microbes in the environment, on the body, and in products is a constant concern of health care and industry.
  • Control measures known as antimicrobial techniques use physical and chemical agents to target contaminants and other undesirable microbes.
  • Antimicrobial control methods sterilize, disinfect, antisepticize, and sanitize materials as a means of preventing infection, spoilage, and other harmful microbial activities.
  • Antimicrobial agents are designed to destroy, inhibit, or remove microbes.
  • Microbes exhibit wide degrees of resistance to antimicrobial agents and require a variety of methods to control them.
  • Factors that affect the action of antimicrobial methods are time, temperature, type of agent, microbial load, types of microbes, and the nature of the material being treated.
  • Microbicidal agents kill microbes by causing irreversible damage to some part of the microbe, thereby permanently preventing it from reproducing.
  • Microbistatic agents stop microbes from reproducing, but not permanently.
  • Mechanical agents physically remove microbes from materials, but do not necessarily kill or inhibit them.
  • Antimicrobial agents damage microbes by disrupting structure (cell wall, cell membrane), altering proteins, stopping synthesis, and inactivating genetic material.
  • Heat is the most important agent in controlling microorganisms; it can be delivered in either moist or dry form.
  • Methods that use heat include steam sterilization, pasteurization, and dry ovens.
  • Radiation exposes materials to high-energy waves and particles that can penetrate microbes. Examples are ionizing and ultraviolet radiation.
  • Chemical solutions may be used as disinfectants, sterilants, antiseptics, cleaners, and preservatives.
  • The major classes of antimicrobial chemicals include halogens (iodine and chlorine compounds), alcohols, phenolics, peroxides, heavy metals, detergents, aldehydes, and gases.








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