1 / 69

Drugs Affecting the Blood Ass.Prof. Naza M. Ali

Drugs Affecting the Blood Ass.Prof. Naza M. Ali 9 Oct 2018. References. Lippincott’s IIIustrated Reviews / Pharmacology 6 th Edition Katzung and Trevor’s

csumner
Download Presentation

Drugs Affecting the Blood Ass.Prof. Naza M. Ali

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Drugs Affecting the Blood Ass.Prof. Naza M. Ali 9 Oct 2018

  2. References • Lippincott’s IIIustrated Reviews / Pharmacology 6th Edition • Katzung and Trevor’s Pharmacology / Examination & Board Review • Bertram G. Katzung Basic and Clinical Pharmacology

  3. Lecture Outlines: • Introduction • Platelets Response to Vascular Injury • Drugs that Inhibit Platelet Aggregations • Blood Coagulation • Types of anticoagulant • Vitamin K Antagonists • Thrombolytic Agents • Drugs Used to Treat Bleeding

  4. Hemostasis: Is a complex process which causes the bleeding process to stop. • Bleeding disorders: is a failure of hemostasis. These disorders include: • Hemophilia • Vitamin K deficiency

  5. Thrombosis: mean the formation of an unwanted clot within blood vessel. Thrombotic disorders include: Acute MI DVT Pulmonary embolism Acute ischemic Stroke. Embolus: An intravascular clot that floats in the blood, a detached thrombus becomes an embolus.

  6. Types of thrombi: I. An arterial thrombus • is composed of so-called white thrombus • consisting mainly of platelets in a fibrin mesh. • It is usually associated with atherosclerosis & can interrupt blood flow, • causing ischaemia or infarction of tissue downstream. • Theactivation of platelets is an essential process for arterial thrombosis

  7. II. Venous thrombus • is composed of ‘red thrombus’ • consists of a small white head and a large jelly-like red tail, similar in composition to a blood clot, which streams away in the flow. • Fibrin deposit in very small blood vessel or capillaries • is triggered by blood stasis or inappropriate activation of the coagulation cascade The Risk Factors in Venous Thrombosis: • Inherited disorders B. Acquired disease

  8. Platelets Response to Vascular Injury • Resting Platelet • Platelet Adhesion • Platelet Activation • Platelet Aggregation • Formation of Clot • Fibrinolysis

  9. Resting platelets: Platelets act as vascular sentries, monitoring the integrity of the endothelium. Chemical mediators synthesized by endothelial cells and act as inhibitors of platelet aggregation are: • Prostacyclin (PGI2) acts by binding to platelet membrane receptors that are coupled to the synthesis of cAMP. • Nitric oxide

  10. Roles of thrombin, thromboxanes & collagen: • The platelet membrane also contains receptors that can bind thrombin, thromboxanes, and exposed collagen. • Normal vessel, circulating levels of thrombin& thromboxane are low, the intact endothelium covers the collagen in sub-endothelial layers.

  11. The corresponding platelet receptors are unoccupied and remain inactive; as a result, platelet activation and aggregation are not initiate. • When occupied, each of these receptor types triggers a series of reactions leading to the release into the circulation of intracellular granules by the platelets and stimulates platelet aggregation.

  12. B. Platelet Adhesion • When the endothelium is injured, platelets adhere to and cover the exposed collagen of the sub-endothelium. • This triggers a complex series of chemical reactions, resulting in platelet activation

  13. C. Platelet Activation • Plateletson the surface of the adhering platelets are activated by the collagen of the underlying connective tissue. • This causes morpholgic changes in the platelets • The release of platelet granules containing chemical mediators: ADP, Thromboxane A2, Serotonin, PAF, Thrombin.

  14. These signaling molecules bind to receptors in the outer membrane of resting platelets circulating nearby. • These receptors function as sensors that are activated by the signals sent from the adhering platelets. • The previously dormant platelets become activated & start to aggregate actions mediated by several messenger systems that result in elevated levels of Ca2+ and a decreased concentration of cAMP within the platelet.

  15. D. Platelet Aggregation • Theincrease in cytosolic Ca2+ accompanying activation is due to a release of sequestered stores in platelet. This leads to 1) release of platelet granules containing mediators, ADP and serotonin that activate other platelets; 2) activation of thromboxane A2 synthesis 3) activation of the glycoprotein (GP) IIb/IIIa receptors that bind fibrinogen and, regulate platelet-platelet interaction and thrombus formation.

  16. Fibrinogen is a soluble glycoprotein that simultaneously binds to GP IIb/IIIa receptors on two separated platelets, resulting in platelets cross-linking and platelets aggregation. • This leads to avalanche of platelet aggregation

  17. E. Formation of a clot • Local stimulation of the coagulation cascade by tissue factors released from the injured tissue and by mediators on the surface of platelets results in the formation of thrombin (Factor IIa). • Thrombin a serine protease catalyzes the hydrolysis of fibrinogen to fibrin, which is incorporated into the plug. • Subsequent cross-linking of the fibrin strands stabilizes the clot and forms a hemostatic platelet-fibrin plug

  18. F. Fibrinolysis • During plug formation, the fibrinolytic pathway is locally activated. • Plasminogen is enzymatically processed to plasmin (fibrinolysin) by plasminogen activators in the tissue. • Plasmin limits the growth of the clot and dissolves the fibrin network as wounds heal.

