antibiotics - masaryk university · 2015-10-20 · amphenicols chloramphenicol, tiamphenicol,...
TRANSCRIPT
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ANTIBIOTICS
PharmDr. Ondřej Zendulka, Ph.D.
Mgr. Jana Merhautová
MUDr. Alena Máchalová, Ph.D.
Notes for Pharmacology II practicals
This study material is exclusively for students of general medicine and stomatology in Pharmacology II course. It contains only basic notes of discussed topics, which should be completed with more details and actual information during practical courses to make a complete material for test or exam studies. Which means that without your own notes from the lesson this presentation IS NOT SUFFICIENT for proper preparation for neither tests in practicals nor the final exam.
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CLASSIFICATION 1. Chemical structure
– betalactams, glycopeptides, macrolides, amphenicols
etc.
2. Microbial spectrum
3. Extent of the effect
4. Mode of the action
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Modes of the action
Target sites
1.
- G+
- G-
2.
3.
4.
a)
b)
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ATB therapy particularities
Selective toxicity
ATB spectrum
MIC, MBC
Postantibiotic effect
Concentration- and time-dependent effect
Resistance
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Resistance -mechanisms
1.
a)
b)
c)
2.
3.
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Resistance - types
1. Primary
2. Secondary
3. Coupled
4. Crossed
5. Absolute
6. Relative
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ATB combinations Advantages:
1.
2.
3.
4.
Unsuitable combinations
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Selection of suitable ATB agent
ATB policy in CZ • Antibiotic centers, free and bound ATB
ATB prophylactic use
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Classification
Antibiotics
• β-lactams
• glycopeptides
• polypeptides
Chemotherapeutics
• sulphonamides
• quinolones
• pyrimidines
• nitroimidazoles • nitrofurans
• amphenicols
• tetracyclines
• macrolides
• ATB related macrolides
• lincosamides
• aminoglycosides
• other ATBs
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β-LACTAMS
• penicillins
• cephalosporins
• monobactams
• carbapenems
- combination with betalactamase inhibitors
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β-lactams
MofA: destruction of cell wall, PBP,
transpeptidases, autolysis
• baktericidal effect
• peroral and parenteral administration
AE: low toxicity
well tolerated
allergic reactions
PK: widely distributed to body fluids, do not
penetrate into cells
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PENICILLINS
Classification: narrow spectrum
anti-staphylococcus
wide spectrum
Pharmakokinetics: well distributed to
diffetent tisues except the brain (increased
in meningitis), metabolized in liver,
excreted into urine
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Narrow spectrum (basic) penicillins
benzylpenicillin (PEN G)
• spectrum G+
• short halftime
• for parenteral use only
• not stable against β-lactamases
• depot forms: prokainpenicillin, benzathinpenicillin
fenoxymethylpenicillin (PEN V)
• for peroral use • respiratory tract infections and other infections evoked
by G+ microbes: - streptococci, pneumococci, meningococci, actinomycosis,
anaerobic infections (gas gangrene), syphilis, borreliosis
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Anti-staphylococcus penicillins
- stable aginst β-lactamases
- S. aureus and streptococcal infections
- basic penicillins resistant infections
cloxacillin
oxacillin
• methicillin, dicloxacillin, flucloxacillin
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Wide spectrum penicillins - wider spectrum againts G-: enterobacterias (E.coli, Salmonela spp.,
Shigella spp., Proteus), Haemophilus spp., Enterococcus spp.
aminopenicillins – ampicillin
– amoxicillin
– otitis media, sinusitis, meningitis, H. pylori
carboxypenicillins – tikarcillin
– only in comb. with β-lactamase inhibitors
ureidopenicillins – piperacillin
– serious infections
– combination with aminoglycosides
against P. aeruginosa
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Potentiated penicillins
Combination with β-lactamase inhibitors clavulanic acid→ co-amoxicillin + amoxicillin
sulbactam → i.e. sultamicillin
tazobactam → i.e. co-piperacillin
- protections against some types of β lactamases
- co-amoxicilin – drug of choice in otitis media and sinusitides
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CEPHALOSPORINS
- more stable against β-lactamases
- classified into 4 generations with regard to their
spectrum: increasing G-, decreasing G+ sensitivity
AE: allergy often crossed with penicillines (5 - 10%)
GIT dysmicrobia
disulphiram reaction
changes in the blood counts
Pharmacokinetics: Ist and IInd generation as in
penicillins, IIIrd and IVth generation more variable
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Cephalosporins Ist generation
cefazolin
cefalotin
• G+ cocci (staphylococci, streptococci)
• G-: E. coli, Proteus, Klebsiella, Neisserie, other G- are usually resistant (e.g. haemophilus)
I: S. aureus infections, prophylaxis in surgery
IInd generation
cefuroxim – parent.
• wider spectrum against G+ i G- : H. influ., enterobacterias,
Neisseria, Proteus, E. coli, Klebsiella, Bran. catarrhalis,
anaerobes and B. fragilis.
• less effective against S. aureus than Ist generation
parent. p.o. cefalexin cefadroxil
cefuroxim axetil cefaclor
p.o.
