Controlling Microbial Growth in the Environment

Chemical Methods of Microbial Control Surfactants

"Surface active" chemicals• Reduce surface tension of solvents• Soaps and detergents • Soaps have hydrophilic and hydrophobic ends • Good degerming agents but not antimicrobial • Detergents are positively charged organic surfactants • Quaternary ammonium compounds (Quats) • Low-level disinfectants • Ideal for many medical and industrial applications

Lyophilization at

-196oC for a few minutes while drying Inhibits metabolism Long-term storage of bacterial cultures and drugs

Refrigeration at

0-7oC Inhibits metabolism Preservation of food

Hot Air for

1 hours at 160oC or 1 hours at 171oC Denatures proteins, destroys membranes, oxidizes metabolic compounds Sterilization of water-sensitive materials such as powders, oils, and metals

Incineration for

1 second at >1,000oC Oxidizes everything Sterilization of inoculating loops, flammable contaminated medical waste and diseased carcasses

Ultra-High-Temperature Sterilization for

1-3 seconds at 140oC Denature proteins and destroys membranes Sterilization of dairy product

Boiling for

10 minutes at 100oC Denatures proteins and destroys membranes Disinfection of baby bottles and sanitization of restaurant cookware and tableware

Autoclaving (pressure cooker) for

15 minutes, 121oC, 15 PSI Denatures proteins and destroys membranes Sterilization of medical and laboratory equipment that can tolerate heat and moisture. Pressure cookers used for sterilization of canned foods

Pasteurization for

15 seconds, 72oC Denature proteins and destroys membranes Destruction of all pathogens and most microbes in dairy products, fruit juices, beer and wine

Freezing at

< 0 degrees C - Inhibits metabolism Long-term preservation of foods, drugs and bacterial culture

Which of the following types of radiation is more widely used as an antimicrobial technique? a) Electron beams b) Visible light waves c) Radio waves d) Microwaves

A = Electron beams

Which of the following statements is FALSE concerning antiviral drugs? a) Macrolide drugs block attachment sites on the host cell wall and prevent viruses from entering. b) Drugs that neutralize the acidity of phagolysosomes prevent viral uncoating c) Nucleotide analog can be used to stop microbial replication. d) Drugs containing protease inhibitors retard viral growth by blocking the production of essential viral proteins.

A = Macrolide drugs block attachment sites on the host cell wall and prevent viruses from entering..

In practical terms in everyday use, which of the following statements provides the definition of sterilization a) Sterilization eliminates organisms and their spores or endospores. b) Sterilization eliminates harmful microorganisms and viruses. c) Sterilization eliminates prions d) Sterilization eliminates hyperthermophiles.

A = Sterilization eliminates organisms and their spores or endospores.

Which of the following disinfectants acts against cell membranes? a) phenol b) peracetic acid c) silver nitrate d) glutaraldehyde

A = phenol

Which class of surfactant is most soluble in water? a) quaternary ammonium compounds b) alcohols c) soaps d) peracetic acids

A = quaternary ammonium compounds

Which of the following is an example of sanitization? a) A surgeon washes her hands before surgery. b) A nurse prepares an injection site with an alcohol swab. c) An autoclave is used to prepare nutrient agar. d) Heat is used to kill potential pathogens in apple juice. e) A public toilet is treated with disinfectants.

A public toilet is treated with disinfectants.

Antimicrobial (antibiotics, semisynthetics and synthetics)

Act against cell walls, cell membranes, protein synthesis, DNA replication and transcriptions Intermediate to low. Disinfectants and treatment of infectious disease

Quinolones and fluoroquinolones

Act against prokaryotic DNA gyrase

Sterility Indicators Incubation

After autoclaving, flexible vial is squeezed to break ampule and release medium onto spore strip

Antiviral agents can target unique aspects of viral metabolism

Amantadine, rimantadine, and weak organic bases prevent viral uncoating

Drugs that act against protein synthesis include

Aminoglycosides

Inhibition of Metabolic Pathway

Anti-metabolic agents can be effective when metabolic processes of pathogen and host differ • Quinolones interfere with the metabolism of malaria parasites • Heavy metals inactivate enzymes • Agents that disrupt tubulin polymerization and glucose uptake by many protozoa and parasitic worms • Drugs block activation of viruses • Metabolic antagonists

Antimicrobials

Antibiotics, semisynthetic, and synthetic chemicals • Typically used for treatment of disease • Some used for antimicrobial control outside the body

Enzymes cont.

