lecture 3 - blood: platelets & haemostasis

Question 1

what is haemostasis?

Answer 1

the arrest of bleeding from the broken blood vessel

the bodies haemostatic mechanisms are normally able to stop loss of blood through small damages capillaries arterioles and venues

Question 2

what are platelets?

Answer 2

• thrombocytes
• small anucleur cell fragments
• stored in the spleen, released by contraction of the spleen activated by sympathetic nervous system
• short lifespan: 7-10 days
• don’t have a nucleus

Question 3

what is thrombopoiesis?

Answer 3

platelet synthesis

occurs in red bone marrow

Question 4

what happens in thrombopoiesis?

Answer 4

1) hematopoeitic stem cells differentiate into committed precursor cells: megakaryoblasts
2) megakaryoblasts develop into megakaryocytes

Question 5

what does thrombopoitin do?

Answer 5

stimulates megakaryocytes to extend arms (cytoplasmic arms) through bone marrow sinusoids into blood vessels

small fragments break off as platelets

produce about 1011 a day

Question 6

structure of platelets

Answer 6

exterior coat - rich in glycoproteins

dense tubular system - thromboxane A2 synthesis and release

microfilaments and microtubules - maintains shape

dense body and granules

Question 7

2 types of dense bodies in platelets

Answer 7

alpha:
• contain clotting mediators including von Willebrand factor, factors V, VIII and fibrinogen

delta:
• contain ADP, Ca++ and serotonin, required for platelet activation and clotting

Question 8

what is a platelet disorder?

Answer 8

thrombocytopenia - low number of platelets

Question 9

causes of thrombocytopenia

Answer 9

autoimmune disease

drug induced - inhibition of platelet synthesis, immunological destruction of platelets

Question 10

symptoms of thrombocytopenia

Answer 10

• easy bruising
• petechial rash
• mucous membrane bleeding
• excessive bleeding after minor trauma

Question 11

what is petechiae?

Answer 11

pin-point haemorrhages, resulting from blood leaking from intact capillaries due to increases vascular permeability or failure of platelet function

usually occur in clusters

Question 12

what is thrombotic thrombocytopenic purpura?

Answer 12

platelet disorder

caused by formation of small clots in circulation resulting in low platelet numbers

rare but serious disorder
can be:
• cognitive defect 
• autoimmune disease 
• caused by toxins

Question 13

what are the 7 stages in haemostasis?

Answer 13

1) vascular spasm - blood flow through the injured vessel decreases
2) platelet plug formation
3) coagulation - intrinsic and extrinsic pathways produce factor Xa
4) coagulation - common pathways produce thrombin
5) coagulation - thrombin converts fibrinogen to fibrin, glues platelet plug together
6) clot retraction
7) thrombolysis - plasmin degrades fibrin and clot dissolves

Question 14

what happens in vascular spasm?

Answer 14

• smooth muscle layer surrounding cut constricts to slow blood flow to minimise blood loss
• damaged cells and platelets release potent vasoconstrictors such as serotonin and ADP
• as the ends of the endothelial surfaces are pushed together they become sticky and adhere to each other

Question 15

what happens in platelet plug formation?

Answer 15

1) prostacyclin stops platelets sticking to the cell wall
2) endothelial cells produce von Willeband factor
3) exposed collagen and vWF binds and activates platelets
4) release of platelet factors (ADP, serotonin, thromboxane A2)
5) platelets release granule contents
6) this attracts more platelets
7) these aggregate into platelets plug

Question 16

what does the platelet plug do?

Answer 16

seals the bark in the vessel lining and performs 3 other functions
• compaction/strengthening
• further vasoconstriction
• stimulation of the clotting cascade

Question 17

what is prostacyclin important?

Answer 17

inhibits platelet aggregation at the normal vessel singing so that the platelet plug is limited to the defect and doesn’t spread to normal tissue

Question 18

what is coagulation?

Answer 18

• complex cascade of reactions involving a series of factors
• the process by which liquid blood changes to a solid gel (clot or thrombus)
• formation of the clot on top of the platelet plug strengthens and supports the plug

Question 19

what does thrombin (factor IIa) do in coagulation?

Answer 19

converts fibrinogen to fibrin monomers by proteolytic cleavage causing stick pends

Question 20

how do fibrin monomers stick together?

Answer 20

by factor 8a and Ca++

makes a fibrin polymer which forms the clot

Question 21

overall process of coagulation

Answer 21

1) thrombin converts fibrinogen to fibrin monomers
2) fibrin monomers made into polymer by factor 8a and Ca++
3) this forms the clot

Question 22

what are the 2 pathways that stimulate thrombin activity?

Answer 22

INTRINSIC

EXTRINSIC

Question 23

what happens in the intrinsic pathway?

Answer 23

• initial stimulus is collagen exposure
• glass can substitute for collagen - why blood coagulates in a test tube
• all the necessary factors are present in the blood

Question 24

what happens in the extrinsic pathway?

