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Haemostasis (part 2: secondary haemostasis)
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Blood Science Mind Map on Haemostasis (part 2: secondary haemostasis), created by maisie_oj on 30/04/2013.
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blood science
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maisie_oj
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maisie_oj
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Resource summary
Haemostasis (part 2: secondary haemostasis)
Describe primary and secondary homeostasis
Primary homeostasis
Characterised by injured blood vessel constriction/spasm (different response (vasodilation) in uninjured vessels) - followed by thrombocytic plug
Depends on the platelet and blood vessel wall
Platelets aggregate at the site of injury to reduce and arrest the bleeding
Secondary homeostasis
When the clotting cascade is activated (by tissue factor from the surface of endothelial cells and platelet secretions)
Coagulation and coagulation factors
Platelets, vascular and clotting factors
Extrinsic pathway
Intrinsic pathway
Reversed by fibrinolysis
Clotting cascade
Intrinsic pathway (stimulated by exposed collagen)
XII (Hageman factor)
XIIa
+
Kallikrien
Prekallikrien
+
High molecular weight kininogen (HMWK)
+
XI
XIa
+
IX
IXa
IXa + VIIIa (+ (Ca(2+) + phospholipids) = tenase complex
+
Xa
Xa + Va (+ Ca(2+) + phospholipids) = prothrombinase complex
Va
+
Thrombin (IIa)
V
+
Prothrombin (II)
Thrombin (IIa)
+
Fibrinogen (I)
Fibrin monomer (Ia)
+
Fibrin clot
+
Digested fibrin products
Fibrinolysis
Plasmin
+
Plasminogen
Urokinase
tPA
+
XIII
XIIIa
COMMON PATHWAY
X
VIIa (+ tissue factor)
+
VII
Tissue factor
Tissue injury
Extrinsic Pathway (stimulated by endothelial damage -> tissue factor release)
VIIIa
+
VIII
Thrombin (IIa)
vWF
Thrombin (IIa)
+
+
Recruits a complex of; prekallikrien, XII and HMWK
Coagulation factors
Generated in the liver (except VIII - at least the vWF-interacting portion)
VII produced in multiple organs
Three types
The fibrinogen family
Fibrinogen
V
VIII
XIII
The prothrombin family
II
VII
IX
X
Protein C
Binds with thrombomodulin on endothelial cells
This complex becomes activated by portein S
Activated complex inhibits Va and VIIa
Protein S
The contact family
VII (Hageman factor)
Monitoring haemostasis
Bleeding time (Duke's method)
Patient skin is cleaned with alcohol wipe
Prick made with a lancet
Filter paper applied to the area every 30 seconds
BT = no. of blood spots (until blleding stopped) divided by 2
This gives the BT in mins (normal is 3-6 mins)
Measures time for primary haemostasis
Not very reliable
Varies greatly between patients
In cold it is shortened (due to capillary constriction)
In warmth = opposite
Prolonged by
Lack of platelets (thrombocytopaenia)
Platelet disorders (heparin, aspirin)
Severe anaemia
vWD
Collagen vascular disease
Clotting time - capillary tube method
Prep and prick the patient
Fill a capillary tube up with blood
Every 30 secs blot the capillary tube on filter paper and drag back slightly
Fibrin formation is identified when a fibrinous clot is dragged from the capillary tube
Seen as a fibrin thread
Normal clotting time = 5-8 mins
It is increased in haemophilia
Not relying on primary haemostasis alone (outside of the body)
Coagulation tests
Measuring the intrinsic system
Activated partial thromboplastin time (aPTT)
Performed at 37degressC
Plasma collected (9:1 ratio of trisodium citrate anticoagulate and blood)
Add kaolin/elgaic acid (source of phospholipids) and Ca(2+) - activate the intrinsic pathway
Measure the time for a clot to form
Normal = 22-35secs
Prolonged aPTT
Heparin/direct thrombin inhibitors
Factor deficiencies (intrinsic factors; XII, XI, IX, VIII)
Common pathway factor deficiencies (X, V, II, I)
Luopus anticoagulant
Specific inhibitors (VIII or IX)
Possible warfarin, liver dysfunction DIC?