Antimicrobial enzymes act against microorganisms • Human tears contain lysozyme • Digests peptidoglycan cell wall of bacteria • Enzymes to control microbes in the environment • Lysozyme used to reduce the number of bacteria in cheese • Prionzyme can remove prions on medical instruments

Synthetics

Antimicrobials that are completely synthesized in a lab

Azidothymidine (AXT), Lamivudine, and Efavirenz:

Antiretroviral drugs. • AZT inhibits viral reverse transcriptase • Efavirenz inhibits viral reverse transcriptase • Lamivudine nucleoside analog reverse transcriptase inhibitor

Prevention of Virus Attachment

Attachment antagonists block viral attachment or receptor proteins • CCR5 antagonist block the CCR5 coreceptor on CD4+ cells blocking HIV attachment • New area of antimicrobial drug development

Disruption of Cytoplasmic Membranes

Azoles and allylamines inhibit ergosterol synthesis • Polymyxin disrupts cytoplasmic membranes of Gram-negatives • Toxic to human kidneys • Some anti-parasitic drugs act against cytoplasmic membranes

Which of the following substances or processes kills microorganisms on laboratory surfaces? a) antiseptics b) disinfectants c) degermers d) pasteurization

B = disinfectants

Which of the following chemicals is active against bacterial endospores? a) copper ions b) ethylene oxide c) ethanol d) triclosan

B = ethylene oxide

The endospores of which organism are used as a biological indicator of sterilization?

Bacillus stearothermophilus

Mechanisms of Antimicrobial Action Inhibition of Cell Wall Synthesis

Bacteria have weakened cell walls and eventually lyse

Search for new antibiotics, semisynthetics, and synthetics

Bacteriocins • Design drugs complementary to the shape of microbial proteins to inhibit them

Biosafety Levels - Four levels of safety

Biosafety Level 1 (BSL-1) Biosafety Level 2 (BSL-2) Biosafety Level 3 (BSL-3) Biosafety Level 4 (BSL-4)

Fusion Inhibitors:

Block the HIV envelope from merging with the host CD4+ cell membrane thereby preventing HIV entry into the cell.

Bacitracin

Blocks secretion of NAG and NAM from cytoplasm

Methods of microbial control using moist heat

Boiling • Autoclaving • Pasteurization • High temperature short time (HTST) • Ultrahigh-temperature sterilization • Heating to 135oC for 1-2 sec

Which of the following substances would most effectively inhibit anaerobes? a) phenol b) ethanol c) hydrogen peroxide d) silver e) water

C = Hydrogen Peroxide

A sample of E. coli has been subjected to heat for a specific time, and 90% of the cells have been destroyed. Which of the following terms best describes this event? a) thermal death point b) thermal death time c) decimal reduction time d) none of the above

C = decimal reduction time

Which of the following substances is least toxic to humans? a) carbolic acid b) glutaraldehyde c) hydrogen peroxide d) formalin

C = hydrogen peroxide

CCR5 Antagonists (CCR5s):

CCR5 antagonist block CCR5 coreceptor on the surface of CD4+ cells preventing HIV from entering the cell.

Sterility Indicators

Cap that allows steam to penetrate Flexible plastic vial Nutrient medium containing pH color indicator Endospore strip

Toxicity

Cause of many adverse reactions poorly understood • Drugs may be toxic to kidneys, liver, or nerves • Consideration needed when prescribing drugs to pregnant women

An antimicrobial that inhibits cell wall synthesis will result in

Cells become more susceptible to osmotic pressure

Semisynthetics

Chemically altered antibiotics that are more effective than naturally occurring ones

Antimicrobial agents are drugs that treat microbial infections

Commonly called antibiotics • Examples include penicillin, amoxicillin, ciprofloxacin, azithromycin

Chemical Methods of Microbial Control Aldehydes

Compounds containing terminal -CHO groups • Cross-link functional groups to denature proteins and inactivate nucleic acids • Glutaraldehyde disinfects and sterilizes • Formalin used in embalming and disinfection of rooms and instruments

Develop in hospitals and nursing homes

Constant use of drugs eliminates sensitive bacteria and selects for resistant bacteria

