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Antibiotics 1: Penicillins and Cephalosporins
Descrição
BVSc3 AD2 (Antibiotics) Mapa Mental sobre Antibiotics 1: Penicillins and Cephalosporins, criado por Jess Pope em 23-12-2016.
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Mapa Mental por
Jess Pope
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Antibiotics 1: Penicillins and Cephalosporins
Classes of antibiotics
Bactericidal vs. Bacteriostatic
Bactericidal
Kill bacteria
No bacteria left when drug is removed
Penicillins
Cephalosporins
Fluoroquinolones
Aminoglycosides
Metronidazole
Sulphonamides + trimethoprim (Potentiated sulphonamides)
Bacteriostatic
Slow bacterial growth
Sulphonamides
Trimethaprim
Tetracyclines
Chloramphenicol
Linomycin
Concentration dependent (static/cidal)
Erythromycin
(Macrolides)
Low conc = static
High conc = cidal
Tend to use low concs (static effect) in practice
Time vs. Concentration Dependence
Time Dependent
Work slowly
Plasma levels should be above minimum inhibitory concentration (MIC) for as long as possible in each 24 hour period
Penicillins
Cephalosporins
Concentration Dependent
Peak concentration determines how effective the drug will be
Aminoglycosides
Fluoroquinolones
Metronidazole
The greater the concentration, the greater the effect
Whilst still limiting side effects
Spectrum of activity
What bacteria are the drug effective against?
β-lactam antibiotics
3 carbons, 1 nitrogen forming ring which is important for the activity of the drug
Antibacterial activity
Ability to bind to transpeptidases
Mutations reduce effectiveness
Drug access to transpeptidase
In gram –ve bacteria LPS can hinder drug passage
Stability against β-lactamase activity
e.g. penicillinase – break down β-lactam drugs
β-lactamase
Diverse group of enzymes
Specific to the bacteria
Staphylococcal β-lactamase = penicillinase
Breaking of the β-lactam ring means rigidity is lost
Drug is unable to bind to the transpeptidase, is thus no longer effective
Clavulanic acid
β-lactamase inhibitor
No antibacterial effect alone
Several products containing amoxicillin and clavulanic acid licensed for veterinary use in cats, dogs and cattle
e.g. synulox – 1:1 mix of amoxicillin and clavulanic acid
Penicillins
Pharmacokinetics
Oral availability – varies depending on acid stability
Widely distributed – but do not cross blood brain barrier
Eliminated by kidney
Cephalosporins
Pharmacokinetics
Some can be orally administered, most parenterally
Widely distributed – some cross blood brain barrier (most don’t)
Eliminated by kidney
Carbapenems and Monobactams
Tend not to be licensed for vet use
Antibacterial Agent Targets
Biochemical reactions
Class I
Not unique to bacteria
Non-lethal
Poor targets
Class II
Better targets e.g. folate synthesis
Different enzyme pathway c.f. host
Allows specificity
Class III
Important targets
Bacteria specific reactions
Fewer side effects
Products are specific to bacteria e.g. peptidoglycan
Bacterial cell wall
Peptidoglycan (aka murein) synthesis
Cytoplasm
Membrane
Extra-membrane
Formation of linear peptidoglycan polymer
Cross-linking of the linear units to form a complex lattice structure
Attachment of NAMA and NAG to a lipid carrier
Synthesis of NAMA and NAG
Building a pentapeptide chain on NAMA (5 - one is lost in latter stages)
Inhibitors of peptidoglycan synthesis (tends to affect final step)
β-lactams: penicillins, cephalosporins
Glycopeptides: vancomycin
Cycloserine
Bacitracin
Gram +ve vs. -ve
Gram +ve
Thick cell wall (50% peptidoglycan)
No outer membrane
Gram -ve
Thin cell wall (5% peptidoglycan)
An outer membrane (obstructs antibacterial entry)
Restricted, delayed access to the peptidoglycan - so the drugs are less effective
Peptidoglycan structure
NAMA = N-acetylmuramic acid
NAG = N-acetyglucosamine – amino sugars
Tetrapeptide side chains are comprised of 4 amino acids
5 glycine residues link the tetrapeptide side chains
Peptide cross links are formed between the glycine chains
Main site of action of penicillins and cephalosporins
Adverse reactions and contraindications
Wide therapeutic ratio
Mammalian cells lack a cell wall
Can give high doses with minimal toxic effect
Hypersensitivity
Almost immediate
Usually mild
Can be fatal
Anaphylaxis
Gastrointestinal superinfection
Death of susceptible gut flora allows proliferation of non-susceptible bacteria
Mycobacteria
TB in cattle not treatable – animals must be destroyed
Treatment in cats
A fluoroquinolone (inhibits DNA gyrase)
+ clarithromycin (a macrolide, inhibits protein synthesis)
+ rifampicin (inhibits RNA synthesis)
Can get in pets (mostly cats)
Small no. of cases per year
Arbinosyl transferase – addition of arabinose units
Fatty acid synthase 1 and 2 – mycolic acid
Prolonged treatment needed - not easy to kill
Anexos de mídia
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