Unit 3 – Microbiology – Flashcards
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Unlock answers| The importance of controlling Microbial Growth and Activity |
? Ecologically (what to know the habitat/niche) ? Invovled in biochemical cycles ? Cause disease in plants, animals, and humans ? Microorganisms are also able to destroy what we humans consider to be valuable materials, including wood and textile, that could result in severe economic loss ? reduce or prevent the transmission of diseases and infections ? prevent contamination and the growth of undesirable microorganisms, in other words we can practice speciesism ? prevent or retard the spoilage and the deterioration of materials by microorganisms |
How can we control Microorganisms |
? By removing them from the habitat ? Killing them ? Inhibiting their metabolic growth ? All by physical/chemical agents or by physical/chemical processes |
| Sepsis |
material or individual is contaminated with microorganisms |
| Asepsis |
| a-without, any process of avoiding contact with pathogenic and other microorganisms . Ex- wearing gloves, masks, gowns etc. |
| Antisepsis |
| against contamination, the process of avoiding, controlling, or inhibiting the growth, multiplication, or action of a microorganism by using chemical agents. Ex. Washing hands with soap and water, cleaning with chemicals |
| Antiseptic |
| is a non-selective (it’s not specific, wide range) chemical agent that can prevent the growth and reproduction of microorganisms by inhibiting their activities or by destroying them for as long as the chemical is in contact with the microbe. Can be applied to skin and mucus membranes |
| Disinfectant |
| is a non-selective chemical agent, that can prevent the growth and reproduction of microorganisms by inhibiting their activities or by destroying them for as long as it is in contact with the microbe. It is applied to inanimate objects |
| Sterilization |
| includes any physical or chemical agent or physical/chemical process, that inhibits, removes, or destroys all microbial life forms particularly bacteria and their spores and fungus and their spores. Everything! The spores are known to form resistant bodies, so you must destroy the spores! |
| Sanitizer |
any agent or process that reduces the microbiota (aka microbial flora or microbial life forms) to a safe public health level. We mean reducing the population of cells, so low that they wont do much or any damage at all. Still viable/dangerous, still living and growing, just population is so low most people will not be bothered by their presence. ? We sanitize food handling equipment ? We sanitize utensils use in food prep ? Food processing plants, devices used to produce food ? Dairy equipment ? Utensils/dishes used in restaurants |
| Microbial Agents (Germicides) |
| any agent will kill the growing form of microbes, but not necessarily their spores. Can be very specific to what microbocidal agent you are using |
| Bacterial agents |
| will kill the bacteria |
| Fungicidal agents (mycocidal) |
| will kill fungus but not necessarily their spores |
| Algicidal agents (phycocidal |
| will kill algae but not their spores |
| Virucidal agents |
| will destroy viruses (not killing) |
| Sporocidal agent |
| destroys spores |
| microbial static agent |
| any agent that prevents the growth and metabolic activity of microbes, doesn’t kill, places the organism into statis |
| bacterial static agent |
| will control and growth and metabolic activity or prevent the growth and metabolic activity of bacteria |
| fungi static agent |
| prevents the growth and metabolic activity of fungus |
| algae static agent |
| prevents the growth and metabolic activity of algae |
| Preservative |
| any agent chemical or physical, that prevents biological decomposition of biodegradable materials |
| Death |
| Death |
? One way to control microorganisms is to kill them. Death to microorganisms is referred to an irreversible loss of the ability to reproduce. ? The first ones to die would be the ones that are more genetically weak. Those that are more genetically hearty would survive for longer period of time. They are not all exactly the same so it would take longer to kill. They are not dying at the same rate!! |
| Antimicrobial Agents |
? they control the growth and metabolic activity of microorganisms in a variety of ways |
| Control by Physical Agents Temperature |
| temps above 55o C can cause thermal death |
? Mesophiles- |
| grow at 25-40o C |
| Moist Heat |
| Moist heat is more effective than dry heat is, but both can be used |
| Boiling water |
? doesn’t achieve sterility because it doesn’t kill heat resistant spores…all in the family of Bacillaceae. Genus- Bacillus, Sporolactobacillus, Sporosarcina, Clostridium etc ? Boiling water- which is 100oC will kill the vegetative form of the pathogenic and non-pathogenic bacterial life forms but not necessarily their spores. You have to boil for 15-30 minutes to kill the vegetative form. 100oC might not be hot enough to destroy the spores, so you will sanitize but not necessarily sterilize |
| complete sterility |