Most common agents prevent

Cross-linkage of NAM subunits

Which of the following items functions most like an autoclave? a) A boiling pan b) An incinerator c) A microwave oven d) A pressure cooker

D = A pressure cooker

Which of the following statements is true concerning the selection of an antimicrobial agent? a) An ideal antimicrobial agent is stable during storage. b) An ideal antimicrobial agent is fast acting. c) Ideal microbial agents do not exist. d) All of the above

D = All of the above

An antimicrobial agent that __________will have the most lasting germicidal effect a) inhibits enzymatic activity b) damages cytoplasmic membranes c) damages cell walls d) damages DNA e) destroys metabolites

D = Damages DNA

Which of the following disinfectants contains alcohol? a) an iodophor b) a quat c) formalin d) a tincture of bromine

D = a tincture of bromine

Which of the following adjectives best describes a surgical procedure that is free of microbial contaminants? a) disinfected b) sanitized c) degermed d) aseptic

D = aseptic

Which antimicrobial chemical has been used to sterilize spacecraft? a) phenol b) alcohol c) heavy metal d) ethylene oxide

D = ethylene oxide

Which of the following substances would most effectively inhibit anaerobes? a) phenol b) silver c) ethanol d) hydrogen peroxide

D = hydrogen peroxide

Which of the following best describes the disinfecting of cafeteria plates? a) pasteurization b) antisepsis c) sterilization d) sanitization

D=Sanitization

Surfactants (soaps and detergints)

Decrease surface tension of water and disrupts cell membranes Low. Soaps: degerming Detergents: antiseptic

Aldehydes (glutaraldehyde/formaldehyd

Denature proteins High Disinfectant and embalming fluid

Enzymes

Denature proteins High Removal of prions on medical instruments

Gaseous agents (ethylene oxide, propylene oxide, and beta-propiolactone)

Denature proteins High Sterilization of heat and water sensitive objects

Heavy Metals (arsenic, zinc, mercury, silver, copper, etc)

Denature proteins Low Fungistats in paints silver nitrate cream: surgical dressings, burn creams and catheters; algicide in water reservoirs, swimming pools and aquariums

Oxidizing agent

Denature proteins by oxidation High Disinfectants, antiseptics for deep wounds, water purification and sterilizations of food-processing and medical equipment

Effects of high temperatures

Denature proteins • Interfere with integrity of cytoplasmic membrane and cell wall • Disrupt structure and function of nucleic acids

Phenolics

Denature proteins; disrupts cell membranes Intermediate to low Disinfectants and antiseptics

Phenol (carbolic acid)

Denature proteins; disrupts cell membranes,Intermediate to low, original surgical antiseptic, now replaced with odorous and injurious phenolics

The preservation of beef jerky from microbial growth relies on which method of microbial control?

Desiccation

Heat can increase the efficacy of antimicrobial agents.

Destabilizing proteins and nucleic acids • Driving antimicrobial agents into and through cells walls, membranes, endospores and cysts

Diffusion and dilution tests that expose pathogens to antimicrobials are designed to

Determine which drug is most effective and determine the amount of a drug to use against a particular pathogen.

Boiling time is critical

Different elevations require different boiling times because as elevation increases the boiling temperature of water decreases

Efficacy

Diffusion susceptibility test • Minimum inhibitory concentration test • Minimum bactericidal concentration test

Selman Waksman (1888-1973)

Discovered 20 antibiotics including streptomycin which was isolated from Streptomyces griseus

Alexander Fleming (1818-1955

Discovered benzylpenicillin (Penicillin G) released from the mold Penicillium notatum

Gerhard Domagk (1895-1964)

Discovered sulfonamidochrysoidine (Prontosil), the first commercially available broad spectrum antibiotic

Isoniazid and ethambutol

Disrupt mycolic acid formation in mycobacterial species

Biosafety Level 3 includes

Double sets of entry doors

Desiccation and Lyophilization

Drying inhibits growth because of removal of water • Lyophilization can also be used for long-term preservation of microbial cultures • Prevents formation of damaging ice crystals

Which is an example of sanitization? a) A surgeon washes her hands before surgery. b) A nurse prepares an injection site with an alcohol swab c) Heat is used to kill potential pathogens in apple juice. d) An autoclave is used to prepare nutrient agar. e) A public toilet is treated with disinfectant.

