CONTROL OF MICROORGANISMS 1. TOPICS  Sterilization & Disinfection.  Antimicrobial definitions.  Factors influence the effectiveness of antimicrobial.

Slides:



Advertisements
Similar presentations
Foundations in Microbiology Sixth Edition
Advertisements

Control of Microbial Growth Chapter 7. History w Humans vs. Microbes infections diseases plagues epidemics pandemics.
Sterilization and disinfection. Sterilization can be define as the process by which all forms of microbial life including bacterial spores & vegetative.
 Sterilization: is the destruction of all forms of microbial life w/particular attention to bacterial spores  Disinfection: refers to the destruction.
Control of Microbial Growth. A few terms Bacteriostatic: inhibits bacterial growth Bactericidal: something capable of killing bacteria Antiseptic: an.
CONTROL OF MICROBIAL GROWTH
Control of Microbial Growth Tim Ho University of Alberta, Canada * The materials are mostly based on Dr. Brian Lanoil’s Microb Part.
Control of Microbial Growth
Chapter 7: The _______ of Microbial Growth Microorganisms and Microbial Growth Figure 7.11.
Chapter 5; Control of Microbial growth Bio 261 Medgar Evers College Prof. Santos.
Methods for Control of Microbial Growth
Disinfection and Sterilization
Microbial Control - Physical Means
Using Chemicals to Destroy Microorganisms and Viruses
Inhibiting Microbial Growth in vitro
Control of Microbial Growth Chapter Approaches to Control Physical methods Heat Irradiation Filtration Mechanical (e.g., washing) Chemical methods.
Sterilization and disinfections By: Microbiology members
Inhibiting Microbial Growth in vitro CLS 212: Medical Microbiology.
Control of Microbial Growth:
PHYSICAL METHODS FOR KILLING MICROBES
Control of Microorganisms by Physical and Chemical Agents LECTURE 9: Microbiology and Virology; 3 Credit hours Atta-ur-Rahman School of Applied Biosciences.
Control of Microorganisms by Physical and Chemical Agents
STERILIZATION AND DISINFECTION
Control of Microbial Growth. Control of Microbial Growth: Introduction 4 Early civilizations practiced salting, smoking, pickling, drying, and exposure.
Controlling Microbial Growth in the Environment
Microbiology: Principles and Explorations Sixth Edition Chapter 12: Sterilization and Disinfection Copyright © 2005 by John Wiley & Sons, Inc. Jacquelyn.
Disinfection and Sterilization.
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings PowerPoint ® Lecture Slide Presentation prepared by Christine L. Case M I C R.
Physical and Chemical Control of Microorganisms
Control of Bacterial Growth l Definitions –Sterilization - Processes that kills living organisms including spores –Disinfection - Destruction of vegetative.
Microbiology: A Systems Approach
STERILIZATION AND DISINFECTION
Department of Microbiology & Parasitology - Elrazi College
Muhammad Suleman Kamran Rasool Fatima Amjad Aysha Imtiaz.
Control of Microbial Growth We will talk about antifungals, antibiotics, antivirals, etc. when we begin to talk about specific diseases.
Sterilization and Disinfection
Sterilization & Disinfection Physical Agents Hugh B. Fackrell PhysSter.ppt.
Control of Microbial Growth. A few terms Bacteriostatic: inhibits bacterial growth Bactericidal: something capable of killing bacteria Antiseptic: an.
Lab #10.
Sterilization and Disinfections. Sterilization Freeing of an environment from all living microorganisms includes bacteria and their spores, fungi, parasites.
The Control of Microbial Growth
Controlling of Microbial Growth
Disinfection and Sterilization
Sterilization &Disinfection By Prof. Dr. Zainalabideen A Abdulla, DTM&H., MRCPI, Ph.D., FRCPath. (U.K.)
Control of Microorganisms. Scientific Control Louis Pasteur Joseph Lister: 1) hand washing 2) aseptic surgery techniques What are the implications for.
CHAPTER 4 Infection Prevention 4-2 Introduction Infection prevention terminology is required for understanding microbiology in practice ─Infection prevention.
 * Sterilization: Complete destruction of all transmission m.o (bacteria,virus) * Disinfection: remove only organisms that cause disease.
Sterilization Lab 3 Abeer Saati.
Death / Killing loss of ability of microorganism to multiply under any knownconditions.
Sterilization and Disinfection
Disinfection & Sterilization Dr : Dina Ramadan Microbiologist In Central Health Laboratory Ministry of Health Cairo-Egypt Quality Manager.
Agricultural microbiology course
Sterilization &Disinfection
Sterilization By : April 2017 Dr.Samia Sadig Mohamed
Medical microbiology Sterilization by Mustafa almusawi.
Practical Medical Bacteriology
Control of Microorganisms
Medical microbiology Sterilization by Mustafa almusawi.
Que. 1 Which of the following methods will not sterilize?
Microbiology &Immunology Course Associate Professor of Microbiology
The Control of Microbial Growth
Inhibiting of Microbial Growth in vitro
Control of Microorganisms by Physical and Chemical Agents
The Control of Microbial Growth
The Control of Microbial Growth
Chapter 9 Controlling Microorganisms
Sterilization and disinfection
Antimicrobial Agents and Immunology
CHAPTER 4 Infection Prevention.
Presentation transcript:

CONTROL OF MICROORGANISMS 1

TOPICS  Sterilization & Disinfection.  Antimicrobial definitions.  Factors influence the effectiveness of antimicrobial treatment.  Methods of Sterilization & Disinfection. 2

Sterilization To completely remove all kinds of microbes (bacteria, mycobacteria, viruses & fungi) by physical or chemical methods. Effective to kill “Bacterium Spores”. Disinfection To reduce the number of pathogenic microorganisms to the point where they no longer cause diseases. Usually involves the removal of vegetative or non- endospore forming pathogens. 3

ANTIMICROBIAL DEFINITIONS Antiseptic : A substance applied to living tissue. Disinfectant : Antimicrobial agent used on inanimate objects. Degerming : Removal of most microbes in a limited area, (Alcohol swab on skin). Sanitization : Use of chemical agent on food handling equipment to meet public health standards and minimize chances of disease transmission, (Soap & Hot Water). 4

Bacteriostatic: Prevents growth of bacteria. Bactericide: An agent that kills bacteria (Most do not kill endospores). Germicide: An agent that kills certain microorganisms. Fungicide: An agent that kills fungi. Sporicide: An agent that kills bacterial endospores and fungal spores. 5

FACTORS INFLUENCE THE EFFECTIVENESS OF ANTIMICROBIAL TREATMENT 1.Number of Microbes: The more microbes present, the more time it takes to eliminate population. 2.Type of Microbes: Endospores are very difficult to destroy, Vegetative pathogens vary widely in susceptibility to different methods of microbial control. 3.Environmental influences: Presence of organic material (blood, feces, saliva, pH etc.) tends to inhibit antimicrobials. 4.Time of Exposure: Chemical antimicrobials and radiation treatments are more effective at longer times. In heat treatments, longer exposure compensates for lower temperatures. 6

PHYSICAL METHODS Heat Filtration Radiation 7

A. HEAT Kill microorganisms by denaturing their enzymes and other proteins. Heat resistance varies widely among microbes. Fast, Reliable, Inexpensive. Types of heat: 1. Moist heat 2. Dry heat 8

Moist Heat: Kills microorganisms by coagulating their proteins. 1. Boiling: Heat to 100 o C. Kills vegetative forms of bacterial pathogens. Most pathogens can be killed within 10 minutes or less. Endospores and some viruses are not destroyed this quickly. In general, moist heat is much more effective than dry heat. 9

Reliable sterilization with moist heat requires temperatures above that of boiling water. 2. Autoclave: Chamber which is filled with hot steam under pressure. Preferred method of sterilization, unless material is damaged by heat, moisture, or high pressure. - Temperature of steam reaches 121 o C. - All organisms and endospores are killed within 15 minutes. 10

3. Pasteurization: Used to reduce microbes responsible for spoilage of milk, juices, etc. - Classic Method of Pasteurization: Milk was exposed to 65 o C for 30 minutes. - High Temperature Short Time Pasteurization (HTST): Used today. Milk is exposed to 72 o C for 15 seconds. 11

Dry Heat: 1.Direct Flaming (burner) : Used to sterilize inoculating loops and needles. Heat metal until it has a red glow. 2. Incineration: (to burn to ashes), effective way to sterilize disposable items (paper cups, dressings) and biological waste. 3. Hot Air Sterilization: Place objects in an oven. Require 2 hours at 170 o C for sterilization. 12

B. FILTRATION Removal of microbes by passage of a liquid or gas through a screen like material with small pores. Used to sterilize heat sensitive materials like, Culture media Enzymes Vaccines Antibiotics 13

14

C. RADIATION Two types of radiation kill microbes: 1.Ionizing Radiation: Gamma rays, X rays. Have short wavelengths (less than 1 nanometer). Used to sterilize pharmaceuticals, disposable medical supplies( like plastic syringes, catheters, surgical gloves) and food. 15

2. Ultraviolet light (Nonionizing Radiation): Wavelength is longer than 1 nanometer. Damages DNA by producing thymine dimers, which cause mutations. Used to disinfect operating rooms, nurseries, cafeterias. 16

2. Ultraviolet light (Nonionizing Radiation): Wavelength is longer than 1 nanometer. Damages DNA by producing thymine dimers, which cause mutations. Used to disinfect operating rooms, nurseries, cafeterias. 17