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Cephalosporins IIIrd: ceftriaxon
cefotaxim
ceftazidim cefoperazon (+ sulbaktam)
• enterobacterias, partially pseudomonades
• more stable against β-lactamases, higher efficacy (the best for G-)
• some agents cross BBB!!!!
IVth: cefepim
cefpirom
• the widest spectrum
• G+ and G- bacterias (no anaerobes)
• high stability against β-lactamases, longer half life
parent. cefixim cefpodoxim
p.o.
parent.
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MONOBACTAMS aztreonam
• resistant against β-lactamases
• narrow spectrum
• aerobe G- bacilli
I: in the past sepsis, abdominal infections
today pseudomonas respiratory infections
• imipenem + cilastatin • meropenem, doripenem, ertapenem
- reserved for the therapy of life-threatening infections caused by mixed or multiresistant flora
CARBAPENEMS
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GLYCOPEPTIDES
MofA: cell wall synthesis inhibition – binding to pentapeptide precursor
• bactericidal
• resistance, VRE
I: parenteral – reserve ATB for the serious, resistant G+ infections, local (p.o.) intestinal infections – not absorbed from GIT
AE: zarudnutí (red man syndrome)
ototoxicity
nephrotoxicity
• vancomycin
• teicoplanin
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POLYPEPTIDES
polymyxin B, colistin (polymyxin E) – G-
MofA: disrupts the plasma membrane by its detergent activity
• toxic after systemic administration = local use (eye infections, ORL, GYN, intestinal decontamination)
bacitracin – G+
MofA: interferes with the cell wall metabolism
• local administration in combination with neomycin, nystatatin or glucocorticoids
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AMPHENICOLS chloramphenicol, tiamphenicol, florphenicol MofA: protein synthesis inhibition, binds to 50S ribosomal
subunit, wide spectrum
Pharmacokinetics: lipophilic, well absorbed from GIT, widely distributed to tissues and brain, glucuronated in liver, excreted into urine
I: is not a drug of choice! bacterial meningitis, typhus and paratyphus, serious pneumonia
(abscessing forms), anaerobic and mixed flora infections, abdominal and serious invasive haemophilus infections
AE: myelosuppression
a) reversible
b) irreversible – aplastic anemia
grey baby syndrome
neurotoxicity
• 2% chloramphenicol spirit – obsolete in the acne treatment
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TETRACYCLINES MofA: proteosynthesis inhibition – reversible binding to 30S
ribosomal subunit
Pharmacokinetics: creates unabsorbable complexes with cations in GIT, lipophilic, widely distributed, high conc. in bile → therapy of biliary tract inf., enterohepatic recirculation
I: respiratory and urinary tract infections, boreliosis, syphilis, gonorrhea, ureaplasma, leptospirosis, chlamydiosis, mycoplasmosis, acne (minocycline)
primary resistant strept. + staph.! AE: disrupts tooth enamel and bone matrix – interfere with
growth → CI in children and in pregnancy
- phototoxicity
- dysmicrobia – GIT disturbances, vaginal dysmicrobia
• tetracycline, doxycycline, minocycline
ATB related to tetracyclines
• tigecycline
• glycylcyclin ATB for the therapy of resistant infections, i.v. administration
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MACROLIDES
MofA: reversible binding to 50S ribosomal subunit
Pharmacokinetics: CYP3A4 inhibitors (strongest
erythromycin, clarithromycin)
Spectrum: G+ G- microbes (campylobacters, legionellla sp.,
Toxoplasma gondii, H. pylori )
• increase in resistance in streptococci in the last years
crossed resistance – MLSB phenotype
AE: GIT intolerance
allergies
prokinetic effect (erythromycin) - diarrheas
• erythromycin
• spiramycin, roxithromycin, clarithromycin,
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ATB related to macrolides
Azalides – azithromycin – tkáňově orientovaná FK
Streptogramins – quinupristin
– dalfopristin
Ketolides – telithromycin
Oxazolidinones – linezolid
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LINCOSAMIDES
MofA: proteosynthesis inhibition – reversible
binding to 50S ribosomal subunit
Pharmacokinetics: well penetrates to teeth and
bones
I: alternative treatment of beta lactams
hypersensitivity, prophylactic use in stomatology,
gynecologic infections (can be used in
pregnants)
AE: - minimal toxicity
- crossed-resistance with macrolides
• clindamycin, lincomycin
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AMINOGLYCOSIDES
MofA: proteosynthesis inhibition, irreversible binding to
30S ribosomal subunit (bactericidal effect)
• postantibiotic effect and concentration-dependent effect
I: - sepsis
- serious uroinfections (pyelonefritis)
- lower respiratotry infections (in combination)
- orthopedic and surgical infections (postoperative)
AE: nephrotoxicity
ototoxicity
doses - neurotoxicity
• parenteral: streptomycin, gentamicin, amikacin
• topical: tobramycin, kanamycin, neomycin
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Other ATB Rifampicin
– ansamycin wide spectrum agent
– baktericidal – inhibits synthesis of bacterial nucleic acids (RNA)
– antituberculotic agent
AE: orange color of urine, tears, saliva, sweat
Fusidic acid – primáry bactericidal
– inhibits syntheiss of cell wall
– against staphylococci
Antibiotics for local and topical administration • mupirocin
• bacitracin
• neomycin
• fusafungin