E = A public toilet is treated with disinfectant

Which of the following statements is true of disinfectants? a) They are effective in destroying endospores. b) They are only effective for short periods of time (seconds to minutes). c) They are used on living tissue. d) They are used for sterilization. e) They are used on inanimate surfaces.

E = They are used on inanimate surfaces.

Which of the following substances would most effectively inhibit anaerobes? a) Silver b) water c) ethanol d) phenol e) hydrogen peroxide

E = hydrogen peroxide

Which of the following is bacteriostatic? a) filtration b) heating in an oven at 171 degrees C for an hour c) flash pasturization d) autoclaving e) freezing below 0 degrees c

E= Freezing below 0 degrees c

Physical Methods of Microbial Control Heat-Related Methods

Effects of high temperatures Thermal death point Thermal death time

Seventy percent alcohol is effective against

Enveloped viruses

Chemotherapeutic agents are drugs that act against disease

Example include insulin, ibuprofen, anticancer drugs

Drugs are chemicals that affect physiology in any manner

Examples include caffeine, alcohol, and tobacco

Osmotic Pressure can

Exposure to hypertonic solutions Inhibits metabolism Preservation of food

Protein function depends on 3-D shape

Extreme heat or certain chemicals denature proteins causing them to lose function

Filtration can

Filter retains microbes (0.2 µm) Physically separates microbes from air and liquids Sterilization of air and heat-sensitive materials. Used in the manufacture of many medicines.

Multiple drug resistant microbes __________

Frequently develop in hospitals

Beta-lactams are most prominent in this group

Functional groups are beta-lactam rings • Beta-lactams bind to enzymes that cross-link NAM subunits

Most susceptible to Antimicrobial agents

Fungi Noneveloped viruses Most gram positive bacteria Enveloped viruses

Broad-spectrum synthetic antimicrobial were discovered by ___________.

Gerhard Domagk

Penicillin's are less effective in the treatment of

Gram-negative bacteria because the outer membrane of Gram-negative bacteria prevents uptake of beta-lactam antibiotics

Biosafety Level 3 (BSL-3)

Handling of microbes in safety cabinets

Handling of microbes in safety cabinets

Handling of microbes that cause severe or fatal disease

Biosafety Level 2 (BSL-2

Handling of moderately hazardous agents

Biosafety Level 1 (BSL-1)

Handling pathogens that do not cause disease in healthy humans

Chemical Methods of Microbial Control Heavy Metals

Heavy-metal ions denature proteins • Low-level bacteriostatic and fungistatic agents • 1% silver nitrate to prevent blindness caused by N. gonorrhoeae • Thimerosal used to preserve vaccines • Copper controls algal growth

Why are sulfonamides effective.

Humans and microbes use PABA differently in their metabolism.

Amphotericin B attaches to ergosterol in fungal membranes

Humans somewhat susceptible because cholesterol similar to ergosterol • Bacteria lack sterols; not susceptible

Hydroxide ions

Hydroxide ions denature other molecules (DNA)

An Etest Combines Elements of Kirby-Bauer and MIC tests also

Identifies the minimal inhibitory concentration. Can be use to quickly determine susceptibility and estimate the MIC for a bacteria

Antiviral Drugs and their Mechanisms of Action

Idoxuridine and Trifluridine Vidarabine acyclovir and Ganciclovir: P Ribavirin Oseltamivir (Tamiflu) Amantadine and Rimantadine: Azidothymidine (AXT), Lamivudine, and Efavirenz: Biological Response Modifiers:

A company that measures an antimicrobial cleaner for kitchen counters claims that its product is effective when used in a 50% water solution. By what means might scientist best verify this statement?

In use test

The Selection of Microbial Control Methods

Inexpensive • Fast-acting • Stable during storage • Selective: Capable of controlling microbial growth, harmless to humans, animals, and objects

Mechanisms of Antimicrobial Action Inhibition of Nucleic Acid Synthesis cont

Inhibitors of RNA polymerase during transcription • Reverse transcriptase inhibitors • Act against an enzyme HIV uses in its replication cycle • Do not harm people because humans lack reverse transcriptase

Amantadine and Rimantadine:

Inhibits viral Uncoating

Integrase Strand Transfer Inhibitor (INSTI)

Integrase strand transfer inhibitors block the HIV enzyme integrase, thus blocking the integration of the HIV DNA into host cell DNA.

