Drug Interactions of Oral Anticoagulants (Warfarin) PDF

Summary

This document discusses drug interactions of oral anticoagulants (warfarin), specifically focusing on drugs that potentiate or inhibit it. It touches upon microsomal enzyme inhibitors, oral antibiotics, and other factors affecting warfarin's metabolism, along with fibrinolytic drugs. The text discusses the normal activation of plasminogen, highlighting the role of tissue plasminogen activators (t-PAs) in fibrinolysis.

Full Transcript

Drug in nteraction ns of oral anticoagu a ulants (warfarin) Dru ugs that potentiate p warfarin Drugs s that inhib...

Drug in nteraction ns of oral anticoagu a ulants (warfarin) Dru ugs that potentiate p warfarin Drugs s that inhib bit warfariin  Mic crosomal enzyme e in nhibitors  Microsomal enzym ers (e.g. me induce (e.g g. cimetidinne, chloram mphenicol)) ↓ phenoba mpin) ↑ arbital, rifam mettabolism of o warfarin. metabolism of warffarin.  Oraal antibiotiics: ↓ vit K synthesiss  Oral con ntraceptive es and vit K. ↑ by kkilling the gut g flora synthesis s of clottin g factors  Liquuid paraffiin: ↓ vit K absorption a  Aluminum hydroxxide: ↓ warffarin  NSA AIDs: disp place warfa arin from p pp. absorptio on █ FIBR RINOLYTIC (THROM MBOLYTIC C) DRUGS S  Norrmally, whe en a fibrin clot is form med, plasm minogen gets g in conntact with this t clot andd becomess activated d into plas smin by th he help off naturally occurring g tissue plassminogen n activatorrs (t-PAs). Plasmin causes c lysis of the clo ot.  Theese endoge enous activators pre eferentially y activate plasminog gen that is s bound to ffibrin, which (in the eory) confiines fibrinolysis to the formeed thromb bus and avooids systemmic activatiion.  Fibrrinolytic drrugs cause rapid ac ctivation of o plasminogen to fo orm plasmmin, but unfoortunately,, they may y activate both fibrin n-bound plasminoge p en and circculating plassminogen thus, bo oth prote ective hemostatic thrombi and path hogenic thro omboembo oli are brok ken down ((→ risk of bleeding). b Strepttokinase  Streeptokinasee is a prote ein (not an n enzyme) that is isoolated from m streptoc cocci; it activates plassminogen into plasmiin non-enzzymaticallyy.  It m may be antigenic (cauuses allergyy) in some people. 213 Urokin nase  Uro okinase is a proteas se originallly isolated d from urinne; the druug is now prepared in recomb binant formm from culttured kidney cells.  It is less antigenic than streptokina s ase. Recommbinant tissue t pla asminoge en activa ators (t- PAs): ((Alteplase e, reteplas se, and ten necteplase e)  Theey are recoombinant human protteins produ uced in cultured cellss.  Theey are mos c to fibrin-b st specific bound pla asminogen; local actiivation of plasmin p at th he thrombus site red duces the incidence of o systemic bleeding g.  Retteplase an nd tenectteplase h have long half-life. The long half-life permits admministrationn as a bolus i.v. injeection rath her than byy continuoous infusio on. (two injections i.v. separatedd by 30 minutes for reteplase, r , one singlle i.v. injec ction for teneecteplase e). Therap peutic use es of throm mbolytic d drugs  Theey are giveen by i.v. route r in ca ases of ac cute myoc arction, is cardial infa schemic stro oke, pulmo onary embo olism, and arterial thrombosis.  In c cases of ac cute MI, th hey should d be givenn within 12 2 h of onseet. The ma aximum bennefit is obta ained if treatment is ggiven within 90 minuutes of the onset of pain. p  Befoore throm mbolysis, care c shouldd be take en to ensu ure there is no liab bility for blee eding in a critical c site e e.g. retina a, CNS, ettc. Advers se effects of thromb bolytic dru ugs – Sysstemic ble eeding is the major adverse effect. The e risk is hhigh with strepto- s kina ase and loww with the recent rec combinant tissue pla asminogen activators s. – Streeptokinasee can cause allergy, fever, and d hypotenssion during g i.v. infusion. █ ANT TIPLATELE ET (ANTIT THROMBO OTIC) DRU UGS Aspirin  Asp pirin inhibit platelet ag ggregation n by: – Irreverssible inhibition of COOX enzyme e → ↓ TXA2 → ↓ plateleet aggregattion. – Irreverssible acetylation of plaatelet cell membrane m s → ↓ platellet adhesio ons. – Decreaase platele et ADP synnthesis → decrease platelet accuumulation.  At h higher dosses (> 325 5 mg/day), aspirin maym decrea ase endothhelial synth hesis of PGII2, which inhibits pla atelet activvity. Low doses d (75-150 mg/daay) ↓ synth hesis of plattelet TXA2 more thann PGI2 in eendothelial cells and avoid this effect.  Othher NSAIDss do not haave compa arable antithrombotic activity. 214

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