More Related Content
What's hot (20)
Similar to anticoagulants (20)
Recently uploaded (20)
anticoagulants
- 3. These are drugs used to reduce the coagulability of blood.
- 4. Used in vivo: 1. Parenteral anticoagulants: Indirect thrombin inhibitors: Heparin, Low molecular weight heparin, Fondaparinux, Danaparoid Direct thrombin inhibitors: Lepirudin, Bivalirudin 2. Oral anticoagulants: Coumarin Derivative: Bishydroxycoumarin (dicumarol), Warfarin sodium, Acenocoumarol Inandione derivatives: Phenindione Direct factor Xa inhibitors: Rivaroxaban
- 5. Used in vitro: Heparin: (150 U in 100 ml of blood) Calcium complexing agents: Sodium citrate 1.65 gm for 350 ml of blood acid citrate dextrose solution 75 ml in one unit of blood For investigation: Sodium oxalate (10 mg for 1 ml blood and Sodium edetate 2 mg for 1 ml of blood)
- 6. Endogenous - strongest organic acid present in the Body Present in mast cells (MW 75,000) lungs, liver and intestinal mucosa Commercially - from Ox lung and Pig mucosa (slaughter house) Chemically, non-uniform mixture of straight chain mucopolysaccharides with MW 10,000 to 20,000 Carries strong electro-negative charges
- 7. Types - (i) Regular or unfractionated (UFH) Heparin (MW 5000 to 30,000) IV or SC and (ii) LMWH (MW 2000 to 6000) mostly SC
- 8. Indirect acting - Activates plasma antithrombin III (AT III) Heparin-AT III complex inactivates clotting factors - Xa, IIa, IXa, XIIa and XIIIa, but not VIIa (extrinsic pathway) At low conc. Xa mediated conversion of Prothrombin to thrombin affected Overall, Xa and IIa mediated conversion of fibrinogen to fibrin
- 9. AT III (suicide inhibitor) binds to clotting factors slowly to form stable complex. Heparin enhances it by 1.Heaprin creates scaffolding to bind each (clotting factors) other with AT III 2.A specific polysaccharide in heparin binds to AT III and induce conformational changes bind factors
- 10. Inhibition of Xa needs only the 2nd mechanism (LMWH) - fondaparinuxs IIa needs both the mechanism Antiplatelet action: High doses prevents platelet aggregation prolongs Bleeding time Lipaemic clearing
- 11. Pharmacokinetics: Highly ionized, not absorbed orally given IV (instant action) and SC (slow action) Does no cross BBB and placenta 100 U/kg dose half life is 1 Hr., but above this dose 1 4 Hrs Should not with Penicillin, hydrocortisone or tetracycline
- 12. Adverse effects: 1. Bleeding due to overdose haematuria is 1st sign 2. Thrombocytopenia aggregation of platelets 3. Hypersensitivity urticaria, rigor, fever and anaphylaxis etc. 4. Alopecia and osteoporosis
- 13. Contraindications: Bleeding disorders, Severe hypertension, GIT ulcer, Piles, SABE & malignancy, Ocular & neurosurgery, Chronic alcoholism, cirrhosis etc. Aspirin and antiplatelet drugs - caution
- 14. MW : 2000 to 6000 MOA: Acts only by interfering with Xa inducing conformational change in AT III smaller effect on aPTT whole blood clotting time Lesser antipatelet action and lower incidence of haemorrhagic complications Better Bioavailability on SC administration (once daily dosing) Better half life (4-6 Hrs) Laboratory monitoring not needed (aPTT and clotting time affected little)
- 15. Uses: (1) Prophylaxis of DVT and Pulmonary embolism in Surgery, stroke and immobilized patients (2) DVT (3) UA and MI (4) RHD and AF (5) Haemodialysis patients
- 16. Unitage: Expressed in units as it is standardized by bioassay variable molecular size 1 mg = 120-140 U activity Administered as IV bolus 5000-10,000 u followed by 1000 u /hr IV drip adjusted with aPTT value Pretreatment aPTT value and followed by 1.5 to 2.5 times during therapy
- 17. Alternate: 10,000-20,000 deep SC every 8 Hrly (fine needle) Or, Low dose SC 5000 SC 8-12 Hry before and after surgery to prevent DVT Protamine Sulfate: Heparin antagonist given IV (1mg = 100U) cardiac and vascular surgery
- 18. In vivo not in vitro MOA: Competitive antagonist of Vit.K lowers the plasma level of vit. K dependent clotting factors Inhibits VKOR needed to generate active Vit.K Synthesis of clotting factors diminishes within few hours- at different times by diff. factors But anticoagulant action starts in 1-3 days only Commercially, mixture of R and S enantiomers
- 19. Kinetics: Completely absorbed from intestine and 99% plasma protein bound only 1% free (many drugs can displace (sulfonamides, phenytoin toxicity) half life 36 hrs. Dosing: Risky calculate risk-benefit ratio Dose is individualized by repeated measurement of PT
- 20. Optimum ratio of PT: 2-2.5 in prophylaxis of DVT, 2-3 in DVT treatment and 3-3.5 in MI etc. Uses: DVT, Pulmonary embolism and atrial fibrillation (drug of choice 3- 4wks before and after conversion)
- 21. ADRs: Bleeding epistaxis, haematuria, bleeding GIT Intracranial haemorrhage Minor bleeding Vit K (takes long) Fresh blood transfusion or blood factors Other ADRs: Alopecia, dermatitis and diarrhoea etc.
