Blood

Question 1

How much of the blood is plasma?

Answer 1

55%

Question 2

How much of the blood is RBC?

Answer 2

45%

Question 3

How much of the blood is the buffy coat?

Answer 3

less than 1%

Question 4

What is the buffy coat made up of?

Answer 4

leukocytes and platelets

Question 5

What do macrophages differentiate from?

Answer 5

Monocytes

Question 6

What do basophils, eosinophils, neutrophils and monocytes differentiate from?

Answer 6

Myeloblasts

Question 7

Where does haematpoeisis occur?

Answer 7

Bone marrow

Question 8

Where does haematopoeisis occur in an embryo?

Answer 8

Yolk sac then liver and spleen

Question 9

What is the lifespan of RBC?

Answer 9

120 days

Question 10

What is the life span of white blood cells?

Answer 10

6 hours

Question 11

What is the lifespan of platelets?

Answer 11

7-10 days

Question 12

What are old/dying cells removed by?

Answer 12

Spleen

Question 13

What stimulates and controls blood cell production?

Answer 13

Hormones

Red cells: erythropoietin (EPO)
White cells: granulocyte colony stimulating factor (GCSF)
Platelets: thrombopoietin (TPO)

Question 14

What is erythropoietin?

Answer 14

a hormone produced by the kidney that promotes the formation of red blood cells by the bone marrow. The kidney cells that make erythropoietin are sensitive to low oxygen levels in the blood that travels through the kidney

Question 15

What shape is RBC?

Answer 15

biconcave disc

Question 16

What does haemoglobin carry?

Answer 16

Oxygen

Question 17

How many RBC in blood?

Answer 17

4x10^12/L

Question 18

What is a polycythaemia?

Answer 18

Increase in red cells:
Raised erythropoietin
Hypoxia

Reduction in plasma volume:
Dehydration
Smokers

Question 19

What are platelets made from?

Answer 19

Megakaryocytes in bone marrow

Question 20

What is the normal platelet range?

Answer 20

140-400x10^9/L

Question 21

What is the condition called for low platelets?

Answer 21

thrombocytopenia

Platelets <80 increased risk of bleeding
Platelets < 20 spontaneous bleeding / bruising

Question 22

What is the condition called for high platelets?

Answer 22

thrombocytosis

Increased rates of arterial and venous thrombosis

Question 23

What do neutrophils do?

Answer 23

Phagocytose and kill bacteria

Increased in bacterial infections (neutrophilia)

Release cytokines which cause inflammatory response eg temperature

Question 24

What do coagulation factors convert?

Answer 24

Convert soluble fibrinogen into insoluble fibrin polymer

Question 25

What are the 2 most important systems of red cell antigens?

Answer 25

ABO and Rhesus

Question 26

What are the Rhesus blood groups?

Answer 26

Complex system of C, D and E antigens

D is the most important

Question 27

Why is anti-D important?

Answer 27

pregnant women given anti D to prevent sensitisation. The anti-D immunoglobulin neutralises any RhD positive antigens that may have entered the mother’s blood during pregnancy. If the antigens have been neutralised, the mother’s blood won’t produce antibodies.

Rhesus disease can largely be prevented by having an injection of a medication called anti-D immunoglobulin. This can help to avoid a process known as sensitisation, which is when a woman with RhD negative blood is exposed to RhD positive blood and develops an immune response to it.

Question 28

What are the indications of blood transfusion?

Answer 28

Hypovolaemia due to blood loss

Severe anaemia with symptoms due to inadequate tissue oxygenation (transfusion trigger often = 80 g/L)

Anaemia that cannot be corrected by bone marrow function

Question 29

When is blood transfusion not indicated?

Answer 29

Not indicated for iron deficiency or B12/ folate deficiency.
Not indicated for minor blood loss, especially if fit and healthy
Not indicated for asymptomatic anaemia

Question 30

What are the risks of a blood transfusion?

