haemostasis

Question 1

where is blood from and significance

Answer 1

human source (no synthetics yet), not risk free

Question 2

why is blood used carefully

Answer 2

scarce resource (1 donor gives 1 pint every 4 months, and has shelf life of 5 weeks)

Question 3

when is blood used and whose decision is it

Answer 3

balance between benefits and risk, so when no safer alternative is available; doctor’s decision and must prescribe

Question 4

2 situations when no safer alternatives are not available to blood

Answer 4

if massive bleeding, if “plain fluids” are not sufficient; if anaemic, if iron/B12/folate are not appropriate

Question 5

what is the most important of all blood groups in use for transfusion, and significance

Answer 5

ABO (cross match between donor and patient); should not die of ABO incompatible blood transfusion (human error still does)

Question 6

physiology of ABO blood groups

Answer 6

A and B antigens on red cell formed by adding one or other sugar residue onto common glycoprotein and fucose stem on red cell membrane; group O has neither A or B sugars (stem only), group AB has both A and B sugars

Question 7

how are ABO antigens determined

Answer 7

by corresponding genes

Question 8

what does A gene code for

Answer 8

enzyme which N-acetyl galactosamine to common glycoprotein and fucose stem

Question 9

what does B gene code for

Answer 9

enzyme which adds galactose to common glycoprotein and fucose stem

Question 10

what are A and B genes

Answer 10

codominant (e.g. for blood group A, could be AA or AO)

Question 11

what is O gene

Answer 11

recessive (e.g. for blood group A, could be AA or AO)

Question 12

what antibodies exist in humans concerning red cells

Answer 12

IgM, which are against any antigen not present on own red cells

Question 13

what type of antibody is IgM, and what it activates

Answer 13

naturally occurring (nearly from birth), and is “complete” antibody so fully activates complement cascade to cause haemolysis of red cells (forms membrane attack complex)

Question 14

when is antibody/antigen interaction often fatal

Answer 14

in patient who has received an ABO incompatible transfusion, where patient has corresonding antibody -> Hb (toxic to kidney), bilirubin (jaundice), cytokine storm (hypotension and shock)

Question 15

what do IgM antibodies do to corresponding antigens (e.g. when anti-A antibodies from group B patient are added to group of A cells), and what does it show

Answer 15

cause agglutination, showing cells are incompatible

Question 16

what blood group has no antigens on red cells, and consequently has 2 sets of anti-antibodies in blood

Answer 16

O (agglutinate to any transfusion except O; red cell blood transfusion can be given to anyone)

Question 17

what blood group has 2 antigens on red cells, and consequently has no anti-antibodies in blood

Answer 17

AB (so safe with any blood transfusion)

Question 18

how is ABO group known

Answer 18

test patient blood sample (plasma and cells) with known anti-A and anti-B reagents and see if it clumps;

Question 19

how is a cross match conducted to ensure compatibility

Answer 19

donor unit of same group selected, and patient’s serum mixed with donor red cells (should not react - if it agglutinates, it is incompatible)

Question 20

of the RH antigen groups, what is the most important and why

Answer 20

RhD, as next most immunogenic

Question 21

RhD positive vs RhD negative

Answer 21

RhD (DD or Dd) positive is if you have antigen, RhD negative (dd) if not

Question 22

genes for RhD groups

Answer 22

D codes for D antigen on red cell membrane, d codes for no antigen and is recessive

Question 23

naming combination of ABO and RhD groups

Answer 23

usually shortened, e.g. O positive means ABO group O and RH D positive

Question 24

when can RhD negative people make anti-D antibodies

Answer 24

after exposed to RhD antigen, either by transfusion of RhD positive blood, or in women if pregnant with RhD positive foetus

Question 25

what type of antibodies are anti-D antibodies

Answer 25

IgG

Question 26

anti-D antibodies implications for future transfusions

Answer 26

must have RhD negative blood, otherwise anti-D would react with RhD positive blood, causing delayed (5-10 days as IgG attach to red cells but can’t activate complement system as quickly - only when macrophages in spleen detect) haemolytic transfusion reaction (anaemia, high bilirubin, janudice etc.)

Question 27

anti-D antibodies implications for haemolytic disease of newborn (HDN)

Answer 27

if RhD negative mother has anti-D and in next pregnancy, foetus is RhD positive, mother’s IgG anti-D antibodies can cross placenta, causing haemolysis of foetal red cells (if severe, hydrops fetalis as foetus as anaemic so heart failure; death by brain damage due to bilirubin staining); prevent sensitisation by giving anti-D injections during delivery so doesn’t mount anti-D response against foetus

Question 28

RhD group importance

Answer 28

avoid Rh D negative patients making anti-D

Question 29

how do you avoid Rh D negative patients making anti-D

Answer 29

transfuse blood of same RhD group (no harm to give RhD neg to a positive patient, just wasteful); O neg used as emergency when blood group not known

Question 30

other Rh antigen red cell groups which are not routinely matched

Answer 30

C, c, E, e, Kell, Duffy, Kidd

Question 31

once antibodies have formed to another antigen red cell group following transfusion, what must be done

Answer 31

use corresponding antigen negative blood, or else risk delayed haemolytic reaction

Question 32

how is it known if a patient will need antigen negative blood

Answer 32

test patient’s blood sample for red cell antibodies before each transfusion episode (using donor screening (and cross match) for ABO and RhD, then an “antibody screen” of plasma)

Question 33

what is 1 unit of blood collected into

Answer 33

bag containing anticoagulant

Question 34

why is whole blood not routinely given to patients (2 things)

Answer 34

more efficient (less waste as patients don’t need all components), some componenets degrade quickly if stored as whole blood

Question 35

how are red cells concentrated and what does this avoid

Answer 35

plasma removed, avoiding fluid overloading patients

Question 36

how are blood components separated

Answer 36

split one unit of blood by centrifuging whole bag (red cells bottom, platelets (and white cells) middle, plasma top), then squeeze each layer into satellite bags and cut free with heat seal (closed system to prevent bacteria)

Question 37

3 ways plasma is stored

Answer 37

FFP (fresh frozen plasma - contains all coagulation factors), cryoprecipitate (rich source of FVIII and fibrinogen), plasma for fractionation (not UK)

Question 38

what is plasma fractionated into

Answer 38

albumin, FVIII, FIX, immunoglobulins, anti-D etc.