Answer 24

• initial stimulus is contact between blood and damaged tissue outside of the blood vessel that exposes tissue factor (thromboplastin/factor III)
• initiating factor is on the plasma membrane of cells outside the blood vessel

Question 25

where else can thrombin act as well as converting fibrinogen to fibrin?

Answer 25

can act directly on factor VIIIa

Question 26

what happens in blood clotting?

Answer 26

1) tissue exposure initially triggers the extrinsic pathway leading to thrombin production, but the amounts produced are too small for sustained coagulation (initiation phase)
2) thrombin produced by the extrinsic pathway feeds back and activates the intrinsic pathway (amplification phase)

Question 27

what is hemostasis?

Answer 27

clot retraction

Question 28

what happens in clot retraction?

Answer 28

• occurs as coagulation cascade nears completion
• actin and myosin fibres in platelets contract bringing edges of wounded vessel closer together
• serum (fluid consisting of plasma without clotting proteins) is forced out of the clot

Question 29

what processes inhibit coagulation?

Answer 29

• anti-thrombin
• tissue factor pathway inhibitor
• thrombin
• thrombomodulin
• fibrinolysis

Question 30

how does anti-thrombin inhibit coagulation?

Answer 30

inhibits many clotting factors, especially thrombin

Question 31

how does the tissue factor pathway inhibitor inhibit coagulation?

Answer 31

binds to the factor III/VIIIa complex preventing it from activating factors IX and X

Question 32

how does thrombin inhibit coagulation?

Answer 32

it binds to its receptor and stimulates production of prostaglandins (PGI), NO and ADP to inhibit further platelet aggregation

Question 33

how does thrombomodulin inhibit coagulation?

Answer 33

expressed by endothelial cells and binds thrombin, eliminating its coagulant effects and activating protein C which with protein S inactivates factors Va and VIIIa

Question 34

how does fibrinolysis inhibit coagulation?

Answer 34

breaks down the fibrin clot

Question 35

process of fibrinolysis

Answer 35

1) aggregated platelets secrete platelet derived growth factor beta (PDGF-beta)
2) PDGF-beta recruits fibroblasts from surrounding tissue
3) fibroblasts form scar tissue at the site of damage
4) simultaneous with healing - clot is dissolved by a fibrinolytic enzyme called plasmin

Question 36

how is plasminogen activated?

Answer 36

by tissue plasminogen activators (t-PA) secreted by endothelial cells

plasminogen –> plasmin

plasmin degrades fibrin and clot dissolves

Question 37

disorders of haemostasis

Answer 37

• haemorrhage
• thrombosis
• platelet disorders
• haemophilia

Question 38

what is a haemorrhage?

Answer 38

haemostasis can only cope with damage to smaller blood vessels

leads to bruising (contusion)
• black/blue marks of a bruise caused by internal bleeding
• colours are due to degradation of haemoglobin to biliverdin, bilirubin and heamosiderin
• eventually removed by plasmid and phagocytosis

Question 39

what is a thrombus?

Answer 39

blood clot within a vessel or the heart

Question 40

what is an embolus?

Answer 40

detached mass able to travel in a vessel

solid, liquid or gas

Question 41

what is an embolism?

Answer 41

the lodging of an embolus

Question 42

what is a thrombocytopenia-embolism?

Answer 42

blockage by a thrombus that has travelled

Question 43

what factors contribute to thrombis?

Answer 43

blood stasis - e.g. DVT

changes in the vessel wall - injury/inflammation

thrombogenic changes in the blood

Question 44

what are some acquired disorder of haemostasis?

Answer 44

hepatic disease
• lack of fibrinogen and thrombopoetin

vitamin K deficiency
• vit K required for Ca++ binding

drug induced

Question 45

what are anticoagulants?

Answer 45

medicines that help prevent blood clots

used where theres an increased risk of clot formation

Question 46

where is there an increased risk of clot formation?

Answer 46

• atrial fibrillation
• aortic valve replacement
• recent surgery that limits motility
• autoimmune disease attacking blood vessel walls

Question 47

what is warfarin?

Answer 47

• most widely prescribed oral anticoagulant

* inhibits vitamin K

Question 48

what drugs interfere with warfarin action?

Answer 48

potentiators: aspirin, broad-spectrum antibiotics
inhibitors: barbiturates

Question 49

what is heparin?

Answer 49

• endothelial cell-derived polysaccharide
• given by injection as not absorbed through the gut
• binds to the inhibitor anti-thrombin III

Question 50

what are some coagulation disorders?

Answer 50

• von Willebands disease
• haemophilia A
• haemophilia B

Question 51

von Willeband’s disease

Answer 51

• lack of vWF
• leads to poor platelet aggregation
• associated with excessive gum bleeding
• autosomal dominant
• mild

Question 52

haemophilia A

Answer 52

• deficiency in factor VIII

* X-linked recessive disorder

Question 53

haemophilia B

Answer 53

• deficiency in factor IX
• also known as ‘Christmas disease’
• excessive bleeding