Answer 30

ABO incompatibility reaction – can be rapidly fatal
Delayed transfusion reactions
Fever, hives
Fluid overload, pulmonary oedema

Infections:
Bacterial
Viral (HIV, hepatitis B and C)
Malaria
Prions (vCJD)

Long term – iron overload: damage to heart, liver

Question 31

What cells does HIV invade?

Answer 31

CD4 cells

Question 32

What is leukaemia?

Answer 32

Malignancy of (white) blood cells

Acute leukaemia: proliferation of immature cells without differentiation

Chronic leukaemias: proliferation with differentiation

Question 33

What are the symptoms of leukaemia?

Answer 33

Anaemia (fatigue, pallor)
Neutropenia (infections)
Thrombocytopenia (bleeding & bruising)

Question 34

Which cells does acute myeloid leukaemia affect?

Answer 34

Myeloblast

Question 35

Which cells does acute lymophoblastic leukaemia affect?

Answer 35

Common lymphoid progenitor

Question 36

Which cells do chronic myeloid leukaemia affect?

Answer 36

Megakaryocyte
basophil
neutrophil
eosinophil
monocyte

Question 37

Which leukaemia primarily affects children?

Answer 37

Acute lymphoblastic leukaemia - chemo 2-3 years

Question 38

What is the treatment for acute myeloid leukaemia?

Answer 38

High dose chemo, possible bone marrow transplant

Question 39

What causes chronic myeloid leukaemia?

Answer 39

Translocation between chromosomes 9 and 22

Forms “Philadelphia” chromosome

Question 40

What is the treatment for chronic myeloid leukaemia?

Answer 40

Targeted therapy (tablets)
Imatinib
Survival – similar to general population

Question 41

What is the treatment for chronic lymphocytic leukaemia?

Answer 41

Gentle, outpatient chemotherapy
More targeted oral treatments becoming available
Survival – several decades

Question 42

What causes chronic lymphocytic leukaemia?

Answer 42

Proliferation of mature lymphocytes (usually B cells)

Question 43

What is lymphocytosis?

Answer 43

a high lymphocyte count, is an increase in white blood cells called lymphocytes.

Question 44

What is lymphoma?

Answer 44

Malignancy of lymphoid cells, predominantly in lymph nodes

Question 45

What are the two types of lymphomas?

Answer 45

Hodgkin’s lymphoma

Non Hodgkin lymphoma

Question 46

How is high grade lymphoma treated?

Answer 46

Aggressive, acute, treat with chemotherapy / curable

Question 47

How is low grade lymphoma treated?

Answer 47

Chronic, indolent, may not require treatment / incurable

Question 48

What is a Myeloma?

Answer 48

Malignant proliferation of plasma cells

Produces monoclonal immunoglobulin (paraprotein)

Question 49

What are the clinical features of myeloma?

Answer 49

Calcium (hypercalcaemia – bone pain, constipation)

Renal failure

Anaemia

Bone lesions (lytic lesions, fractures, pain)

Question 50

What is the treatment for myeloma?

Answer 50

Treatment – outpatient, mainly oral chemotherapy

Question 51

What are the two methods of creating an intravascular solid?

Answer 51

Coagulation - protein level

Platelets - cellular level

Question 52

What are the 2 pathways of coagulation?

Answer 52

Intrinsic pathway

Extrinsic pathway

coalesce to form same final common pathway

Question 53

What is the intrinsic pathway triggered by?

Answer 53

Negatively charged molecules from endothelial trauma (phospholipids released into blood) and factor XII (9) - this activates coagulation on the inside of the vessel

Question 54

What is the extrinsic pathway triggered by?

Answer 54

Blood starts leaking out - comes into contact with subendothelial tissue just under endothelial layer, which contains collagen that activates the extrinsic pathway

Question 55

What reaction happens at the end of the coagulation cascade

Answer 55

FIbrongen –> fibrin by an enzyme

Question 56

Which test measures the extrinsic pathway and the final common pathway?

Answer 56

Prothrombin time -PT

INR - international normalised time

Question 57

Which test measures the intrinsic pathway and the final common pathway?