| accomplished by steam, temperatures at 15psi at 121oC for 15-20 in the autoclave for 15-20 minutes of application. Agar can be placed in culture tube in sterilized |
| Dry heat |
? is not as effective as moist heat in sterilizing, but it can kill the vegetative form of pathogens as well as non-pathogens as well as their spores on objects such as glassware, metals and surgical instruments when you expose those objects to a temperature of at least 160oC for at least 2 hours. You cant put everything into an autoclave so you can use dry heat like a hot air oven. |
| Incineration |
| the actual burning of the materials that is contaminated with microbes, prevents the transmission |
| Heat to control microorganisms on food |
| Pasteurization is the best process for this. Doesn’t achieve sterility |
| low temperature/long exposure pasteurization |
| was based on what was regarded at the time to be the most effective temperature against the most heat resistant organism which happened to be mycobacterium tuberculosis. If got rid of that microbe could also reduce the microbial flora of some other microorganisms that wasn’t as heat resistant as MT, and it made the milk safer to drink. Disease that they were coming down was Q fever .143oF for 30 minutes |
| high temperature/short exposure pasteurization |
| process, was discovered to be the temperature at the time to destroy the organism that caused Q fever was Coxiella Burnetii. 160oF (71.1oC ) for 15 minutes |
| Dessication- STASIS |
? “drying out” of cells. It is a microbial static agent, it doesn’t kill. Dessication chambers remove all the water from the cells. What will happen when you send the cells into stasis by drying out the cells there is a slight decline in viability of cells, growth and metabolic activity. |
| Osmotic Pressure- KILLS |
? high concentration to low concentration of whatever the substance is to establish equilibrium. ? movement of water in response to a diffusion gradient, the concentration of solutes Water always moves to dilute the solute |
| Isotonic |
| the internal cellular and external cellular environment has the same solute concentration. There is no net gain or loss of water |
| Hypertonic |
? the solute concentration in the external environment is greater. Therefore water will leave the internal cell (to reach equilibrium) and cell loses water. But bacteria also have a cell wall, rigid structure that gives strength and resilience to the cell and helps maintain structure and form. If this cell is losing water, then plasmolysis will occur, the Cell isn’t going to get any smaller but the cytoplasm is. The distance between the cell wall and cell membrane is great, so you have periplasmic space. Cell goes into stasis and there is going to be a cessation of growth and metabolic activity. ? Hypotonic- the solute concentration on the outside is less than it is in the inside. Water will move into the cell which will increase osmotic pressure, and when the osmotic pressure goes beyond what the cell wall can withstand it will undergo lysis and die. All because of change in osmotic pressure |
| Radiation- KILLS |
? One type that is used frequently is UV, ultraviolet light adversely affect microorganisms because it can be absorbed by the DNA and cause sufficient damage to the DNA, and interfere with DNA replication. Inhibits growth and other metabolic activities ? UV- cause the production of organic peroxides that are toxic to microorganisms, which would also adversely affect the growth and activity of microorganisms |
| Ultrasonic Vibrations- KILLS |
? Can actually kill microorganisms by denaturing the proteins, causing a cavitation of cells and raising the temperature to lethal levels |
| Phenols and phenolic compounds |
phenols are highly fungicidal ? Mode of action- ? can disrupt the cell and cause precipitation of the cellular proteins, ? can also inactivate enzymes, ? destroy the selectiveness of the cell membrane causing it to leak out its consequents. ? Problem with phenols- they don’t discriminate against which proteins they destroy, so they destroy microbial proteins as the proteins of the host as well. Quite toxic to use because they don’t discriminate.
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| Joseph Lister |
? first person to use phenolitic compounds, used carbolic acid (is a phenolitic compound) to develop aseptic surgical techniques |
| Cresol |
? alkyl derivative, CH3, can be used as either a disinfectant or more than that as a preservative. Used to treat wood, especially utility poles. Also a carcinogen |
| Hexachlorophene |
| it is a CL phenol, chlorinated phenol, more active against gram + than gram -, very active against pathogenic fungus. Newborn babies used to be washed with hexachlorphene soap but they discovered that hexachlorophene was absorbed through the skin and got into the blood circulatory system and found its way into the soft tissues of the skin (brain) and causes brain damage. |
| Eugenol |
| used in dentistry as an antiseptic |
| Thymol |
| also used in dentistry and is used as an antiseptic. Also used as a antiseptic and a preservative for biological samples |
| Hydroxyl benzonates |
| is a preservative for drugs (liquid form) and foods. |
| Benzoic acid |
| used as a food preservative |
