Basics of haemostasis: How to clot, but not too much

Question 1

What is primary haemostasis?

Answer 1

Primary clot formation which is the role of platelets

Question 2

What is secondary haemostasis?

Answer 2

Formation of fibrin clot

Question 3

What is blood homeostasis?

Answer 3

Stop significant blood loss at site of injury but switching off clotting so that blood doesn’t clot everywhere

Question 4

What are the structures and systems involved in haemostasis?

Answer 4

Vascular endothelium

Platelets

Procoagulant and anticoagulant proteins

Fibrinolytic system

Question 5

What 2 processes are in balance in a healthy person?

Answer 5

Clot formation and clot lysis

Question 6

What are bleeding problems a result off?

Answer 6

Too much lysis too little clotting

Question 7

What are clotting problems a result of?

Answer 7

Too much clotting too little lysis

Question 8

What happens to blood vessels in response to injury?

Answer 8

Vasoconstriction

eg. pain receptors can cause reflex vasoconstriction

Question 9

How does a blood clot form?

Answer 9

1- Initiation:
Following vascular injury there is reflex vasospasm of smooth muscle for a short time. Vascular endothelium stops producing NO and prostacyclin.

Injury exposes important subendothelial proteins like VWF and tissue factor.

2- Platelet adhesion and activation:

Circulating platelets bind to subendothelial matrix through platelet surface receptor (glycoprotein 1b/IX/V complex), via von-Willebrand factor.

Other interactions such as GP1a/IIa binding to collagen are important as well.

Platelets are activated by collagen, VWF, thrombin, and ADP.

Activated platelets change shape and release their granules. Activated platelets also express a new receptor which is a fibrinogen receptor allowing more agreggation of platelets.

ADP and TXA2 also recruit other platelets to help form platelet plug

Question 10

How does intact endothelium prevent platelet adherence?

Answer 10

By producing NO and prostacyclin

Question 11

What are the most important factors to platelet activation?

Answer 11

Platelets are activated by collagen, VWF, thrombin, and ADP

Question 12

What happens to platelets when they are activated?

Answer 12

Activated platelets change shape and release their granules. Activated platelets also express a new receptor which is a fibrinogen receptor allowing more aggregation of platelets.

Question 13

What do circulating platelets bind to?

Answer 13

Subendothelial matrix

Question 14

How do circulating platelets bind to subendothelial matrix?

Answer 14

Though platelet surface receptor

Question 15

What is the platelet surface receptor that binds to subendothelial matrix called?

Answer 15

Glycoprotein 1b/IX/V complex

Question 16

How does von-Willebrand factor (VWF) help with platelet aggregation?

Answer 16

Important for binding and aggregation.

It combines with GPIb, GPIIb/IIIa and the collagen sunbendothelial microfibrils creating a link at many sites allowing the platelet to start spreading.

Question 17

What receptor on the platelet binds directly to collagen?

Answer 17

GP1a/IIa

Question 18

What do the granules of activated platelets contain?

Answer 18

ADP

Thromboxane 2

Fibrinogen

Von Willebrand Factor

Question 19

What receptor do activated platelets express? What does it do?

Answer 19

Glycoprotein IIb/IIIa

Question 20

What do ADP and TXA2 in granules do?

Answer 20

Recruit other platelets to help with platelet plug formation

Question 21

What do ADP and TXA2 in granules do?

Answer 21

Recruit other platelets to help with platelet plug formation

Question 22

What must happen before GPIIIa can be exposed to VWF?

Answer 22

GPIa must adhere to the collagen that the VWF is going to bind to

Question 23

What must happen before GPIIb can be exposed to VWF?

Answer 23

GPIb must bind to VWF

Question 24

What happens after GPIIb/IIIa binding to VWF?

Answer 24

Spreading of platelet

Question 25

What are the 4 processes in platelet response?

Answer 25

Adhesion

Aggregation

Secretion

Pro-coagulant activity

Question 26

What is the overall function of platelets?

Answer 26

Initial closure of vessel wall defect

Vasoactive substances result in platelet granule release (containing coagulation proteins and propagating messengers) which has a propagating effect activating clotting factors to bind to platelet surface and increase thrombin generation

Question 27

What is purpura?

Answer 27

Autoimmune destruction of platelets

Question 28

What happens during secondary haemostasis?

Answer 28

A fibrin clot is formed

Question 29

What are the key steps to forming a fibrin clot?

Answer 29

Tissue factor combines with favtor VIIa to form FVIIa-TF complex.

The complex activates the other proteins that produce thrombin on top of the platelet surface

Thrombin then converts fibrinogen to fibrin.

Question 30

What are the steps of coagulation?

Answer 30

Factor VIIa - TF complex activate small amounts of factor 9 to 9a and factor 10 to 10a

Factor 10a cleaves prothrombin to thrombin

Thrombin activates platelets which release further coagulation proteins.

Thrombin also activates proteins required to produce more thrombin

Thrombin is produced in large scale on the platelet surface.

At multiple locations there is positive feedback from thrombin (factor 11, factor 8, factor 5)

Factor 13 is not part of coagulation cascade and instead helps to cross-link fibrin

Question 31

Simplification of thrombin formation so far

Answer 31

F7a-TF activates F9+F10 activates thrombin (aka F2) which feeds forward to factor 11, 8, and 5 (positive feedback)

Question 32

What is another name for thrombin?