Answer 57

APTT - activated partial thromboplastin time

Question 58

How is blood stopped from coagulating when taking it to measure it? and how is this reversed in the lab?

Answer 58

Blood collected in CITRATE - lemon juice

this chelates Ca2+ (removes)

Ca2+ is clotting factor IV; required for both intrinsic and extrinsic pathways

In lab, an excess of Ca2+ is added to overcome citrate and then other things are added to activate either extrinsic or intrinsic pathway
tissue factor for extrinsic
phospholipid for intrinsic

Question 59

How is prothombin time measured?

Answer 59

Tissue factor added to blood sample in lab, and time how long to clot

Measure factors I, II, VII and X (1, 2, 7, 10) - 2, 7, 9, 10 - inhibited by warfarin

Question 60

What is INR?

Answer 60

Patient’s PT: normal PT

Under specific laboratory conditions - 25 degree c at sea level etc
Used to assess Warfarin’s effect

INR of 2 - patient’s extrinsic pathway of coagulation is twice as long under specific laboratory condition

Question 61

What is APTT?

Answer 61

Activated Partial Thromboplastin Time
Phospholipid, silica & Ca2+ added to sample

Time how long to clot formation
- measure intrinsic and final common pathway

• measures factors I, II, V, VIII, IX, X, XI, XII
  2, 9, 10 - warfarin also affects APTT but not measured
  VIII (8) and IX deficiency (9) - haemophilia

Question 62

Which factors that are deficient cause haemophilia?

Answer 62

VIII (8) and IX deficiency (9) - haemophilia - prolonged APTT, normal PT

Question 63

What are the causes of haemostatic problems?

Answer 63

Congenital bleeding disorders:
- Haemophilia - A = factor 8 deficiency VII
B - factor 9 deficiency IX
(increased APTT)

• von willebrand’s - shortage of VWBF which are important in platelet adhesion - which increases bleeding time (marker of platelet function), VWBF binds to factor 8 and stops it being broken down in the blood which causes increased APTT

Acquired bleeding disorders:
- medical conditions:
Liver:
- cancer. cirrhosis/jaundice, paracetamol overdose (PT is the first marker of the failing liver)

Kidney:

• related to platelet function not number
• prolonged bleeding time
• will be on heparin (blood thinner) during dialysis, if they need a tooth out, schedule for non-heparin day.

Cardiac (due to drugs…)

Cancer (due to drugs or myelosupression - bone marrow suppressed, RBC and platelets production lower)

ITP - immunothromboperpura, ITTP - idiopathic version of the above

• drugs:
• warfarin
  -aspirin
  -clopidogrel
  -heparin
  new, more predictable so don’t need regular weekly INR tests:
• dabigatran (direct thrombin inhibitor)
• rivaroxaban (directed activated factor X)

Question 64

Where are all vitamin K dependent coagulation factors produced?

Answer 64

In the liver

liver makes most coagulation factors - all vitamin K but other non vitamin K factors produced here too

Question 65

Where is aspirin first metabolised?

Answer 65

Liver - main therapeutic effect needs to be within hepatic portal vein before reaching liver because liver will take it out

Question 66

What is the reason for efficacy of aspirin?

Answer 66

Reason for efficacy is IRREVERSIBLE INACTIVATION of COX within platelets - platelet function is reduced

Lasts the life of the platelet

Reversal requires 7 days of discontinuation

Question 67

What is the simplified Arachidonic acid pathway?

Answer 67

arachidonic acid is metabolised into other things in inflammation e.g. leukotrienes - attracts wbc

metabolisd into prostaglandins via COX 1, 2, 3- pain and regulated gastric regulation

metabolised into thromboxane A2, TXA2 - platelet aggregating factor attracts other platelets, if blocked irreversibly, then antiplatelet effect

Question 68

What does vitamin K do to factors 2, 7, 9, 10 and Protein C and S?

