2. Choice and combined use of Anti-microbial agents
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Jun 14, 2019
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About This Presentation
Choice and rationale use of antibiotics is nessitiy to prevent anti-microbial resistance
Slide Content
Jagir R. Patel
Assistant Professor
Dept. Pharmacology
Choice and Combined use of AMAs
Assistant Professor
Dept. Pharmacology
Choice and Combined use of AMAs
Correlation between AMAs, Host
and Microbes
and Microbes
What influences the choice of AMAs
Activity of agent against proven or suspected
organism
Site of infection
Mode of administration
Metabolism and excretion
Duration of treatment
frequency of dose
Toxicity
cost
Local rates of resistance
Activity of agent against proven or suspected
organism
Site of infection
Mode of administration
Metabolism and excretion
Duration of treatment
frequency of dose
Toxicity
cost
Local rates of resistance
Empiric Therapy
Empiric therapy is when drug therapy is initiated before
laboratory results are available (i.e., before the pathogen is
identified and/or before susceptibility test results are
available).
Empiric therapy is sometimes necessary to save a
patient’s life.
Clinicians make an “educated guess” based on past
experience with the type of infectious disease and the most
effective drugs.
•Clinicians must take a number of factors into
consideration before prescribing antimicrobial agents.
Empiric therapy is when drug therapy is initiated before
laboratory results are available (i.e., before the pathogen is
identified and/or before susceptibility test results are
available).
Empiric therapy is sometimes necessary to save a
patient’s life.
Clinicians make an “educated guess” based on past
experience with the type of infectious disease and the most
effective drugs.
•Clinicians must take a number of factors into
consideration before prescribing antimicrobial agents.
Selection of Appropriate AMA
Patient related factors
Cont.…
Organism related considerations
Drug factors
Cont..
Combined use
of
Antimicrobials
of
Antimicrobials
Chemotherapeutic spectrum
Narrow spectrum antibiotics:
Chemotherapeutic agents acting only on
limited group of microorganisms are said
to have narrow spectrum.E.g.,isoniazid
is active only against mycobacteria.
Extended-spectrum antibiotics
Extended spectrum is the term applied to
antibiotics that are effective against gram-
positive organisms and also against a
significant number of gram-negative
bacteria.
E.g. ampicillinis considered to have an
extended spectrum because It acts against
gram-positive and some gram-negative
bacteria.
Narrow spectrum antibiotics:
Chemotherapeutic agents acting only on
limited group of microorganisms are said
to have narrow spectrum.E.g.,isoniazid
is active only against mycobacteria.
Extended-spectrum antibiotics
Extended spectrum is the term applied to
antibiotics that are effective against gram-
positive organisms and also against a
significant number of gram-negative
bacteria.
E.g. ampicillinis considered to have an
extended spectrum because It acts against
gram-positive and some gram-negative
bacteria.