- 22. Contraindications: Same as heparin Foetal warfarin syndrome: skeletal abnormality hypoplasia of nose, eye socket, hand bones and growth retardation
- 23. Factors enhancing warfarin effect: (1) Debility, malnutrition etc. (2) Liver diseases, chronic alcoholism (3) Newborn (4) prolonged antibiotic therapy Factors decreasing warfarin effect: Pregnancy, Nephrotic syndrome and genetic warfarin resistance
- 24. Drugs enhancing anticoagulant action: Broad spectrum antibiotics, Aspirin (platelet aggregation inhibition and hypoprothobinemic action), Newer cephalosporins (hypoprothobinemic; Chloramphenicol, allopurinol, tolbutamide and phenytoin (inhibits metabolism) Drugs reducing effect: Barbiturates, carbamazepine, OCP and Rifampicin
- 25. The anticoagulant drugs either inhibit the action of the coagulation factors (the thrombin inhibitors, such as heparin and heparin-related agents) or interfere with the synthesis of the coagulation factors (the vitamin K antagonists, such as warfarin).
- 26. The fibrinolytic system dissolves intravascular clots as a result of the action of plasmin, an enzyme that digests fibrin. Plasminogen, an inactive precursor, is converted to plasmin by cleavage of a single peptide bond.
- 27. Treatment and Prevention of Deep Venous Thrombosis Pulmonary Emboli Prevention of stroke in patients with atrial fibrillation, artificial heart valves, cardiac thrombus. Ischaemic heart disease During procedures such as cardiac catheterisation and apheresis.
- 28. SOURCE : Heparin is commonly extracted from porcine intestinal mucosa or bovine lung. Despite the heterogeneity in composition among different commercial preparations of heparin, their biological activities are similar (~150 USP units/mg).
- 29. The USP unit is the quantity of heparin that prevents 1 mL of citrated sheep plasma from clotting for 1 hour after the addition of 0.2 mL of 1% CaCl2.
- 30. Low-molecular-weight heparins (~ 4500 Da, or 15 monosaccharide units) are isolated from standard heparin by gel filtration chromatography, precipitation with ethanol, or partial depolymerization with nitrous acid and other chemical or enzymatic reagents.
- 31. Low-molecular-weight heparins differ from standard heparin and from each other in their pharmacokinetic properties and mechanism of action
- 32. Heparin catalyzes the inhibition of several coagulation proteases by antithrombin, a glycosylated, single-chain polypeptide
- 33. Antithrombin is synthesized in the liver and circulates in plasma inhibition occurs when the protease attacks a specific Arg- Ser peptide bond in the reactive site of antithrombin and becomes trapped as a stable 1:1 complex.
- 34. Heparin increases the rate of the thrombin- antithrombin reaction at least 1000-fold by serving as a catalytic template to which both the inhibitor and the protease bind. Binding of heparin also induces a conformational change in antithrombin that makes the reactive site more accessible to the protease. Once thrombin has become bound to antithrombin, the heparin molecule is released from the complex.
- 35. Bleeding Bleeding is the primary untoward effect of heparin. the effect of heparin can be reversed quickly by the slow intravenous infusion of protamine sulfate, a mixture of basic polypeptides that bind tightly to heparin and thereby neutralize its anticoagulant effect. ~1 mg of protamine for every 100 units of heparin
- 36. The oral anticoagulants are antagonists of vitamin K . Coagulation factors II, VII, IX, and X and the anticoagulant proteins C and S are synthesized mainly in the liver and are biologically inactive unless 913 of the amino-terminal glutamate residues are carboxylated to form the Ca2+- binding g-carboxyglutamate (Gla) residues