Vancomycin and cycloserine

Interfere with bridges that link NAM subunits in many Gram-positives

Biological Response Modifiers:

Interferons, Interleukins, Hematopoietic growth factors.

Chemical Methods of Microbial Control Phenol and Phenolics

Intermediate- to low-level disinfectants • Denature proteins and disrupt cell membranes • Effective in presence of organic matter • Remain active for prolonged time • Commonly used in health care settings, labs, and homes • Have disagreeable odor and possible side effects

Chemical Methods of Microbial Control Halogens

Intermediate-level antimicrobial chemicals • Includes fluorine (F), chlorine (Cl), Bromine (Br), iodine (I) and astatine (At) • Believed to damage enzymes via oxidation or by denaturation • Widely used in numerous applications • Iodine tablets, iodophores, chlorine treatment, bleach, chloramines, and bromine disinfection

Chemical Methods of Microbial Control Alcohols

Intermediate-level disinfectants • Denature proteins and disrupt cytoplasmic membranes • More effective than soap in removing bacteria from hands • Swabbing of skin with 70% ethanol prior to injection

Nonionizing radiation (ultraviolet light with

Irradiation with 260 nm wavelength radiation Formation of thymine dimers, inhibits DNA transcription and replication Disinfection and sterilization of surfaces and of transparent fluids and gasses.

Broad-spectrum effective against many organisms

Killing of normal flora reduces microbial antagonism

Maintain high concentration of drug in patient for sufficient time

Kills all sensitive cells and inhibits others so immune system can destroy. • Remember the MIC and MIB examples

Boiling

Kills vegetative cells of bacteria and fungi, protozoan trophozoites, most viruses Boiling time is critical Endospores, protozoan cysts, and some viruses can survive boiling

Methicillin-Resistant Staphylococcus aureus

MRSA

Which of the following statements is false concerning antiviral drugs?

Macrolide drugs block attachment sites on the host cell wall and prevent viruses from entering.

Paul Ehrlich (1854-1915)

Magic bullets", compounds that selectively targeted a disease-causing organism to which a toxin could be attached for selective delivery of the toxin to the disease causing organism. • Arsphenamine (Salvarsan) the first effective medicinal treatment for syphilis, thereby initiating and also naming the concept of chemotherapy. Unfortunately arsenic based compounds have a high level of toxicity

Retarding Resistance

Maintain high concentration of drug in patient for sufficient time Use antimicrobials only when necessary • Develop new variations of existing drug. Search for new antibiotics, semisynthetics, and synthetics

Multiple Resistance and Cross Resistance

Many pathogens acquire resistance to more than one antibiotic • Common when R-plasmids exchanged • Develop in hospitals and nursing home Superbugs • Cross resistance

Narrow-spectrum effective against few organisms

May allow for secondary or superinfections to develop

Disruption of normal microbiota

May result in secondary infections • Overgrowth of normal flora causes superinfections • Of great concern for hospitalized patients • Clostridium difficile colitis (c diff) is a severe super infection where the normal microbiota is replace by Clostridium difficile often as a result of disruption of the normal intestinal microbiota by antibiotic treatment. C diff is a growing problem and results in approximately 30,000 deaths per year.

Use-dilution Test

Metal cylinders dipped into broth cultures of bacteria • Contaminated cylinder immersed into dilution ofdisinfectant • Cylinders removed, washed, and placed into tube of medium • Most effective agents prevent growth at highest dilution • Current standard test in the U.S. • New standard procedure being developed

Gaseous Agents

Microbicidal and sporicidal gases used in closed chambers to sterilize items • Denature proteins and DNA by cross-linking functional groups • Used in hospitals and dental offices • Disadvantages • Can be hazardous to people • Often highly explosive • Extremely poisonous • Potentially carcinogeni

Semisynthetic derivatives of beta-lactam are

More stable in acidic environments • More readily absorbed • Less susceptible to deactivation Active against a broader spectrum of bacteria

Most resistant to antimicrobial agents

Most Gram negative Bacteria Prions Bacterial Endospores Mycobateria Cysts of protzoa Active-state protozoa (trophozoites)

Resistance by bacteria acquired in two ways

Mutations of chromosomal genes • Acquisition of R-plasmids via transformation, transduction, and conjugation

Sites of Action of HIV Inhibitors Non-nucleoside Reverse Transcriptase Inhibitors (NNRTIs):

NNRTIs bind to and block HIV reverse transcriptase. HIV uses reverse transcriptase to convert its RNA into DNA (reverse transcription. Blocking reverse transcriptase prevents HIV from replicating.

