Objectives At the end of this lecture student should be able to: 1.Recognize different stages of hemostasis 2.Describe formation and development.

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Presentation transcript:

Objectives At the end of this lecture student should be able to: 1.Recognize different stages of hemostasis 2.Describe formation and development of platelet 3.Describe the role of platelets in hemostasis. 4.Recognize different clotting factors 5.Describe the cascade of clotting.

5.Describe the cascade of intrinsic pathway. 6.Describe the cascade of extrinsic and common pathways. 7.Recognize the role of thrombin in coagulation 8.Recognize process of fibrinolysis and function of plasmin Objectives - cont.

8 Lecture Content 1.Haemostasis (Definition) 2.Capillaries vasoconstriction 3.Platelets synthesis and function 4.Platelets Plug 5.Clot formation (intrinsic & exterinsic pathway) and function of thrombin 6.Fibrinolysis and plasmin

Haemostasis Hemostatic Mechanisms 1.Vessel wall (Vasoconstriction) 2.Platelets (Production and function, Platelets Plug formation) 3.Blood Coagulation mechanism Clot formation (intrinsic & extrinsic pathways) 4.(Fibrinolysis)

Hemostasis: the spontaneous arrest of bleeding from ruptured blood vessels Mechanisms: 1.Vessel wall 2.Platelet 3.Blood coagulation 4.Fibrinolytic system

Memostatic Mechanisms: Mechanisms:Mechanisms: Vessel wallVessel wall PlateletPlatelet Blood coagulationBlood coagulation Fibrinolytic systemFibrinolytic system

Memostatic Mechanisms- cont 1.Vessel wall VasoconstrictionImmediately After injury a localized Vasoconstriction –Mechanism -Humoral factors: local release of thromboxane A2 & 5HT by platelets Systemic release of adrenaline Nervous factorsNervous factors

Memostatic Mechanisms: Mechanisms:Mechanisms: Vessel wallVessel wall PlateletPlatelet Blood coagulationBlood coagulation Fibrinolytic systemFibrinolytic system

Memostatic Mechanisms: Mechanisms:Mechanisms: Vessel wallVessel wall PlateletPlatelet Blood coagulationBlood coagulation Fibrinolytic systemFibrinolytic system

Platelet haemostatic plug formation

Platelets – cont. Site of formation: Bone marrow Steps: Stem cell Megakaryoblast Megakaryocyte Platelets

Megakayocyte and platelet formation

Platelets Thrombocytes are Fragments of megakaryocytes in the bone marrow

Platelets - cont –Platelet count = 150x x10 3/ ml, –life span 8-12 days –Active cells contain contractile protein, –Contain high calcium content & rich in ATP –Coated by a glycoprotein layer which prevent its sticking to normal endothelial cells

Platelets Formation (Thrombopoiesis) Regulation of thrombopoiesis by Thrombombopoietin

Platelet Functions Begins with Platelet activation

Platelet Activation Adhesion Shape change Aggregation Release Clot Retraction

Platelet Adhesion Platelets stick to exposed collagen underlying damaged endothelial cells in vessel wall

Platelet Release Reaction Platelets activated by adhesion Extend projections to make contact with each other Release thromboxane A2, serotonin & ADP activating other platelets Serotonin & thromboxane A2 are vasoconstrictors decreasing blood flow through the injured vessel. ADP causes stickiness

Platelet Aggregation Activated platelets stick together and activate new platelets to form a mass called a platelet plug Plug reinforced by fibrin threads formed during clotting process

Platelet shape change and Aggregation

Platelet Activation Adhesion Shape change Aggregation Release Clot Retraction

1.Adhesion 2. Shape change 3. Aggregation Platelet Endothelium

Platelet plug formation

Platelet Plug Aggregation of platelets at the site of injury to stop bleeding Exposed collagen attracts platelets Activated platelets release of platelet ADP & Thromboxane A2 (TXA2)   the stickiness of platelets   Platelets aggregation  plugging of the cut vessel Intact endothelium secret prostacyclin  inhibit aggregation

Activated Platelets Secrete: 1.5HT  vasoconstriction 2.Platelet phospholipid (PF3)  clot formation 3.Thromboxane A2 (TXA2) is a prostaglandin formed from arachidonic acid Function: vasoconstriction Platelet aggregation (TXA2 inhibited by aspirin)

35 Platelets aggregation

Memostatic Mechanisms: Mechanisms:Mechanisms: Vessel wallVessel wall PlateletPlatelet Blood coagulationBlood coagulation Fibrinolytic systemFibrinolytic system

Memostatic Mechanisms: Mechanisms:Mechanisms: Vessel wallVessel wall PlateletPlatelet Blood coagulationBlood coagulation Fibrinolytic systemFibrinolytic system

