Most microbiologist distinguish two groups of antibiotics agents used in the treatment of infectious disease
Antibiotics, which are natural substances produced by certain groups of microorganisms
Chemotherapeutic agents, which are chemically synthesized.
A hybrid substance is a semisynthetic antibiotic, where in a molecular version produced by the microbe is subsequently modified by the chemist to achieve desired properties
Antibiotics may have a cidal (killing) effect or a static (inhibitory) effect on a range of microbes.
The range of bacteria or other microorganisms that is affected by a certain antibiotic is expressed as its spectrum of action.
Antibiotics effective against procaryotes which kill or inhibit a wide range of Gram-positive and Gram-negative bacteria are said to be broad spectrum
If effective mainly against Gram-positive or Gram-negative bacteria, they are narrow spectrum.
If effective against a single organism or disease, they are referred to as limited spectrum
A clinically-useful antibiotic should have as many of these characteristics as possible
-It should have a wide spectrum of activity with the ability to destroy or inhibit many different species of pathogenic organisms. -It should be nontoxic to the host and without undesirable side effects. -It should be no allergenic to the host. -It should not eliminate the normal flora of the host. -It should be able to reach the part of the human body where the infection is occurring. -It should be inexpensive and easy to produce. -It should be chemically-stable (have a long shelf-life). -Microbial resistance is uncommon and unlikely to develop.
Microbial Resistance to Antibiotics
1-The Genetic Basis of Bacterial Resistance to Antibiotics
-Natural Resistance. Bacteria may be inherently resistant to an antibiotic.
Gene that is responsible for resistance to its own antibiotic; or a
Gram-negative bacterium has an outer membrane that establishes a permeability barrier against the antibiotic;
Organism lacks a transport system for the antibiotic; or it lacks the target or reaction that is hit by the antibiotic.
-Acquired Resistance. Bacteria can develop resistance to antibiotics, e.g.
Acquired Resistance. Bacteria can develop resistance to antibiotics, e.g. bacterial populations previously-sensitive to antibiotics become resistant. This type of resistance results from changes in the bacterial genome. Acquired resistance is driven by two genetic processes in bacteria:
- Mutation and selection (sometimes referred to as vertical evolution);
- Exchange of genes between strains and species (sometimes called horizontal evolution). Some bacterial specieses are able to spread drug resistance to other strains and species during genetic exchange processes
Acquired Resistance. Bacteria can develop resistance to antibiotics, e.g. bacterial populations previously-sensitive to antibiotics become resistant. This type of resistance results from changes in the bacterial genome. Acquired resistance is driven by two genetic processes in bacteria:
- Mutation and selection (sometimes referred to as vertical evolution);
- Exchange of genes between strains and species (sometimes called horizontal evolution). Some bacterial specieses are able to spread drug resistance to other strains and species during genetic exchange processes
Antifungal Drugs
Antifungal drugs are classified according to mode of actions into three groups:
-Drugs acting on ergosterol on cell wall of fungus.
Azole
Terbinafine
Amphotricine
Polyene-Nystatin
-Drugs blocks protein and DNA synthesis
-Flucytosine
-Drug acting on microtubules and spindle synthesis of DNA
Grisoflavin
Chemotherapeutic agents for viral infections
Agents that inactivate intact viruses (virucidal)
Agents that inhibit viral replication at cellular level (antivirals)
Agents that augment the host response to infection (immunomodulators)
Virucidal agents
May cause direct inactivation in a single step
Can damage host cells as well as virus so use is limited
Can be used in preventing transmission of viral infections
Examples include
detergents
organic solvents
ultraviolet light
Antiviral agents
Viral replication depends on host cell metabolic functions
Useful antiviral agents:
must inhibit virus-specific events
must not interfere with host metabolism which would result in toxicity to the host/person
Typically have a restricted spectrum of activity
Site of action
ِِAattachment to the host cell
Uncoating of the viral genome
Nucleic acid synthesis
Assembly of progeny virions
Drugs inhibit ongoing replication at host cell level and
ٌReplication will resume on removal of drug
Agents are not effective in elimination of non-replicating or latent virus
Site of action
ِِAattachment to the host cell
Uncoating of the viral genome
Nucleic acid synthesis
Assembly of progeny virions
Drugs inhibit ongoing replication at host cell level and
ٌReplication will resume on removal of drug
Agents are not effective in elimination of non-replicating or latent virus
Host Immune Responses and immunomodulators