Nucleoside Reverse Transcriptase Inhibitors (NRTI):

NRTIs bind to and block HIV reverse transcriptase. HIV uses reverse transcriptase to convert its RNA into DNA (reverse transcription. Blocking reverse transcriptase prevents HIV from replicatin

Spectrum of Action

Narrow-spectrum effective against few organisms • • Broad-spectrum effective against many organisms

Idoxuridine and Trifluridine:

Nucleoside analogues that inhibit viral DNA replication. Triflurdine is the agent of choice for treatment of herpesvirus keratitis but has significant toxic side effects

Osmotic Pressure

Osmotic pressure high concentrations of salt or sugar in foods can inhibit growth bacterial growth • Cells in hypertonic solutions of salt or sugar lose water adversely affecting protein & membrane structure & function • bacteria have a wide range of tolerance to osmotic pressure with halophiles tolerating & even requiring extreme salt conditions of >9%. Most pathogenic bacteria can only tolerate an osmotic pressure equivalent to that of the human body (0.9%) and are thus can be effectivelycontrolled by high salt. • The drying and salting of food has long been an effective method of food preservation • Fungi have greater ability than bacteria to survive hypertonic environments

Protease Inhibitor (PI)

PI's block HIV protease. By blocking protease, PIs prevent new (immature) HIV from becoming mature viruses that can infect other CD4+ cells.

Which of the following is most closely associated with a beta lactam ring a) Penicillin b) vancomycin c) bacitracin d) isoniazid

Penicillin

Chemical Methods of Microbial Control Oxidizing Agents

Peroxides, ozone, and peracetic acid • Kill by oxidation of microbial enzymes • High-level disinfectants and antiseptics • Hydrogen peroxide can disinfect and sterilize surfaces • Not useful for treating open wounds because of catalase activity • Ozone treatment of drinking water • Peracetic acid is effective sporocide used to sterilize equipment

Autoclaving

Pressure applied to boiling water prevents steam from escaping • Boiling temperature increases as pressure increases • Autoclave conditions - 121oC, 15 psi, 15 m

Halogens (iodine, chlorine, bromine, and fluorine)

Presumably denature proteins Intermediate Disinfectants, antiseptics and water purification

Inhibition of Cell Wall Synthesis Summary

Prevent bacteria from increasing amount of peptidoglycan • Have no effect on existing peptidoglycan layer • Effective only for growing cells

Mechanisms of Resistance

Produce enzyme that destroys or deactivates drug • Slow or prevent entry of drug into the cell • Alter target of drug so it binds less effectively • Alter their metabolic chemistry • Pump antimicrobial drug out of the cell before it can act • Biofilms retard drug diffusion and slow metabolic rate

Chemicals, radiation, and heat can alter/destroy nucleic acid

Produce fatal mutants •Melt DNA and RNA •Halt cell replication through disruption of critical DNA replication functions •Halt protein synthesis through action on RNA or ribosomes

Inhibition of Protein Synthesis

Prokaryotic ribosomes are 70S (30S and 50S) • Eukaryotic ribosomes are 80S (40S and 60S) • Because of structural differences in ribosomes of prokaryotic and eukaryotic ribosome, drugs have been identified that can selectively target prokaryotic ribosomes and selectively inhibit translation in prokaryotic pathogenic organisms • Mitochondria in eukaryotic organisms 70S ribosomes which are similar to prokaryotic ribosomes, thus there is the potential for cross reactivity of some drugs which target prokaryotic ribosomes.

Antimicrobial agents that damage nucleic acids also effect

Protein synthesis

Antimicrobial Agents Damage To

Proteins And Nucleic Acids

Vidarabine acyclovir and Ganciclovir:

Purine nucleoside analogues. General inhibitors of viral DNA synthesis.

