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FUNCTIONS OF THE COAGULATION SYSTEM

FUNCTIONS OF THE COAGULATION SYSTEM. ACTION. DESIRED RESULT. Rapid formation of mechanically sound clot. Stop bleeding quickly. Prevent clot formation at non-injured sites. Prevent thrombosis. Gradual replacement of clot with viable tissue. Wound healing. BLOOD COAGULATION. Platelet plug

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FUNCTIONS OF THE COAGULATION SYSTEM

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  1. FUNCTIONS OF THE COAGULATION SYSTEM ACTION DESIRED RESULT Rapid formation of mechanically sound clot Stop bleeding quickly Prevent clot formation at non-injured sites Prevent thrombosis Gradual replacement of clot with viable tissue Wound healing

  2. BLOOD COAGULATION • Platelet plug • Fibrin clot

  3. PLATELETS

  4. WHAT PLATELETS DO • Stick to damaged blood vessels • requires von Willebrand factor • Spread out to cover damaged area • Activate and release contents • partly blocked by aspirin • Aggregate • Cause blood vessel constriction • Cause retraction of clot to draw wound edges together

  5. VWF IS A VERY LARGE PROTEIN ELECTRON MICROSCOPIC IMAGES OF SINGLE MOLECULES

  6. VWF UNFOLDS UNDER SHEAR STRESS The faster the blood flow, the stickier it gets

  7. WHAT PLATELETS DO (2)

  8. PLATELET ADHESION TO AREA OF VESSEL INJURY

  9. PLATELET SPREADING Patel et al, Blood 2003;101:929-36

  10. PLATELET AGGREGATION

  11. FIBRIN CLOT FORMATION • Tissue damage exposes blood to tissue factor • Coagulation cascade: series of enzymatic reactions leading to thrombin formation • takes place mainly on membrane surface, eg platelet membrane • Thrombin converts fibrinogen to fibrin • Fibrin polymerizes and becomes crosslinked

  12. Red blood cells trapped in a fibrin mesh

  13. TISSUE FACTOR INITIATES FIBRIN CLOT FORMATION • Ubiquitous lipoprotein (part of cell membrane) • Initiates physiologic clotting process • Highest concentration in brain, mucous membranes, skin, and immediately outside blood vessels • Forms "hemostatic envelope" • Not normally found on endothelial cells lining blood vessels, or on circulating blood cells

  14. Am J Pathol 1989; 134:1087-97 SMALL VESSEL LARGE VESSEL TISSUE FACTOR: THE HEMOSTATIC ENVELOPE

  15. VITAMIN K IS NEEDED FOR PRODUCTION OF SEVERAL CLOTTING PROTEINS • Fat-soluble vitamin present in many foods • Some made by bacteria in gut • Necessary for synthesis of several components of coagulation cascade • Deficiency may lead to low levels of clotting factors, causing a bleeding tendency • Warfarin (Coumadin™): a drug that interferes with vitamin K action • used as an anticoagulant (prevent thrombosis)

  16. Production of thrombin Proenzyme (prothrombin) Enzyme Helper Phospholipid membrane Vitamin K necessary to create these specialized binding regions

  17. THROMBIN CONVERTS FIBRINOGEN TO FIBRIN Fibrinogen Thrombin Fibrin FIBRIN FORMS LARGE POLYMERS

  18. Red blood cells trapped in a fibrin mesh

  19. Platelet-fibrin clot Platelets Fibrin

  20. FIBRINOLYSIS • Degradation of fibrin clot by enzyme called plasmin • Necessary to remove clot so wound healing can proceed • Plasminogen activators from blood vessels and other cells convert plasminogen to plasmin to begin the process

  21. FIBRINOLYSIS Intact fibrin clot Fibrin clot exposed to plasmin

  22. CONFINES CLOT TO INJURED AREA HELPS PREVENT THROMBOSIS REGULATION OF COAGULATION Antithrombin: inhibits thrombin and other enzymes Protein C: degrades activated factors V and VIII Protein S: cofactor for protein C Deficiency of any of these proteins can increase risk of thrombosis