  19. Platelet Aggregation Inhibitors: Decrease the formation or the action of chemical signals that promot platelet aggregation. Mechanism of Platelate Aggregation Inhibitors: • by inhibition COX-1 • or block GP IIb/IIIa • or block ADP receptors

  20. Drugs that Inhibit Platelet Aggregations: 1. Aspirin 2. Ticlopidine , Clopidogrel, Prasugrel 3. Abciximab 4. Eptifibatide , Tirofiban 5. Dipyridamole 6. Cilostazol

  21. 1. Aspirin TXA2 is a potent stimulator of platelete aggregation

  22. Aspirin inhibits TXA2 synthesis from A.A in platelets • by irreversible acetylation of a serine • The inhibitory effect is rapid • The resulting of inhibition of platelate aggregation last for the life of the anucleate platelete 7-10 days.

  23. 2. Ticlopidine , Clopidogrel Prasugrel • They are irreversibly inhibit the binding of ADP to its receptors on platelets • Inhibit the activation of the GP IIb/IIIa receptors • The maximum effect is achieved in 3-5 days

  24. 3. Abciximab / IV • is reversibly inhibits the binding of fibrinogen to the platelet GP IIb/IIIa, so aggregation does not occur. Adverse effect: is bleeding Abciximab is expensive, limiting its use

  25. 4. Eptifibatide and tirofiban / IV • Same mechanism of abciximab • Eptifibatide is a cyclic peptide that binds to GP IIb/IIIa • Tirofiban is not a peptide, but it blocks the same site as eptifibatide. • The major adverse effect of both drugs is bleeding.

  26. 5. Dipyridamole • A coronary vasodilator • It is usually given in combination with aspirin or warfarin (it is ineffective when used alone). • Increases intracellular levels of cAMP by inhibiting cyclic nucleotide phosphodiesterase, resulting in decreased thromboxane A2 synthesis. • It may potentiate the effect of prostacyclin to antagonize platelet stickiness and, decrease platelet adhesion to thrombogenic surfaces.

  27. 6. Cilostazol • Oral antiplatelet agent that also has vasodilating activity. • FDA approved used to reduce the symptom of intermittent claudication • Non-FDA approved include treatment of Buerger disease, vascular sclerosis complication diabetic mellitus and improvement symptoms in patients chronic cerebral ischemia.

  28. Blood Coagulation The coagulation process consists: • Extrinsic system initiated by activation of Factor VII by tissue factor, or thromboplastin. • Intrinsic system by the activation of clotting Factor XII, following its contact in vitro with glass or highly charged surfaces.

  29. Anticoagulants:reduce the formation of fibrin clots. Types of anticoagulant I. Indirect thrombin inhibitors: Heparin and LMWHs Fondaparinux II. Direct thrombin inhibitors: A. Oral / Dabigartan B. Parenteral / Lepirudin, Bivalirudin , Argatroban III. Coumarin anticoagulants: Warfarin

  30. Indirect thrombin inhibitors Heparin and LMWHs • Heparin is a large sulfated polysaccharide polymer obtained from animal sources. • Each batch contains molecules of varying size, with an average molecular weight of 15,000-20,000. • Heparin is highly acidic and can be neutralized by basic molecules (protamine). • Heparin must be parenterally …………. • LMWHs of 2000-6000 example Enoxaparine Dalteparin Tinzaparin

  31. Mechanism of Action • Unfractionated heparin binds to endogenous antithrombin ƖƖƖ (AT ƖƖƖ). • Heparin – AT ƖƖƖ complex combines with & irreversibly inactivates thrombin and factor xa. • In the absence of heparin, antithrombin III interact very slowly with thrombin and factor Xa. • Heparin molecules bind antithrombin III inducing a conformational change that accelerates its rate of action 1000-fold than in its absence.

  32. `

  33. Therapeutic uses of heparin and LMWHs • Acute DVT, • Pulmonary embolism • is used prophylactically to prevent postoperative venous thrombosis in patients undergoing elective surgery. • In the acute phase of MI • Coronary artery rethrombosis. • In dialysis machines to prevent thromobosis. • For treating pregnant women.

  34. Heparin advantage is speed onset of action. • LMWHs, like enoxaparin injected s.c. • Effect of heparin within minutes of IV or (1-2 hr sc sc) While LMWHs occurs about 4 hours after s.c • Heparin is administered by IV in a bolus, followed by lower dosed or continuous infusion of heparin for 7-10 days, titrating the dose so that the aPTT is 1.5 to 2.5 fold that of normal control. • Heparin & LMWHs do not cross the placental barrier.

  35. Adverse effects: • Bleeding complications, • hypersensitivity reactions, • thrombosis, • thrombocytopenia condition, in which circulating blood contains an abnormally small number of platelets, called heparin-induced thrombocytopenia (HIT). Contraindications: • hypersensitive to it, have bleeding disorders, alcoholics, surgery of the brain, eye, or spinal cord.

  36. Fondaparinux / Inhibit factor Xa • Class of pentasaccharide anticoagulants. • Selectively inhibits only Factor Xa, • by selectively binding to antithrombin III • Can be used in patients with HIT

  37. II. Direct thrombin inhibitors: • Oral / Dabigatran etexilate • Is a prodrug which is direct thrombin inhibitors • Used for prevention of stroke and systemic embolism in patients with atrial fibrillation. • It is first oral anticoagulant after warfarin and dose not require routine monitoring INR. • Dabigatran may be an alternative to enoxaparin for thromboprophylaxis in orthopaedic surgery.

  38. B) Other parenteral anticoagulants 1. Lepirudin A highly specific, direct thrombin antagonist • Bivalirudin 3. Argatroban • Both Lepirudin and Argatroban are used as alternative in patients with heparin induced thrombocytopenia.

  39. Vitamin K Antagonists

More Related