Answer 68

Activates them when vitamin K changes to vitamin K epoxide

vitamin K is co-factor for this reaction

then vitamin K epoxide turns back to vitamin K via vit K epoxide reductase

warfarin blocks vit K epoxide turning back so factors aren’t becoming active - coagulated state

A lot of vitamin K can reverse effects of warfarin to drive reaction forward and produce more active factors

Question 69

What does heparin bind to?

Answer 69

Binds to and activates antithrombin III - this molecules blocks factor 10 and 2

Question 70

What chemical reverses heparin?

Answer 70

protamine sulphate

Question 71

How does clopidogrel work?

Answer 71

Affects platelet function

it’s a P2Y 12 inhibitor - important receptor of the platelet

P2Y12 involved in platelet aggregation and linking to the fibrin meshwork

Question 72

How can you avoid haemorrhage in certain patients?

Answer 72

Warfarinised patient

• check INR within 72hrs of procedure
• INR <4 (if greater than 4, don’t take tooth out)
• avoid ID blocks where possible

Antiplatelets patient (aspirin, clopidogrel, dipyridamole)

• monotherapy - continue as planned
• if on multiple drugs, no evidence of increases bleeding risk but may consider hospital-based treatment

Haemophilia/VWB

• Liase with haematologist
• give DDAVP - for haemophilia A desmopressin
• Recombinant factor A - VIII/ B - IX
• mild may need no preoperative management
• Tranexamic acid - procoagulant afterwards

NOACS: SDCEP guidelines - exam question

• if 3 more more teeth, or if surgical extraction carry on as normal
• once a day med - stop on morning of surgery, then take 4 hour after extraction
• twice a day med - generally omit morning dose

Question 73

What are the types of haemorrhage

Answer 73

Primary
– as soon as tooth is removed
– will be due to bleeding disorder or local cause

Reactionary
– not immediate, but within 48hrs of extraction
– ETOH, exercise, heat, anaesthetic wearing off

Secondary
- approximately 1 week after surgery, due to infection e.g. ENT

Question 74

What are the standard measures to achieve haemostasis in any tooth?

Answer 74

• firm pressure/ bite on gauze
• compress socket
• post-op instructions (reactionary haemorrhage)

Question 75

What are the 2 potential sources of bleeding after an extraction?

Answer 75

1. Bone - haemostatic pack in socket
2. Gingivae- suture

Do both

Question 76

What can you use to pack the bone?

Answer 76

Surgicel
- resorbable oxidised cellulose
helps clot form

Gelatin sponge
- absorbs up to 45 times own weight in blood
pressure tamponades bleed

Question 77

How does suturing help achieve haemostasis?

Answer 77

Will compress gingival blood supply, stemming soft tissue bleed

Also will act to prevent haemostatic pack from falling out

Question 78

How can you manage an ongoing bleed? (drugs)

Answer 78

Tranexamc acid

May need reversal of anticoagulant if possible

• warfarin - omit/vitamin K given
• Heparing - omit/protamine sulphate given

Need to weigh up against risks of thrombosis, and is actually very rarely done where INR has been correctly checked pre-op

Accept very small amount of oozing for a few days if known bleeding disorder

Question 79

What tests would you do if there was an ongoing bleed of an unknown cause?

Answer 79

• Coagulation screen/ bleeding time
• Full blood count (platelets)
• Factor assay

Question 80

How does aspirin have its effects?

Answer 80

Irreversible inhibits COX, preventing TXA2 formation and therefore platelet aggregation

Question 81

What blood test is INR a ratio of?

Answer 81

PT - prothrombin time

Question 82

Give 4 measure to deal with haemorrhage from a dental socket

Answer 82

Pressure/bite on gauze
stitch
pack
Tranexamic acid
Local anaesthetic injection - vasoconstriction adrenaline

Question 83

How is the action of warfarin reversed in a severe, life threatening event?

Answer 83

Vitamin K, 2-10mg

Question 84

How does DDAVP react?

Answer 84

Induces release of factor VIII from a vascular endothelia into circulation

Question 85

What other names are there for DDAVP?

Answer 85

Desmopressin
Synthetic vasopressin
Synthetic ADH