Broad-spectrum antibiotics
The term refers to antibiotics that are effective against all or majority of
organisms
Tetracycline and chloramphenicol
Administration of broad-spectrum antibiotics can drastically alter the
nature of the normal bacterial flora and precipitate a superinfection of
an organism such as Clostridium difficile, the growth of which is
normally kept in check by the presence of other microorganisms
The term refers to antibiotics that are effective against all or majority of
organisms
Tetracycline and chloramphenicol
Administration of broad-spectrum antibiotics can drastically alter the
nature of the normal bacterial flora and precipitate a superinfection of
an organism such as Clostridium difficile, the growth of which is
normally kept in check by the presence of other microorganisms
Prophylactic Therapy
The antibiotic given when there is likelihood of microorganisms being
present and used to PREVENT infection
Presurgical antimicrobial prophylaxis-
(a single dose cephalosporin (such as cefazoline) administered within 1
hour before the initial incision)
Antimicrobial prophylaxis in immunocompromised patients-
those with HIV infection, those who are undergoing chemotherapy for
cancer, or those who are receiving immunosuppressive therapy after organ
transplant
The antibiotic given when there is likelihood of microorganisms being
present and used to PREVENT infection
Presurgical antimicrobial prophylaxis-
(a single dose cephalosporin (such as cefazoline) administered within 1
hour before the initial incision)
Antimicrobial prophylaxis in immunocompromised patients-
those with HIV infection, those who are undergoing chemotherapy for
cancer, or those who are receiving immunosuppressive therapy after organ
transplant
Cont.…
Antimicrobial prophylaxis to prevent transmission of communicable
pathogens to susceptible contacts-
Macrolides can be prescribed to reduce transmission of pertussis,
ciprofloxacin can be given to close contacts of a patient with meningitis
caused by N. Meningitidis
Antimicrobial prophylaxis before dental and other invasive procedures in
patients susceptible to bacterial endocarditis
Traumatic injuries with a high probability of infectious complications
Antimicrobial prophylaxis to prevent transmission of communicable
pathogens to susceptible contacts-
Macrolides can be prescribed to reduce transmission of pertussis,
ciprofloxacin can be given to close contacts of a patient with meningitis
caused by N. Meningitidis
Antimicrobial prophylaxis before dental and other invasive procedures in
patients susceptible to bacterial endocarditis
Traumatic injuries with a high probability of infectious complications
Rationale for use of Combined drugs
More than one AMAs are frequently used currently.
This should be done only with a specific purpose and not blindly in the
hope that if:
One is good
Two should be better
Three should cure almost any infection.
Why?
Due to development of resistance
Or more complex disease conditions
More than one AMAs are frequently used currently.
This should be done only with a specific purpose and not blindly in the
hope that if:
One is good
Two should be better
Three should cure almost any infection.
Why?
Due to development of resistance
Or more complex disease conditions
Combined Drugs targets
To achieve synergism, additive or antagonistic effect
To reduce severity or incidence of adverse effects
To prevent emergencies of resistance
To broaden the spectrum of antimicrobial spectrum
To achieve synergism, additive or antagonistic effect
To reduce severity or incidence of adverse effects
To prevent emergencies of resistance
To broaden the spectrum of antimicrobial spectrum
To achieve Synergism
When two AMA belonging to different class are used together results in
Synergism(supra additive (A+B)>A+B), additive effect(A+B)= A+B or
Antagonism(A+B)<A+B
Concept of synergism
It may manifest in terms of decrease in the MIC of one AMA in presence of
other or MIC of both may be lowered
If the MIC of both drugs are lowered by 25% then the pair is synergistic
25-50% are considered as additive
>50% indicates antagonism
This may also manifest as more rapid lethal action of combination then either
of individual
When two AMA belonging to different class are used together results in
Synergism(supra additive (A+B)>A+B), additive effect(A+B)= A+B or
Antagonism(A+B)<A+B
Concept of synergism
It may manifest in terms of decrease in the MIC of one AMA in presence of
other or MIC of both may be lowered
If the MIC of both drugs are lowered by 25% then the pair is synergistic
25-50% are considered as additive
>50% indicates antagonism
This may also manifest as more rapid lethal action of combination then either
of individual
Cont.…
synergistic interaction, then the addition
of Drug B to Drug A results in a