Answer 32

Factor II

Question 33

What does factor 13 do?

Answer 33

Not part of coagulation cascade and instead helps to cross-link fibrin

Question 34

What is thrombin important for?

Answer 34

Activation of coagulation factors

Activation of platelets

Activation of anticoagulant factors

Determining the balance of fibrinolysis

Question 35

What is fibrinolysis?

Answer 35

Process by which clot is removed

Question 36

What does tissue plasminogen activator do?

Answer 36

activates plasminogen and converts it to plasmin

Question 37

What does plasmin do?

Answer 37

Enzymatically attacks fibrin molecule producing fibrin degradation products that are cleared from circulation by macrophages

Question 38

What is produced after degradation by plasmin?

Answer 38

FDPs which form D-dimers (due to factor 13 cross-linkages)

Question 39

Summary of haemostasis after disruption of vascular endothelium:

Answer 39

Platelets bind to subendothelium collagen to initiate primary closure of the defect in vessel wall

Tissue Factor in subendothelium combines with factor 7 (FVII) in blood to form the FVII-aTF complex which activates other clotting proteins leading to thrombin production.

Large scale production of thrombin takes place on platelet surface which converts fibrinogen to fibrin and then fibrinolysis is activated to localise clot to site of injury.

Question 40

What is the purpose of thrombin?

Answer 40

To convert fibrinogen to fibrin

To activate factor 13 to form cross linkages

Question 41

What pathways can trigger coagulation?

Answer 41

Intrinsic and Extrinsic

Question 42

Where does the coagulation cascade happen?

Answer 42

On platelet surface (PL of platelet surface)

Question 43

What does the coagulation cascade bring?

Answer 43

10, 8, 9, calcium, and phospholipid.

Question 44

How is coagulation tested in the lab?

Answer 44

factor 12 is activated to test intrinsic pathway and is called APTT

Tissue factor is activated to test extrinsic pathway this test is called PT.

Question 45

What is the APTT test?

Answer 45

Activated Partial Thromboplastin Time which uses Kallikroin to start the intrinsic pathway.

Question 46

Where do the extrinsic and intrinsic pathway of coagulation meet?

Answer 46

At factor 10 activation and factor 2 activation

Question 47

How are PT and APTT tests conducted?

Answer 47

Citrate added to blood to remove calcium.

Blood is centrifuged to create platelet poor plasma and 3 hings are added:

Activator
Platelet substitute
and calcium (time to clot formation is measured when variables are known)

Question 48

What must be considered with screening tests?

Answer 48

Clinical history;

Personal bleeding history

Drugs

Family history

Question 49

What are the limitation of screening tests?

Answer 49

They are in vitro which isn’t always reliable.

Question 50

What are some important lab screening tests?

Answer 50

Platelet count

Prothrombin time (PT)

Activated partial thromboplastin time (APTT)

Question 51

What are the contents of plasma?

Answer 51

Water

Albumin

Clotting proteins

Antibodies

Salts

Vitamins

Urea

Hormones

Question 52

What is Prothrombin Time?

Answer 52

Measures time for clot to form after addition of Tissue Factor, phospholipid and calcium to decalcified, platelet poor plasma. It’s a good test for abnormalities in factors VII, X, V, II, and fibrinogen

Question 53

What is the reference range for prothrombin time?

Answer 53

13 - 15 seconds

Question 54

Which coagulation pathway does prothrombin time measure?

Answer 54

Extrinsic pathway

Question 55

How does a factor deficiency affect PT?

Answer 55

Prolongs time exponentially at lower factor.concentrations

A change often must be more than 30% before it is noticeable.

Question 56

What is PT used for?

Answer 56

Monitoring Vitamin K (and other stuff that we will learn later)

Question 57

What is the International Normalised Ratio?

Answer 57

Ratio between PT of a test compared to a normal sample. This is corrected for the sensitivity of tissue factor used.

Question 58

Why was the INR ratio developed?

Answer 58

To monitor patients on oral anticoagulants (warfarin)

Question 59

What is warfarin?

Answer 59

An anticoagulant

Question 60

What is in an APTT test?

Answer 60

Platelet poor plasma

Phospholipids

Contact activator (Kaolin)

Calcium

Question 61

What does APTT measure?

Answer 61

Intrinsic and common pathways

Question 62

What is the reference range of time for Activated Partial Thromboplastin TIme?

Answer 62

27 - 35s

Question 63

What must deficient factor be to be detected?

Answer 63

<40% before the APTT is prolonged

Question 64

What are the types of defects that fibrinogen can present?

Answer 64

Quantitative or qualitative defects

Question 65

What is the reference range of fibrinogen in blood?

Answer 65

2 - 4g/L

Question 66

How is the Clauss assay on fibrinogen conducted?

Answer 66

Clot diluted plasma with very high concentration of thrombin.

Use diluted plasma to remove effects of inhibitory substances such as warfarin

High thrombin concentration so clotting time independent of thrombin concentration for wide range of fibrinogen levels

Question 67

What do immunological assays measure?

Answer 67

Concentration of fibrinogen not activity

Question 68

What else is fibrinogen called?

Answer 68

fibrin

Question 69

What do fibrin tests reveal?

Answer 69

Whether the cause of a problem is too little fibrinogen or not very functinal fibrinogen