Intact host immunologic response is essential for recovery from viral infections. I t can be used in the following situations;
Immunosuppression due to cancer chemotherapy, transplantation or HIV infection are associated with higher rates of chronic viral infection (HBV)or reactivation (HSV)
Response to antiviral therapy may be delayed
Drug resistance viruses may be higher
Replace deficient host immune responses using
exogenous antibodies
interferon
augment cell-mediated immunity (CMI)
Antiviral drug resistance
Resistance results from mutations within the viral genome and the presence of selective drug pressure
Factors favouring emergence of resistance
high replicative load
high intrinsic mutation rate: RNA>DNA viruses
degree of selective drug pressure (higher in prolonged or repeated courses of drug therapy
Antiviral drug resistance
Resistance results from mutations within the viral genome and the presence of selective drug pressure
Factors favouring emergence of resistance
high replicative load
high intrinsic mutation rate: RNA>DNA viruses
degree of selective drug pressure (higher in prolonged or repeated courses of drug therapy
Laboratory Methods of Antimicrobial Susceptibility Tests
I-Phenotypic Method
II-Genotypic Method
I-Phenotypic Method:
1-Disc diffusion tests
Kirby – Bauer method
Tests with diffusion gradients of concentration . By this method the organism is seeded uniformly on the agar surface and exposed to a continuous concentration gradient of antibiotic diffusing from a paper disk (disk diffusion test)
Medium used :-
Must support good growth of the isolated bacteria e.g Muller – Hunton agar .
Blood used in agar may interference with antibiotic activity which are highly bounded to protein .
Inoculum's preparation :-
Diluted 5-10 colonies in sterile saline or nutrient broth .
Colonies used depend on the number of organisms needed to produce semi-confluent growth e.g. – few numbers in rapidly growing bacteria e.g Klebsiella species than slowly growing species e.g enterococci .
Inoculation :- The inoculums can be distributed evenly over the test plate by flooding the plate with the bacterial suspension and drying the surface while the plate in horizontal position .
By sterile swab , squeezed the tube and run over the plate .
By 100p from the suspension of the organism
Number of disk 6 in 8.5 cm diameter plate
Inoculum's preparation :-
Diluted 5-10 colonies in sterile saline or nutrient broth .
Colonies used depend on the number of organisms needed to produce semi-confluent growth e.g. – few numbers in rapidly growing bacteria e.g Klebsiella species than slowly growing species e.g enterococci .
Inoculation :- The inoculums can be distributed evenly over the test plate by flooding the plate with the bacterial suspension and drying the surface while the plate in horizontal position .
By sterile swab , squeezed the tube and run over the plate .
By 100p from the suspension of the organism
Number of disk 6 in 8.5 cm diameter plate
Choose of antibiotic disks :-
Members of antibiotics used for particular species by the preferred method .
Infections at a particular body site .
First line antibiotics that are commonly used are first tested .
Isolated of species should not be tested with drugs that are valueless in therapy e.g. Gram positive not to be tested to polymyxin or aztroneam .
One antibiotic representive of each group .
Interpretation :-
Measure the radial diameter around the disc not including the disk itself .
Sensitive : Zone equal or larger to the sensitive zone of the control organism
Intermediated : the Zone is equal to reported intermediate which equal 3mm less than the control organism .
Resistant the zone size of the test strain is smaller than 3mm of the test strain .
Limitation of disc diffusion tests:-
Not applied to slowly –growing, Fastidious organisms or anaerobes .
-Mycobacterial and fungus susceptibility testing requires specific techniques
- The reported sensitivity tests results not applied to clinical sites infections, e.g. –Salmonella Typhi to aminoglycosids.
-Not related to the achieved serum levels or body fluid levels of antibiotics.
Intermediated : the Zone is equal to reported intermediate which equal 3mm less than the control organism .
Resistant the zone size of the test strain is smaller than 3mm of the test strain .
Limitation of disc diffusion tests:-
Not applied to slowly –growing, Fastidious organisms or anaerobes .
-Mycobacterial and fungus susceptibility testing requires specific techniques
- The reported sensitivity tests results not applied to clinical sites infections, e.g. –Salmonella Typhi to aminoglycosids.
-Not related to the achieved serum levels or body fluid levels of antibiotics.
Sensitivity of isolated bacteria in vitro may not coordinate with activity in vivo:-
Drug is not adequately absorbed .
The drug unable to penetrate in effective concentration into the least accessible site of multiplication of pathogen .
Inactivation of drug by a concomitant drugresistant bacterium .
Resistant to drug may prove effective if :-
Administered in high dose .
