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Hemostasis & Coagulation Ahmad Sh. Silmi

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1 Hemostasis & Coagulation Ahmad Sh. Silmi
Unit 1 : Primary Hemostasis

2 Hemostasis Heme= blood stasis= to halt
Process of retaining blood within the vascular system Repairs injury to blood vessels Stops or prevents blood loss

3 Balance of Hemostasis Procoagulant Factors Regulatory Factors Fibrin
Fibrinogen Procoagulant Factors Regulatory Factors Fibrin Balance of Hemostasis *Balance of bleeding (hemorrhaging) and clotting (thrombosis) *Imbalance in one direction can lead to: bleeding : hypocoagulable state OR thrombosis: hypercoagulable state

4 Hemostasis Components Vascular System Platelet System
Controls rate of blood flow Platelet System Interaction of vasculature and platelets form a temporary plug Coagulation System (i.e) fibrin forming Fibrinolytic System Fibrin lysing Coagulation Inhibition System Natural inhibitors Control fibrin formation and fibrin lysis

5 Failure or deficiencies in any of these five systems can leads to varying degrees of uncontrolled hemorrhaging or clotting

6 Hemostasis The hemostatic components remain inert in the presence of intact vascular tissue or endothelium Following injury, each component must function optimally.

7 Hemostasis: Overview Consists of three stages
Primary Hemostasis Process of blood clotting in response to injury where blood vessels (vasculature) and platelets are the main “players.” Primary Hemostatic plug is formed Platelet plug temporarily arrests bleeding. Insoluble fibrin strands deposit on the initial plug to reinforce and stabilize. The fibrin originates from soluble plasma proteins. Secondary Hemostasis Actions of the protein coagulation factors form fibrin in response to injury At this time, blood has changed into a solid state Fibrinolysis Clot is removed following healing of wound

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9 Vascular System Blood Vessels Arteries Veins Capillaries
Carry blood from the heart to capillaries Thickest walls of the vasculature Veins Return blood from capillaries to the heart Thinnest walls of vasculature Capillaries No vessel wall Do not contribute to hemostasis

10 Vascular System: Blood Vessels
Construction Endothelium Single layer of endothelial cells, lining vessels Coated by glycocalyx Protects basement membrane Produces Von Willebrand's factor (vWF), a part of Factor VIII Secretes prostaglandins, plasminogen activators Negatively charged, repels circulating proteins and platelets Subendothelium Smooth muscle and connective tissue with collagen fibers

11 Vascular System: Blood Vessels
Basement membrane Collagen material – stimulates platelets Connective tissue Elastic fibers- provide support around vessels

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13 Vascular System: Blood Vessels
Function Endothelium Controls vessel permeability Controls blood flow rate Produces and releases substances that inhibit OR stimulate platelets, coagulation and fibrinolysis Subendothelium Collagen within is whats exposed upon injury

14 Vascular Endothelium Products: Stimulators
Produces vonWillebrand factor (vWF) Helps in platelet adhesion to collagen Carries factor VIII Tissue factor (TF) activates secondary hemostasis via extrinsic pathway Tissue plasminogen activator (tPA) is released activating fibrinolysis

15 Vascular Endothelium Products: Inhibitors
Release of tPA activates release of plasminogen activator inhibitor (PAI-1) to inhibit fibrinolysis Thromomodulin forms a complex with thrombin Platelet aggregation via prostacyclin production

16 Vascular System: Function Following Injury
Initiate hemostasis Vasoconstriction of the arterioles Minimizes blood flow to injured area Prevents blood loss Immediate Short-lived

17 Vasoconstriction Mechanism Neurogenic factors Regulatory substances
Prolong vasoconstriction Serotonin ( made by platelet activation & endothelium) Thromboxane A2 ( made by platelet activation & endothelium) Endothelin-1 (made by damaged endothelial cells)

18 Vasoconstriction Vasodilation Counteracts Vasoconstriction
Endothelial cells Prostaglandin (PGI2)/ Prostacyclin Vasodilates to increase blood flow to bring fresh supplies of clotting substances Inhibits platelet aggregation Contraction of venules Causes gaps between them which pushes fluids causing edema or swelling

19 Thought question… Think about the last time you cut your finger with a piece of paper. Did your finger bleed immediately? If not, what might have prevented the bleeding?