Therapeutic Range:

Range of concentrations at which the antimicrobial is both effective and nontoxic.

Sterility Indicators red

Red medium means spores were killed; autoclaved objects are sterile.

Cross resistance is _____________

Resistance to one antimicrobial agent because of its similarity to another antimicrobial agent.

Ionizing radiation (electron beams, gamma rays and x-rays) at

Second to hours of exposure depending upon wavelength of radiation destroys DNA. Sterilization of medical and laboratory equipment and preservation of food

Develop new variations of existing drug

Second-generation drugs • Third-generation drugs

The key to successful chemotherapy is

Selective toxicity

Mechanisms of Antimicrobial Action Inhibition of Cell Wall Synthesis

Semisynthetic derivatives of beta-lactam Overcome resistance of beta-lactamase producing bacteria

Inhibition of Nucleic Acid Synthesis

Several drugs block DNA replication or mRNA transcription this class of drugs is poorly selective and often affect both eukaryotic and prokaryotic cells. Not normally used to treat infections • Used in research and perhaps to slow cancer cell replication

Disruption of Cytoplasmic Membranes

Some drugs form channels through cytoplasmic membrane and damage its integrity • Amphotericin B attaches to ergosterol in fungal membranes

Resistance to Antimicrobial Drugs Development of Antibiotic Resistance

Some pathogens are naturally resistant • Resistance by bacteria acquired in two ways

The Etest measures ________________.

Suceptability of a bacteria to an antibiotic and estimates the Minimum Inhibitory Concentration

Methods For Evaluating Disinfectants And Antiseptics In-Use Test

Swabs taken from objects before and after application of disinfectant or antiseptic • Swabs inoculated into growth medium and incubated • Medium monitored for growth • Accurate determination of proper strength and application procedure for each situation

Use antimicrobial agents in combination

Synergism vs. antagonism • Remember HIV example of combination therapy

An Etest Combines Elements of Kirby-Bauer and MIC tests

Test antibiotic is on the stick as a gradient from high concentration at the top to low concentration at the bottom.

In a Kirby - Bauer Susceptibility test, the presence of a zone of inhibition around disks containing antimicrobial agents indicates

That the microbe does not grow in the presence of the agents.

Selective toxicity,

The ability to kill bacteria without harming the host

The microbial death rate is used to measure ____________

The efficiency of a detergent The efficiency of an antiseptic The efficiency of sanitization techniques

The Microbial Death Rate is used to measure

The efficiency of sanitization techniques. The efficiency of an autoclave The efficiency of a detergent The efficiency of an antiseptic.

Therapeutic Index:

The mathematic comparison of the minimal dose of drug for efficacy/minimal toxic dose of drug.

Pharmacodynamics:

The study of the biochemical and physical effects of drugs on the body or microorganisms and the mechanisms of drug actions; and the relationship between drug concentration and effect

Thermal death point

Thermal death point

The hydrophobic nature of amphotericin B allows it to insert into the plasma membrane adjacent to ergosterol.

This results in the formation of a pore which allows the contents of the cytoplasm to leak out

Thermal death time

Time to sterilize volume of liquid at set temperature

Clinical Considerations in Prescribing Antimicrobial Drugs Safety and Side Effects

Toxicity Allergies Disruption of normal microbiota

Medications administered intravenously can provide much higher and continuous effective drug concentrations than other delivery methods.

True

Dry Heat-Related Methods

Used for materials that cannot be sterilized with moist heat • Denatures proteins and oxidizes metabolic and structural chemicals • Requires higher temperatures for longer time than moist heat • 160oC for 2 hours or 170oC for 1 hour • Incineration is ultimate means of sterilization

Physical Methods of Microbial Control Moist Heat-Related Methods

Used to disinfect, sanitize, and sterilize • Denatures proteins and destroys cytoplasmic membranes • More effective than dry heat

PABA is ____________

Used to synthesize folic acid

Mechanisms of Antimicrobial Action Inhibition of Cell Wall Synthesis

Vancomycin and cycloserine Bacitracin Isoniazid and ethambutol

Desiccation conditions

Varies with amount of water removed Inhibits metabolism Preservation of food

Ribavirin Oseltamivir (Tamiflu):

Viral prodrugs that inhibit viral RNA replication.