Elimination of bacteria is helped by the immune system of the body.
Primary sensitivity tests :-
In these tests the specimen serves as the inoculum. When mixed well a portion of it is spread uniformly over part or whole of one or more plates and antibiotics discs are applied before the plates are incubated.
Advantages:
-Rapid results of susceptibility in the second day e.g day earlier than test on pure subculture.
- In mixed culture, help to separate bacteria of different species with different susceptibility patterns.
-
Primary sensitivity tests :-
In these tests the specimen serves as the inoculum. When mixed well a portion of it is spread uniformly over part or whole of one or more plates and antibiotics discs are applied before the plates are incubated.
Advantages:
-Rapid results of susceptibility in the second day e.g day earlier than test on pure subculture.
- In mixed culture, help to separate bacteria of different species with different susceptibility patterns.
-
Help in rapid identification of bacteria with diagnostic susceptibility patterns e.g. MRSA.
- Can be used to isolate pure organisms growth around certain antibiotics as the disc of antibiotic can act as selective media inhibiting the growth of certain bacteria e.g. yeasts around antibiotics discs.
Disadvantages:
-The primary inoculum's can not be measured.
-The choice of antibiotics is difficult as the identity of the organisms is not known, so the choice will be suggestive on the organisms possible to be found.
Uses:
-Urine
-Swabs from wounds or pus in emergency clinics.
2-Dilution susceptibility tests:-
Micro-minimal inhibitory and minimal bactericidal activity methods. How to choose MIC ?
It is equal to or less than quarter or half the concentration of the antibiotic found in the infected tissues of the patient give the usual schedule of doses . Laboratory it the concentration of MIC measurement of antibiotics that inhibit the growth of isolated organism .
MBC measure the concentration of antibiotic that prevent absolutely the bacterial culture .
2-Dilution susceptibility tests:-
Micro-minimal inhibitory and minimal bactericidal activity methods. How to choose MIC ?
It is equal to or less than quarter or half the concentration of the antibiotic found in the infected tissues of the patient give the usual schedule of doses . Laboratory it the concentration of MIC measurement of antibiotics that inhibit the growth of isolated organism .
MBC measure the concentration of antibiotic that prevent absolutely the bacterial culture .
Methods
1. Broth dilution tests. Serial, twofold dilutions of an antimicrobial ore incorporated into broth-containing tubes, which are then inoculated with standard number of organisms, usually l05—l06 colony-forming units (CFU) per milliliter. After the culture has been incubated at 35oC for 16—20 hours with traditional technology, the tubes are inspected for visible growth. (Rapid techniques are also available. See sec. E.) The MIC of the drug is the lowest concentration that prevents visible growth. If the tubes with no visible growth are subcultured quantitatively to a drug-free medium, the MBC of the antimicrobial can be determined.
also available. See sec. E.) The MIC of the drug is the lowest concentration that prevents visible growth. If the tubes with no visible growth are subcultured quantitatively to a drug-free medium, the MBC of the antimicrobial can be determined.
Microdilution susceptibility testing employs the same principles but uses wells on a microtiter tray rather than diludon tubes, permitting miniaturization and automation of the MIC determination
Agar dilution test. The agar dilution test is very similar to the broth technique except that the antibiotic dilutions are incorporated into a solid medium and the inoculum, usually 104 CFU/ml, is applied as a spot to a small portion of the agar plate. The MIC again is recorded as the lowest antibiotic concentration that prevents visible growth. In contrast to the broth dilution technique, an MBC cannot be determined with agar dilution
Application:-
Serious infection where endpoint concentration is ended
Disc diffusion yield inter mediate susceptibility
Life threatening infection due to organisms with unpredictable susceptibility pattern.
Fastidious or slowly growing organisms.
Failure of antibiotic therapy
Serious infections caused by organisms susceptible only to toxic agents
Limitation
Limitation
-Difficult
It needs the knowledge about the achievable level in serum or body fluid
Automated method
In the last several years, a variety of instrument-assisted identification and susceptibility test methods have been developed that permit generation of test results in a period of 6—9 hours. as opposed to the 15—24 hour time frame required with traditional overnight method. These newer ‘rapid” methods have, in general, been shown to provide test results nearly as accurate as those derived from traditional overnight tests, d0t the newer tests are more expensive. The clinical impact of this newer technology and whether it truly facilitates faster and more cost-effective patient care is undergoing clinical study. One study suggests the rapid tests have a positive impact on patient care. The exact role of rapid tests versus traditions’ awaits further clinical experience and comparative studies
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