20 Answer.. No, the finger probably did not bleed immediately, due to vasoconstriction of the blood vessels

21 Discussion What actions of the endothelial cells prevent clotting from occurring within the blood vessels?

22 Answers.. Since the endothelial lining has a negative charge, it normally repels coagulation proteins and platelets in the circulation. It synthesizes products that help to inhibit fibrin formation.

23 All About Platelets… Second major component of the hemostatic system

24 Platelets What is a platelet? Small 2-3 µm Anuclear
Reddish-purple granules Fragments of megakaryocyte cytoplasm

25 Platelets Life span 9-10 days Normal Range x 109 /L

26 Platelet: Side note Seen in conditions with increased need and/or destruction
Giant platelets Micromegakaryocytes= Dwarf Megs May Hegglin anomaly, Bernard-Soulier syndrome, pregnancy, malignancy Seen in malignant disorders such as CML and MDS

27 Anatomy of a Platelet Peripheral zone: Responsible for platelet adhesion and aggregation Glycocalyx: Contains glycoprotein receptors: GPIb binds von Willebrand’s factor needed for platelet adhesion to collagen GPIIb/IIIa bind fibrinogen needed for aggregation Bind ADP and thrombin, promoting aggregation Factors I, V, VIII on surface, involved in 2o hemostasis Plasma membrane: Exposed on platelet activation Layer called PF3 (platelet factor) surface for interaction of plasma coagulation factors Initiation of formation of thromboxane A2. This stimulates aggregation and vasoconstriction

28 Anatomy of a Platelet Structural or Sol-Gel zone: Responsible for platelet retraction/contraction functions and platelet shape Microtubules Cytoskeleton Binding protein Organelle zone: Responsible for storage and platelet release functions Granules Dense bodies, alpha granules, lysosomal granules and microperoxisomes Mitochondria Glycogen

29 Zone PERIPHERAL Glycocalyx Phospholipid Integral Proteins: Ib/IX, IIb/IIIa Sodium ATPase STRUCTURAL Microtubules: Tubulin Cytoskeleton: Actin/Myosin ORGANELLE Granules: Alpha & Dense Enzymes: Lysosomes & Peroxisomes MEMBRANE Canalicular System – derived from DMS of megakaryocyte Dense Tubular System – calcium storage

30 Platelet Receptors Phospholipid (Pl) GPIb/IX – vWF
Required for PLT adhesion GPIIb/IIIa – Fibrinogen Required for PLT aggregation Phospholipid (Pl) Bind vitamin K dependent proteins , Ca++ dependent Bind Va and VIIIa (called “PF3” in this context)

31 Platelet Granules ALPHA DENSE ATP ADP Serotonin Calcium Ions
Plasma Derived Fibrinogen – PLT aggrgation Ig Albumin Megakaryocyte Derived vWF – PLT adhesion, VIII carrier Coagulation Factor V Plasminogen – source of plasmin PAI-1 – inhibits activation of fibrinolysis a2-antiplasmin – plasmin inhibitor PF4 – inactivates heparin PLT-derived Growth Factor (PDGF) – tissue repair Thrombospondin – PLT aggregate stabilizer Fibronectin – PLT binding ATP ADP Serotonin Calcium Ions

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33 Diagrammatic Representation of the Platelet

34 PLATELET STRUCTURE ADP, ATP, Ca2+, serotonin, etc.
PF4, ß-TG, PDGF, TGF-ß, fibrinogen, VWF, etc. ADP, ATP, Ca2+, serotonin, etc.