significantly lower MIC for Drug A (i.e.,
there is an increase in the potency of
Drug A)
Additive interaction, addition of
increasing amounts of Drug B to Drug A
results in a linear decrease in the MIC of
Drug A; in this case, each of the two
drugs can be thought of as
interchangeable
Antagonistic interaction, addition of
Drug B to Drug A does not significantly
lower the MIC of Drug A;
synergistic interaction, then the addition
of Drug B to Drug A results in a
significantly lower MIC for Drug A (i.e.,
there is an increase in the potency of
Drug A)
Additive interaction, addition of
increasing amounts of Drug B to Drug A
results in a linear decrease in the MIC of
Drug A; in this case, each of the two
drugs can be thought of as
interchangeable
Antagonistic interaction, addition of
Drug B to Drug A does not significantly
lower the MIC of Drug A;
Cont.…
Each combination is unique: the same drugs be synergistic for one organism
and antagonistic for the other
2 bacteriostatic = often additive action e.g. tetracycline's and
chloramphenicol
2 bactericidal drugs= frequently additive and sometime synergistic:
Rifampicin+ isoniazid
Combination of bacteriostatic + bactericidal = synergistic or antagonistic
If the organism is sensitive to cidal drugs, response to combination is equal
to static drug given alone( apparent antagonism)e.g penicillin + tetracycline
If organism are less sensitive to bactericidal drug then combination causes
synergistic e.g. rifampicin + dapsone in leprosy
Each combination is unique: the same drugs be synergistic for one organism
and antagonistic for the other
2 bacteriostatic = often additive action e.g. tetracycline's and
chloramphenicol
2 bactericidal drugs= frequently additive and sometime synergistic:
Rifampicin+ isoniazid
Combination of bacteriostatic + bactericidal = synergistic or antagonistic
If the organism is sensitive to cidal drugs, response to combination is equal
to static drug given alone( apparent antagonism)e.g penicillin + tetracycline
If organism are less sensitive to bactericidal drug then combination causes
synergistic e.g. rifampicin + dapsone in leprosy
To reduce the severity or incidence
of adverse effect
When two drug posses synergetic effect the dose of both can be reduced
This is needed for AMA with low dose safety margin which when alone
used produce unacceptable toxicity
e.g.; amphotericin B+ rifampicin
Rifampicin enhance action of amphotericin
of adverse effect
When two drug posses synergetic effect the dose of both can be reduced
This is needed for AMA with low dose safety margin which when alone
used produce unacceptable toxicity
e.g.; amphotericin B+ rifampicin
Rifampicin enhance action of amphotericin
To prevent emergency of resistance
Mutation conferring to one AMA is independent of that conferring
resistance to other, So using 2 or more AMA is valid primarily for chronic
infections i.e.. Leprosy, HIV etc.
To broaden the spectrum of antimicrobial action
Treatment of mixed infection: UTI, diabetic foot infection gynecological
infections are mixed infections 2 or more AMA should be used
Initial treatment of severe infections: for empirical therapy when bacterial
diagnosis is not known drugs covering gram –ve and +ve may be given
together e.g. penicillins + streptomycin
Topically : AMA which are not used systemically are poorly absorbed from
local site so broad range for grm +ve and –ve should be used e.e neomycin,
bacitracin
Mutation conferring to one AMA is independent of that conferring
resistance to other, So using 2 or more AMA is valid primarily for chronic
infections i.e.. Leprosy, HIV etc.
To broaden the spectrum of antimicrobial action
Treatment of mixed infection: UTI, diabetic foot infection gynecological
infections are mixed infections 2 or more AMA should be used
Initial treatment of severe infections: for empirical therapy when bacterial
diagnosis is not known drugs covering gram –ve and +ve may be given
together e.g. penicillins + streptomycin
Topically : AMA which are not used systemically are poorly absorbed from
local site so broad range for grm +ve and –ve should be used e.e neomycin,
bacitracin
Disadvantages of antimicrobial
combinations
They foster a casual rather than rational outlooks in diagnosis of
infection and choice of AMA
Increases incidence and Variety of adverse effect
Chances of superinfection
If inadequate dose of non synergistic drugs are used emergence of
resistance may be promoted
Increase cost therapy
combinations
They foster a casual rather than rational outlooks in diagnosis of
infection and choice of AMA
Increases incidence and Variety of adverse effect
Chances of superinfection
If inadequate dose of non synergistic drugs are used emergence of
resistance may be promoted
Increase cost therapy
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