  23. DISEASES OF PLATELETS • Thrombocytopenia = low platelet count (may cause bleeding) • decreased production: bone marrow failure, leukemia • increased consumption • autoimmune (ITP) • disseminated intravascular coagulation • microangiopathy • enlarged spleen - sequesters (soaks up) platelets from the bloodstream • Thrombocytosis = high platelet count • myeloproliferative disorders (may cause thrombosis) • inflammation, iron deficiency • Platelet dysfunction • drugs (eg, aspirin)

  24. BLEEDING TAKES LONGER TO STOP WHEN THE PLATELET COUNT IS LOW Lower platelets Prolonged bleeding when count < 100K Longer bleeding time

  25. ACUTE IMMUNE THROMBOCYTOPENIC PURPURA (ITP) Mainly in children Often associated with viral infection • Antigen (virus?) sticks to platelet • Antibody in blood sticks to antigen on platelet surface • Macrophages (immune cells in spleen, elsewhere) consume antibody-coated platelets • Platelet number in blood drops • Platelet count usually returns to normal when infection resolves

  26. CHRONIC IMMUNE THROMBOCYTOPENIC PURPURA (ITP) Mainly in adults • Immune system makes antibody against molecule on platelet surface (auto-antibody) • Antibody sticks to platelet • Macrophages (immune cells in spleen, elsewhere) ingest antibody-coated platelets • Platelet number in blood drops • Often chronic, treated with immune suppression or splenectomy

  27. Childhood (acute) ITP Usually goes away when virus eliminated Adult (chronic) ITP Does not go away on its own; usually requires immune suppressive medication or splenectomy

  28. PURPURA IN ITP

  29. PETECHIAE IN ITP

  30. INHERITED BLEEDING DISORDERS decreased production of single clotting factor • Hemophilia: complete absence of factor VIII (hemophilia A) or factor IX (hemophilia B) • sex-linked inheritance (99.99% of patients male) • moderate or severe bleeding • von Willebrand disease: partial absence of von Willebrand factor • dominant inheritance • mild or moderate bleeding

  31. ACUTE COMPLICATIONS OF HEMOPHILIA Hemarthrosis (joint bleeding) Hematoma

  32. Joint destruction Nerve damage LONG-TERM COMPLICATIONS OF HEMOPHILIA

  33. ACQUIRED BLEEDING DISORDERS partial absence of several clotting factors • Liver disease • Vitamin K deficiency • Disseminated Intravascular Coagulation & fibrinolysis (DIC) • Anticoagulant drugs: warfarin or heparin • Thrombolytic drugs (plasminogen activators)

  34. VITAMIN K DEFICIENCY Newborn/premature infants Poor intake Defective absorption generalized malabsorption biliary disease Diminished production by bacteria in gut (antibiotic treatment) Vitamin K antagonists warfarin (Coumadin) certain antibiotics

  35. DISSEMINATED INTRAVASCULAR COAGULATION Associated with many serious/lifethreatening diseases Circulating blood exposed to excessive amount of tissue factor or other procoagulant Breakdown of normal regulatory processes Formation of circulating (soluble) fibrin Consumption of clotting proteins and platelets Accelerated fibrinolysis – clots break down too quickly Bleeding and/or intravascular clotting in severe cases

  36. DIC Soluble fibrin in the blood MONKEY (E. COLI INJECTION) HUMAN (ACUTE LEUKEMIA)

  37. TISSUE INJURY IN DIC ASSOCIATED WITH SEPSIS NEJM 2001;344:1593

  38. THROMBOSIS Venous thrombosis Blockage of blood return and associated inflammation causes swelling, pain May become chronic If clot is dislodged from vein can travel to right ventricle and then lungs (pulmonary embolism) Arterial thrombosis Clot prevents inflow of blood, causing ischemic tissue damage or death (infarction) Examples: myocardial infarction, stroke

  39. DEEP VENOUS THROMBOSIS

  40. PULMONARY EMBOLISM Arrow points to large clot in pulmonary artery Clot dissolved after administration of fibrinolytic drug

  41. CAUSES OF THROMBOSIS • Abnormal or damaged blood vessels • Stasis of blood • Inherited lack of protein which regulates coagulation • antithrombin, protein C, protein S • Resistance to effect of regulatory protein • Factor V "Leiden" = mutation causing resistance to protein C; found in approx 5% of US population • Too many red cells or platelets (thick blood) • polycythemia, thrombocythemia • Thrombosis most likely when several factors present at once

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