35 Production of Platelets
Made in Bone marrow Need dictates the amount of platelets produced. Stimulus for production is the platelet mass in circulating blood ~ 80 % and megakaryocyte mass in bone marrow Originate from CFU-GEMM to form CFU-Meg Cytokines and growth factors such as IL-3 and GM-CSF influences progenitor stages

36 Platelet Development Megakaryoblast 10-15 µm
Increased nuclear: cytoplasmic ratio Promegakaryocyte 80 µm Dense alpha and lysosomal granules Basophilic megakaryocyte Megakaryocyte

37 Production of Platelets
Precursor Cell= Megakaryocyte Produces about 2000 platelets Platelets are released via sinuses of bone marrow

38 Production of Platelets
Thrombopoietin (TPO) Regulates platelet development Influences all stages of megakaryocyte production Produced in the liver, kidney and spleen

39 Production of Platelets
How does TPO work? Maintains a constant number of platelets in peripheral blood by binding Mp1 (platelet receptor). Bound TPO can not stimulate proliferation of bone marrow progenitor cells The higher the platelet count, the more TPO is bound and stimulation of bone marrow is decreased.

40 Thought question… If a patient had a low platelet count what will happen?

41 Answer… TPO increases the number of megakaryocytes in the bone marrow, increases size and DNA count of megakaryocytes and increases maturation rate

42 Function of Platelets Surveillance of blood vessel continuity
Checks endothelial lining for gaps and breaks Fill-in small gaps caused by separation of endothelial cells Formation of primary hemostatic plug Surface for coagulation factors to make secondary hemostatic plug Aid in healing injured tissue

43 Formation of Primary Hemostatic Plug
Once the platelets “normal” environment is changed, they become activated or adhesive Three stages of plug formation

44 Stage 1: Platelet Adhesion
Platelets attach to non-platelet surfaces, such as collagen fibers in the subendothelium Platelets move from the blood vessels and into the tissues. Exposure to surfaces in the tissues causes them to bind to collagen with the presence of von Willebrand factor ( vWF) and Glycoprotein IbIX, making a bridge formation, which triggers a shape change Reversible No ADP released

45 Stage 1: Platelet Activation
Platelets undergo a shape change from disc to spiny sphere with projections Activation required for 1O hemostatic plug formation Activation continues until Ca ++ threshold met Outcome Activation of GPIIb/IIIa receptors for fibrinogen Secretion of granules within platelets into tissues

46 Platelet Shape Change George Lancet 2000; 355:1531

47 Stage 2: Platelet aggregation
Chemical changes cause platelets to aggregate and stick to one another Newly arriving platelets become activated by agonists Exposure of GPIIb/IIIa sites bind fibrinogen Fibrinogen + activated platelets serves as a bridge between two platelets Calcium must be present

48 Activated platelet membrane generates TXA2
TXA2 stimulates release

49 Arachidonic acid Cyclo-oxygenase PLATELET ENDOTHELIAL CELL Thromboxane
Cyclic Endoperoxides PLATELET ENDOTHELIAL CELL Thromboxane synthetase Prostacyclin synthetase Prostacyclin (PGI2) Thromboxane (TxA2) Inhibits plt aggregation Vasodilator Enhances plt aggregation Vasoconstrictor

50 Aggregated Platelets Resting Platelet GPIIb/IIIa (inactive) GPIIb/IIIa
Agonist (activated) e.g. ADP TXA2 thrombin Fibrinogen high shear: von Willebrand factor substitutes for fibrinogen

51 Stage 3: Platelet Secretion & Release
Requires ATP Platelets release contents of their granules, causing vasoconstriction Granules trigger a secondary aggregation which is irreversible Granules consist of Alpha granules: Factor V, Factor VIII:vWF, Fibrinogen, α2-antiplasmin, platelet factor 4 Dense bodies: ATP, ADP, serotonin, Ca

52 Steps in platelet plug formation: Extension
Figure 1B

53 Granules con’t Factor V: receptor on platelet surface for factor Xa & prothrombin PF4: heparin neutralizing factor ADP: agonist, continues to recruit and stimulate platelets by increasing cytoplasmic calcium

54 Steps in platelet plug formation: Perpetuation
Figure 1C

55 Lets have a close view about the mechanism

56 Platelet Activation Pathways (1)
ADP Adrenaline COLLAGEN THROMBIN ADP GpIIb/IIIa Aggregation GpIIb/IIIa Aggregation GpIIb/IIIa Aggregation GpIIb/IIIa Adhesion Platelet GpIb Adrenaline Adhesion vWF Exposed Collagen Endothelium