Measuring the extrinsic system
Prothrombin time (PT)
Performed by adding thromboplastin and Ca(2+) to plasma
Thromboplastin mimicks tissue factor (activates VII - i.e. the extrinsic system)
Can be human or rabbit
Measure the time for clot formation
Can be performed automatically or manually
Normal PT time = 11-15 secs
Prolonged PT time
Factor deficiency
VII (extrinsic pathway)
or, II, V and X (common pathway)
Warfarin
High dose heparin
Liver dysfunction
Vitamin K deficiency
VII requires vitamin K for activity
(So does XI - but not part of the extrinsic pathway)
Disseminated intravascular coagulation (DIC)
Lupus anticoagulant
Considerations
Underfilling with blood can alter the anticoagulant:blood ratio of 9:1
Polycythaemia alters the anticoagulant:blood ratio of 9:1
Errors in the optical end point analysis by...
Lipaemia
Haemolysis
Hyperbilirubinaemia
Hyperproteinaemia
Internationational normalised ratio (INR) - accounts for differences between different nationalalities
Can be tested using a portable electronic system
Calculation of the INR = (patients PT in secs / mean normal PT i secs)^international sensitivity index
Thromboplastin reagents vary in sensitivity between labs - the INR allows for standardisation by introducing an international sensitivity index (IS)
For the purpose of standardising the monitoring of warfarin therapy
Measuring the common pathway alone
Thrombin time (TT)
Performed by adding thrombin (IIa) to patients plasma
Measures the conversion of fibrinogen to fibrin
Normal = <20 secs
Shortened TT in dysfibrinogenemia
Prolonged TT in
DIC, liver disease, hypofibrinogenemia, heparin, lupus
Measuring fibrinogen levels
Detects deficiencies of fibrinogen or the ability to convert to fibrin
Normal = 200-400mg/dL
May do titers to assist in evaluation
Levels decreased in
DIC (consumption of clotting factors)
Liver disease (decreased synthesis)
Massive transfusion (dilutional coagulopathy)
Hypo-, dys- and afibrinogenemia
Increased in
Age
Females; pregnancy, oral contraceptive and menopause
Acute phase reaction
Disseminated malignancy
Activated clotting time (ACT)
Measures clot formation in intrinsic and common pathways
Freshly obtained blood added to a tube containing negatively charged particles
Negative charge initiates intrinsic pathway
Type of charged particle affects the normal length of ACT
e.g. Kaolin (90-150secs); glass (110-190secs)
Prolonged in
Heparin, hypothermia, platelet dysfunction, haemodilution, cardioplegic solutions, hypofibrinogenemia, factor 9intrinsic and common) deficiencies
Used in cardiopulmonary bypass; haemodialysis; vascular and general surgery
Bleeding disorders
Haemophilia A
X-linked (affects mostly males)
Severity associated with the level that factor VIII is affected
Bleeding - joints, gut, trauma, intracerebral haemorrhage at birth
Treated with recombinant factor VIII
Lab results
Long aPTT
Reduced fVIII activity
Anticoaglants
Why?
Prevent thrombus formation -> embolus
e.g. DVT and pulmonary embolism
Over-anticoagulation
Reversal urgent!
Heparin overdose
Give: protamine sulphate
Inhibits thrombin formation
Warfarin overdose
Give: vitamin K
Inhibits vitamin K activating enzymes (vitamin K-epoxide reductase)
Certain clotting factors arent activated (II, VII, IX, X)
Unstoppable bleeds (prolonged clotting times etc.)
Duration of anticoagulant therapy is important
First DVT/PE (previous risk factors) = 3 month therapy
First DVT/PE (idiopathic = spontaneous) = 6-12 months
>2 episodes = indefinite therapy
Targetting Xa
Why?
Pivotal upstream location - at the start of the common pathway
Primary site of cascade amplification
Rate-limiting component in the production of thrombin
Inhibtion of Xa
One molecule of Xa inhibited prevents ~138 molecules of fibrin being generated
Function of Xa - only to promote coagulation (compared to thrombin)
Indirect Xa inhibitors
Mediated through the binding to and activation of antithrombin(III) - e.g. heparin-like molecules
Direct Xa inhibitors
Bind directly to Xa (without the need for antithrombin(III)
Currently undergoing clinical trials
Inhibit Xa bound to activated platelets
i.e. trapped within a forming thrombus at the prothrombinase (Xa+Va+Ca(2+) + phospholipids)
Possible advantage over heparin and indirect Xa inhibitors
Appears to inhibit thrombus formation, but allow sufficient thrombin formation - mainting the ability to form a haemostatic plug elsewhere
Lower bleeding risk
Inhibitors of thrombin
Heparin (indirectly through antithrombin(III)
Direct = Bivalirudin
Binds directly to exosite 1 or active site
Does not bind platelet factor 4
Few other interactions
Wide therapeutic window
Expensive
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