Haematology II

Question 1

What are the phases of the haemostatic response?

Answer 1

• vasoconstriction
• platelet adhesion and aggregation
• clotting/coagulation phase

Question 2

What does vasoconstriction do?

Answer 2

Help to control blood flow to a damaged area and limits blood loss

Question 3

What does the coagulation phase take place on?

Answer 3

the primary platelet plug

Question 4

How do the clotting phases communicate?

Answer 4

• through continuous feedback and feedforward

- one phase doesn’t have to stop for the other to start

Question 5

Give features of platelets

Answer 5

• Small, oval, no nucleus (limited lifespan)
• 2-3 um in diameter
• Contains granules (allow platelets to take part in haemostasis
• Produced from Myeloid cell line
• Lives for about 7-10 days
• Variety of function essential to the normal process of haemostasis

Question 6

How are platelets produced?

Answer 6

• they are produced from the cytoplasm of Megakaryocytes
• The cytoplasm fragments and produces platelets
• One megakaryocyte can produce about 4000 platelets

Question 7

Where is thrombopoietin (TPO) produced?

Answer 7

• Mainly in the liver

- some in the kidneys

Question 8

What controls the production of platelets?

Answer 8

• number of platelets already in circulation

- low number of platelets leads to increased thrombopoietin which increases platelet formation

Question 9

What does thrombopoietin do?

Answer 9

regulates the differentiation of megakaryocytes and platelet formation

Question 10

What happens when platelets are exposed to collagen?

Answer 10

• platelet adhesion (binding) takes place)

- this causes platelets to be activated. They change shape, secrete granule content and activate GPllb/lla

Question 11

What happens after the platelet activation phase?

Answer 11

• serotonin is released which leads to vasoconstriction
• Thromboxane A2 and ADP are released which leads to platelet aggregation phase (ADP causes the platelets to swell so they come into contact with other platelets)
• Platelet phospholipid is released which leads to the blood coagulation cascade

Question 12

What is the coagulation phase

Answer 12

The endpoint. The conversion of soluble plasma protein to the insoluble rigid polymer fibrin

Question 13

Why can’t the fibrin clot be broken down the same way as the platelet plug was?

Answer 13

It is insoluble

Question 14

What is released when there is damage to blood vessel surface?

Answer 14

Tissue factor

Question 15

What are the different pathways in the coagulation phase?

Answer 15

• Extrinsic
• Intrinsic
• Common: intrinsic and extrinsic come together to activate factor X

Question 16

What happens when clotting factors/coagulation enzymes are activated and how can you tell it has been activated?

Answer 16

• Activated when they are taking part in production of a clot
• turns the clotting factors into an enzyme
• once this has been activated it activates the next in the sequence
• When there is an ‘a’ at the end of the clotting factor name it shows it has been activated

Question 17

What happens with the extrinsic pathway?

Answer 17

• activated by exposure of tissue factor on damaged blood vessel surface
• exposes tissue factor to the circulation
• comes into contact and binds with factor VII and forms tissue-factor - FVIIa complex
• this then binds to FX and activates it turning it into FXa
• fast pathway

Question 18

What happens with the intrinsic pathway

Answer 18

• Negatively charged collagen activates the clotting factors that come into contact with it
• Factor XII activated to become XIIa
• Platelet factor 3 released by aggregated platelets forming on the surface of the damaged blood vessel wall
• This allows allow activation of Factor VIII and factor IX which combine together (Factor X activator complex) to allow activation of FX to FXa
• Slightly slower than extrinsic pathway

Question 19

What does prothrombinase consist of?

Answer 19

FXa and FCa as co-factors

Question 20

What happens in the common pathway?

Answer 20

• Prothrombin is activated to from thrombin
• Thrombin converts fibrinogen to fibrin
• we then produce out fibrin clot

Question 21

Thrombin plays a big part in the feedback process. What clotting factors does it activate?

Answer 21

• FVIII and FIX which then allows them to take part in the intrinsic pathway
• FV to take part in the common pathway
• Also activates platelets which allows them to produce the platelet plug on which the fibrin clot can form

Question 22

Why will any disorder that decreases Ca2+ concentration impair blood clotting?

Answer 22

Because calcium is needed for almost every part of the clotting process

Question 23

What is vitamin K necessary for?

Answer 23

production of certain clotting factors in the liver including prothrombin

Question 24

What are the anticoagulants we have in normal plasma>

Answer 24

• Antithrombin: inhibits thrombin (among other factors) that is not bound to fibrin
• Heparin - released by basophils and mast cells - co-factor that accelerates the actions of antithrombin
• both work on the intrinsic pathway

Question 25

What is fibrinolysis?

Answer 25

When the fibrin clot is broken down

Question 26

What happens in fibrinolysis?

Answer 26

• You have large amounts of plasminogen incorporated into your clot that are inactive until they get a signal indicating it is time to break the clot down
• When plasminogen is activated plasmin is produced
• plasminogen is activated by TPA which converts plasminogen to plasmin
• happens about two days after the clot forming and happens over several days until the clot is dissolved

Question 27

What is plasmin?

Answer 27

Fibrin digesting enzyme

Question 28

How many blood group systems do we have and how are they determined?

Answer 28

• 35 blood group systems

- genetically determined by antigens on red blood cell membrane

Question 29

What are the blood groups of most clinical significance?

Answer 29

ABO and Rh (D) blood group systems

Question 30

What are the different ABO blood groups and their characteristics?

Answer 30

• A: A antigen, Anti-B antibodies
• B: B antigen, Anti-A antibodies
• AB: A and B antigens, No antibodies
• O: None, Anti-A and Anti-B antibodies

Question 31

When are antibodies for the ABO blood group produced?