57 What happens when you have an injured blood vessel?
Endothelial cells Coagulation factors… Platelet Exposed sub-endothelium Tissue factor (TF)

58 How does a platelet plug a hole under high shear stress conditions?
-GP Ib binds the exposed vWF on sub-endothelial cells Platelet Platelets roll on vWF and become activated… vWF

59 Platelet activation Thrombin Agonist eg. thrombin Negative charge
(Priming and propagation (Intrinsic pathway) of coagulation) Agonist eg. thrombin Negative charge Activates the coagulation factors and propagates the production of higher levels of thrombin required to support haemostasis PS PS Upon platelet activation, phosphatidyl serine (PS) flips to the outer leaflet of the plasma membrane. PS PS Activation PS PS Thrombin Fibrinogen Fibrin

60 Platelet activation (continued from previous slide) also results in the release of the constituents of the alpha and dense granules Activation of aIIbb3 allows binding to fibrinogen Alpha granules P selectin (tm) -fibrinogen -PDGF -VWF ADP COX AA TXA2 Aspirin, inactivates cyclooxygenase (COX) Activates platelets Thromboxane A2 Arachidonic acid (AA)

61 Platelet activation (cont.):
- aIIbb3 becomes activated and capable of binding fibrinogen Fibrinogen The co-crosslinking of two or more platelets by aIIbb3 and fibrinogen is termed ‘aggregation’ Platelet

62 Side note Heparin is used on patients who clot excessively. Endothelial cells make heparin-like molecules and expose them on their surface. PF4 binds these substances. Heparin can complex with bound PF4 and heparin will be neutralized.

63 Final Stage : Stabilization of Clot
AKA: primary hemostatic plug formation Thrombus formation Platelets release Factor V Expose factor III, accelerating coagulation cascade Promote activation of clotting factors

64 Platelet System: Additional Functions
Provides the reaction surface for some coagulation system reactions, as well as platelet factor 3 (PF3) which is platelet phospholipid Supports and maintains endothelial lining Defective hemostasis can occur due to decreased number of platelets (quantitative) abnormally functioning platelets (qualitative)

65 Platelet Function Scout for vascular damage
Form platelet plug of damaged tissue Adhesion Aggregation Secretion Phospholipid reaction surface for coagulation Tissue repair Graphic accessed at URL

66 Agonists “a term used to describe substances that can attach to a platelet membrane receptor and activate platelets causing them to aggregate .” McKenzie, SB. Clinical Hematology, Glossary, p. 919

67 Agonists agonists produced ADP Collagen Thrombin Epinephrine
Arachidonic acid Thromboxane A2

68 Blood clot

69 Coagulation System Composed of 14 coagulation factors (serine proteases) which are interdependent (Factors I through XIII – there is no Factor VI – and PK and HMWK) Inactive form of each is an enzyme precursor which is usually designated by a Roman numeral but also given a name – Ex. Factor I fibrinogen. Numbers correspond to order of discovery NOT order in cascade. Active forms are usually designated by the letter “a” after the Roman numeral and may also have a different name – Ex. Ia Fibrin Cofactors are needed for many reactions in the cascade – Ex. Calcium, platelet factor 3 (PF3) Each molecule must be present in sufficient quantity as well as functioning normally Final product is fibrin mesh or clot which completely stops bleeding Secondary hemostasis Slow contraction and lysis of the clot occurs

70 Fibrinolytic System Plasminogen is converted to plasmin
Plasmin enzymatically attacks the fibrin molecule producing fibrin degradation products (FDPs, sometimes called FSPs) that are cleared from the circulation by macrophages Fibrin is a product formed during hemostasis, tissue repair or inflammation Fibrin plays a temporary role Once injury heals, the fibrin clot is lysed

71 Coagulation Inhibition System
Provides balance and control of clotting mechanisms Natural inhibitors and anticoagulants circulate in the plasma to: Prevent clotting when it’s not needed Limit or localize the clotting that is needed Examples: Protein C and S, antithrombin III


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