Nonionizing Radiation

Wavelengths greater than 1 nm • Excites electrons, causing them to make new covalent bonds • Affects 3-D structure of proteins and nucleic acids • UV light causes pyrimidine dimers in DNA • UV light does not penetrate well • Suitable for disinfecting air, transparent fluids, and surfaces of objects

Ionizing Radiation

Wavelengths shorter than 1 nm • Ejects electrons from atoms to create ions • Ions disrupt hydrogen bonding, oxidize double covalent bonds, and create hydroxide ions • Electron beams • Gamma rays

Sterility Indicators yellow

Yellow medium means spores are viable; autoclaved objects are not sterile.

Protease inhibitors interfere with

an enzyme HIV needs in its replication cycle

If administered together bacteriostatic drugs would act _________ with penicillin.

antagonistically

Some bacteria develop resistance to groups of drugs because the drugs are all structurally similar to each other; this is a phenomenon as ____________.

cross resistance

Which of the following statements is true of disinfectants? a) They are effective in destroying endospores b) They are used on Living tissue C) They are only effective for short periods of time. (sec to min) d) They are use on inanimate surfaces e) They are used for sterilization

d=They are used on inanimate surfaces.

An antimicrobial agent that ________ will have the most lasting germicidal effect.

damages DNA

Refrigeration and Freezing

decrease microbial metabolism, growth, and reproduction • Chemical reactions occur slowly at low temp• Liquid water not available below freezing • Psychrophilic microbes can multiply in refrigerated foods• Refrigeration halts growth of most pathogens cause they're mesophilic organisms • Organisms vary in susceptibility to freezing• Note that under special conditions (liquid nitrogen -196oC), freezing can be a suitable method for long-term viable storage of prokaryotic and eukaryotic cells

Physical removal of microbes without killing them is

degermining

Physical removal of microbes without killing them is ______________.

degermining

Electron beams

effective at killing but do not penetrate well

Seventy-percent alcohol is effective against _______.

enveloped viruses

By understanding the length of time the drug remains at efficacious levels we can

estimate the frequency of dosing to achieve a balance of maintaining the efficacious concentration in the blood and preventing accumulation of drug that could reach toxic levels

Which of the following is bacteriostatic? a) filtration b) autoclaving c) heating in an oven at 171°C for an hour flash pasteurization d) freezing below 0°C

freezing below 0°C

Germicides classified as

high, intermediate, or low effectiveness

High

kill all pathogens, including endospores

Intermediate

kill fungal spores, protozoan cysts, viruses, pathogenic bacteria

Low

kill vegetative bacteria, fungi, protozoa, some viruse

An Etest Combines Elements of Kirby-Bauer and MIC tests The Zone of Inhibition is

largest at the top where the highest concentration of antibiotic is and get smaller as the concentration decreases.

Gamma rays

penetrate well but require hours to kill microbes

Which of the following is most closely associated with a beta-lactam ring?

penicillin

Most drugs that inhibit the synthesis of the cell wall act by ____________.

preventing the cross-linkage of NAM subunits

Antimicrobial agents that damage nucleic acids also affect ________.

protein synthesis

The therapeutic range of an antimicrobial is the _________.

range of concentrations at which the antimicrobial is both effective and non-toxic

Treatment with antibiotic provides

selective pressure for the newly resistant bacteria to become dominant in the population.

Bacterial DNA replication requires the enzyme gyrase, but eukaryotic replication does not. Ciprofloxacin (Cipro) inhibits gyrase activity. This is an example of _____.

selective toxicity

The Microbial Death Rate is used to measure ________________.

the efficiency of an antiseptic the efficiency of a detergent the efficiency of an autoclav

Pharmacokinetics:

the science to ascertain the fate of a drug from the time it is administered to the time it is eliminated from the body.

Routes of Administration

topical application of drug for external infections • Oral route requires no needles and can be self-administered • Intramuscular administration delivers drug via needle into muscle • Intravenous administration delivers drug directly to bloodstream • Know how antimicrobial agent will be distributed to infected tissues

By understanding the concentration of drug in the blood

we can estimate the dose needed to reach a inhibitory concentration.

Nucleotide or nucleoside analogs

• Interfere with function of nucleic acids • Distort shapes of nucleic acid molecules and prevent further replication, transcription, or translation • Most often used against viruses • Effective against rapidly dividing cancer cells