Pharmacology COPY Flashcards
CYP450 3A4 inhibitors
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Sodium valproate
Isoniazid
Cyclosporin
Ketoconazole
Fluconazole
Alcohol
Clarithromycin (NOT Azithro or Roxithro)
Erythromycin
Ciprofloxacin
Omeprazole
Metronidazole
CYP450 3A4 inducers
CRAPGPS
Carbamazepine
Rifampicin
Alcohol
Phenytoin
Groselin
Phenybarbital
Sulphonylureas, St John Wart
P-glycoprotein inducers
SCRAPS
Steroids (mainly Dexmethasone)
Cyclosporin (is also a substrate and therefore can induce its own excretion), carbamazepine
Rifampicin
Aspirin
Phenytoin, paclitaxal
St Johns Wort
Abs dependent on time dependent Killing
Penicillins
Cephalosporins
Macrolides
Carbapenems
Lincosamides (clindamycin etc)
Abs dependent on concentration dependent killing
Aminoglycosides (Gentamicin, Tobramycin, Amikacin)
Abs dependent on total exposure
Vancomycin
Indapamide MOA
“Thiazide-like diuretic” which blocks NaCl at DCT & also has some action to inhibit peripheral vascular smooth muscle tone
Amioloride MOA
Blocks ENaC channels at the collecting duct to work in a similar way to Spironolactone (which indirectly blocks aldosterone to inhibit ENaC). Potassium sparing.
Acidic Drugs bind to which plasma protein
Albumin (Phenytoin, Digoxin, Warfarin, NSAIDS, Aspirin, Benzos)
Phenytoin will displace Warfarin and increase free Warfarin causing increased bleeding early - later Phenytoin will induce CYP and increase metabolism of Warfarin and effect
Lithium Clearance
100% renally cleared
Ivabradine MOA
Works at the (I)f Na channels (funny-Na channels) in the pacemaker cells to prolong repolarisation and reduce heart rate, improving symptoms of angina
HLA mutation in Han Chinese causing increased allopurinol toxicity
HLAB5801
HLA mutation in Han Chinese causing increased carbamazepine toxicity
HLAB1502
HLA mutation causing increased hypersensitivity to Abacavir
HLAB5701
HLA mutation in Europeans/Japanese causing increased Carbamazepine toxicity
HLAB3101