Answer 31

In relation to the environmental substances you are exposed to

Question 32

What would happen if type B blood cells came into contact with Anti-B antibodies>

Answer 32

the Anti-B antibodies would bind with the surface B antigen causing the to clog together (agglutination) and then this causes the red blood cells to break down – haemolysis

Question 33

How do you test for a blood type?

Answer 33

you put a serum of one blood in another and see if there is agglutination

Question 34

What would happen if you were exposed to a different blood group from your own?

Answer 34

Your red blood cells would break down

Question 35

What are the genetics behind blood group inheritance?

Answer 35

• A and B genes are dominant and codominant

- O gene is recessive

Question 36

What are the two groups of the Rh (D) blood group and what is this determines by?

Answer 36

• Rh negative (-) or Rh positive (+)

- Determined by presence or absence of the D antigen

Question 37

An Rh(-) individual will not usually contain anti-Rh (D) antibodies. What does getting the antibodies require and what does this happen by?

Answer 37

Sensitisation by exposure to Rh+ RBCs

This may happen by:

• transfusion
• pregnancy

Question 38

What is Haemolytic disease of the new born?

Answer 38

• Rh- mother
• Rh+ foetus
• during pregnancy you are hopeful that the maternal and foetal blood don’t mix
• during labour there is often mixing of the two circulations (haemorrhaging)
• there is then maternal antibody production (anti-Rh)
• normally takes about 72 hours for antibody production to reach a significant enough level to do damage
• so it doesn’t do damage in the first pregnancy but antibodies will stay in the maternal circulation
• So if the mother’s second pregnancy is with an Rh+ foetus as soon as their blood mixes the antibodies will attack the baby’s red blood cells and can cause significant anaemia
• this could happen either during the pregnancy or during labour

Question 39

What are the important things to remember with blood donation and transfusion?

Answer 39

• Blood donation rule: always give someone their own blood group (red blood cells) where positive
• In an emergency – transfuse with O Rhesus negative: universal donor (No ABO antigens and no rhesus antigens so can’t be attacked)

Question 40

Platelets contain filaments of actin and myosin. What happens after a blood clot has formed?

Answer 40

platelet filaments contracts to shrink the clot and reduce the size of the break in the vessel wall

Question 41

What is platelet production called?

Answer 41

Thrombocytopoiesis

Question 42

Where does Thrombocytopoiesis take place?

Answer 42

In the red bone marrow

Question 43

What are the three substances that affect the rate of platelet formation and megakaryocyte activity?

Answer 43

• Thrombopoietin (TPO)
• Interlukin-6 a hormone that stimulates platelet formation
• Multi-CSF which stimulates platelet production by promoting megakaryocyte formation and growth

Question 44

What happens during the vascular phase (vasoconstriction) of heamostasis?

Answer 44

• The endothelial cells contract and expose the underlying basement membrane to the bloodstream
• The endothelial cells begin releasing chemical factors and local hormones such as ADP, tissue factor and prostacyclin. Endothelial cells also release peptide hormones called endothelins which stimulate smooth muscle contraction and stimulate the division of endothelial cells, smooth muscle cells and fibroblasts to accelerate the repair process
• In small capillaries endothelial cells on opposite sides of the vessel may stick together and prevent blood flow along the damaged vessel

Question 45

What happens at the start of the platelet phase?

Answer 45

• phase the platelets attach to sticky endothelial surfaces, to the basement membrane to exposed collagen fibres
• The attachment of platelets to exposed surfaces is called platelet adhesion. As more platelets arrive they stick to each-other as well this forms the platelet plug

Question 46

What do platelets release when they are activated?

Answer 46

• ADP which stimulates platelet aggregation and secretion
• Thromboxane A2 and serotonin which stimulates vascular spasms
• Clotting factors
• Platelet derived growth factor that promotes vessel repair
• Calcium ions

Question 47

What is the growth of the platelet plug limited by?

Answer 47

• Prostacyclin – a prostaglandin that inhibits platelet aggregation and is released by endothelial cells
• Inhibitory compounds released by WBCs entering the area
• Circulating plasma enzymes that break down ADP near the plug
• Compounds that when abundant inhibit plug formation e.g. serotonin

Question 48

where does the extrinsic pathway begin?

Answer 48

Outside the bloodstream in the vessel wall?

Question 49

Where does the intrinsic pathway begin?

Answer 49

Inside the bloodstream

Question 50

What feedback system is involved with blood clotting?

Answer 50

Positive feedback system

Question 51

Thrombomodulin is released by endothelial cells. What does it do?

Answer 51

This protein binds to thrombin and converts it to an enzyme that activates protein C. Protein C is a plasma protein that inactivates several clotting factors and stimulates the formation of plasmin

Question 52

What does aspirin do in regards to blood clotting?

Answer 52

interferences with blood clotting and prolongs bleeding time. It inhibits platelets from producing prostaglandins and thromboxane A2 which stimulates new platelet activation and aggregation

Question 53

Where do we get half our daily vitamin K requirement from?

Answer 53

Our diet

Question 54

What does clot retraction do?

Answer 54

pulls the torn edges of the vessel closer together. This process reduces residual bleeding and stabilizes the injury site. It also reduces the size of the damaged area, making it easier for fibroblasts, smooth muscle cells and endothelial cells to complete repairs

Question 55

What are the surface antigens involved in blood groups?

Answer 55

Integral membrane glycoproteins

Question 56

What is a cross reaction or transfusion reaction?

Answer 56

is when during a transfusion an antibody meets its specific surface antigen and the RBCs agglutinate and may also haemolyze

Question 57

What does a compatibility test usually involve?

Answer 57

1. A determination of blood type

2. A cross-match test