Clotting Factors NamesFactors Fibrinogen Prothrombin Thromboplastin Calcium Labile factor Stable factor Antihemophilic factor Antihemophilic factor B Stuart-Power factor Plasma thromboplastin antecedent (PTA) Hagman factor Fibrin stablizing factors I II III IV V VII VIII IX X XI XII XIII

Intrinsic Pathway Extrinsic pathway FXII FXIIa FXI FXIa FIX FIXa X Xa Tissue factor Factor VII & Ca ++ FVIII Prothrombin Thrombin FV+ Ca+P The Coagulation Cascade Fibrinogen Fibrin

43 Blood coagulation (clot formation) A series of biochemical reactions leading to the formation of a blood clot This reaction leads to the activation of thrombin enzyme from inactive form prothrombin Thrombin will change fibrinogen (plasma protein) to fibrin (insoluble protein) Prothrombin (inactive thrombin) is activated by a long intrinsic or short extrinsic pathways

Pathway ExtrnsicIntrinsic Pathway Tissue Factors   VII,Ca  Xa  X Contact activation  XII  XIIa  XI  XIa  IX  IXa  VIII, Ca,P X  Xa Xa   V, Ca, P Prothrombin (II)  Thrombin (IIa)  Fibrinogen (I)  Fibrin (soluble)  XIII, Ca Insoluble fibrin

45 Intrinsic pathway The trigger is the activation of factor XII by contact with foreign surface, injured blood vessel, and glass. Activate factor (XIIa) will activate XI Xla will activate IX IXa + VIII + platelet phospholipid + Ca activate X Following this step the pathway is common for both

46 Extrinsic pathway Triggered by material released from damaged tissues (tissue thromboplastin) tissue thromboplastin + VII + Ca  activate X Common pathway Xa + V +PF3 + Ca ( prothrombin activator) it is a proteolytic enzyme activate prothrombin  thrombin Thrombin act on fibrinogen  insoluble thread like fibrin Factor XIII + Ca  strong fibrin (strong clot)

Activation Blood Coagulation Intrinsic Pathway: all clotting factors present in the blood Extrinsic Pathway: triggered by tissue factor Common Pathway

Extrinsic pathwayIntrinsic Pathway Tissue factor   VII,Ca  Xa  X Contact activation  XII  XIIa  XI  XIa  IX  IXa  VIII, Ca,P* X  Xa Xa   V, Ca, P* Prothrombin (II)  Thrombin (IIa)  Fibrinogen (I)  Fibrin (soluble)  XIII, Ca insoluble fibrin P* = phospholipid from platelets

49 Thrombin Thrombin changes fibrinogen to fibrin Thrombin is essential in platelet morphological changes to form primary plug Thrombin stimulates platelets to release ADP & thromboxane A2; both stimulate further platelets aggregation Activates factor V

Hemostasis: the spontaneous arrest of bleeding from ruptured blood vessels Mechanisms: 1.Vessel wall 2.Platelet 3.Blood coagulation 4.Fibrinolytic system

Hemostasis: the spontaneous arrest of bleeding from ruptured blood vessels Mechanisms: 1.Vessel wall 2.Platelet 3.Blood coagulation 4.Fibrinolytic system (Fibrinolysis)

53 Fibrinolysis Formed blood clot can either become fibrous or dissolve Fibrinolysis (dissolving) = Break down of fibrin by naturally occurring enzyme plasmin therfore prevent intravascular blocking There is balance between clotting and fibrinolysis –Excess clotting  blocking of Blood Vessels –Excess fibrinolysis  tendency for bleeding

Fibrinolysis PlasminogenPlasmin Coagulation Fibrin FDP* Plasminogen activators Anti-plasmin Anti-activators The fibrinolytic System FDP*: Fibrin Degradation Products

55 Plasmin Plasmin is present in the blood in inactive form plasminogen Plasmin is activated by tissue plasminogen activator (t-PA) in blood. Plasmin digests intra & extra vascular deposit of Fibrin  fibrin degradation products (FDP) Unwanted effect of plasmin is the digestion of clotting factors

56 Plasmin Plasmin is controlled by: –Tissue Plasminogen Activator Inhibitor (TPAI) –Antiplasmin synthesized in the liver Uses: –Tissue Plasminogen Activator (TPA) used to activate plasminogen to dissolve coronary clots

Haemostatic Mechanisms: Vessel wallVessel wall PlateletPlatelet Blood coagulationBlood coagulation Fibrinolytic systemFibrinolytic system

Objectives At the end of this lecture student should be able to: 1.Describe formation and development of platelet 2.Recognoize different stages of haemostasis 3.Describe the role of platelets in haemostasis. 4.Recognize different clotting factors 5.Describe the cascade of clotting.

At the end of this lecture student should be able to: 5.Describe the cascade of intrinsic pathway. 6.Describe the cascade of extrinsic and common pathway. 7.Recognize the role of thrombin in coagulation 8.Recognize process of fibrinolysis and function of plasmin Objectives