Question 39

shelf life and storage of red cells

Answer 39

1 unit from 1 donor stored as packed cells (fluid plasma removed), with a shelf life of 5 weeks and stored at 4 degrees celsius in fridge

Question 40

how are red cells given

Answer 40

through a blood giving set which has a filter to remove clump/debris

Question 41

when would you need frozen red cells (national frozen bank), and disadvantage

Answer 41

only for rare groups/antibodies; poor recovery on thawing (add glycerol to prevent ice crystals)

Question 42

shelf life and storage of FFP (fresh frozen plasma)

Answer 42

1 unit from 1 donor (300ml) stored at -30 degrees celsius (frozen within 6 hours of donation to preserve coagulation factors), with a shelf life of 2-3 years

Question 43

how is FFP given and dose

Answer 43

must thaw approx 20-30 minutes before use (at room temperature, as if too hot, proteins cook); give ASAP (within 1 hour) otherwise coagulation factors degenerate at room temperature; dose 12-15ml/kg (usually 3 units)

Question 44

what must be known to give FFP and why

Answer 44

blood group (no cross match just choose same group, as contains ABO antibodies which could cause some haemolysis)

Question 45

when is FFP given (3 occasions)

Answer 45

if bleeding (or about to in surgery) and abnormal coagulation test results (PT, APTT), reversal of warfarin (anticoagulant), other conditions (not just to replace volume or fluid loss - use saline etc.)

Question 46

what must be done after giving FFP if bleeding and abnormal coagulation test results (PT, APTT)

Answer 46

monitor response (clinically and by coagulation tests)

Question 47

example of when using FFP to reverse effects of warfarin (anticoagulant inhibiting FII, FVII, FIX and FX)

Answer 47

for urgent surgery if PCC (concentrate of FII, FVII, FIX and FX) not available

Question 48

what is cryoprecipitate from

Answer 48

from frozen plasma thawed at 4-8 degrees celsius overnight residue remains

Question 49

what does cryoprecipitate contain

Answer 49

fibrinogen and FVIII

Question 50

shelf life and storage of cryoprecipitate

Answer 50

same as FFP, store at -30 degrees celsius for 2 years

Question 51

standard dose of cryoprecipitate

Answer 51

from 10 donors, with 5 in a pack

Question 52

2 times when you would use cryoprecipitate

Answer 52

if massive bleeding and very low fibrinogen, rarely hypofibringaemia

Question 53

standard adult dose of platelets

Answer 53

1 pool from 4 donors, or from 1 donor by apheresis (cell separator machine)

Question 54

storage and shelf life of platelets

Answer 54

store at room temperature (22 degrees celsius) and constantly agitate to prevent clumping; shelf life of 5-7 days (risk of bacterial infection) so run out first

Question 55

what must be known to transfuse platelets

Answer 55

blood group (no cross match as platelets have low levels of ABO antigens, so wrong group would cause platelets to be destroyed more quickly, or haemolysis of some of patient’s red cells; can also cause RhD sensitisation as some red cell contamination)

Question 56

4 times when you would use platelets

Answer 56

haematology patients with bone marrow failure causing low platelets, massive bleeding or acute disseminated intravascular coagulation, if very low platelets and patients needs surgery, if for cardiac bypass and patient on anti-platelet drugs

Question 57

large pool of fractionated plasma products: what are FVIII and FIX used for

Answer 57

haemophilia A and B respectively (males), FVIII for von Willebrand’s disease

Question 58

large pool of fractionated plasma products: how are FVIII and FIX treated and why

Answer 58

heat treated for viral inactivation; recombinant FVIII or FIX alternatives increasingly used but expensive

Question 59

large pool of fractionated plasma products: IM

Answer 59

specific antibodies collected to treat tetanus, anti-D or rabies; normal globulin - broad mix in population

Question 60

large pool of fractionated plasma products: IVIg

Answer 60

pre-op in patients with ITP or AIHA

Question 61

large pool of fractionated plasma products: when is albumin used (4.5% and 20%)

Answer 61

4.5% useful in burns and plasma exchanges, 20% (salt poor) used for certain severe liver and kidney conditions only

Question 62

how are donors screened

Answer 62

by testing for some infections, by questioning for risk behaviour to exclude them, by questioning to exclude donors posing risk to themselves (e.g. heart problems)

Question 63

examples of infections blood must be tested for

Answer 63

Hep B, C and E, HIV, HTLV, syphilis, CMV, other viruses; most by antibody testing or PCR

Question 64

why cannot donors rely on testing

Answer 64

window period of infections so test will not show positive, so must exclude high risk donors (e.g. IV drug injecting; if risk in group is >1% would double transmission of disease) and use voluntary, unpaid donors

Question 65

what disease can be transmitted by blood transfusion

Answer 65

prion disease vCJD

Question 66

2 precautions to avoid prion disease vCJD transmission

Answer 66

all plasma pooled to make fractionated products now obtained from USA (in UK plasma, some used for FFP and rest thrown away), all blood components have white cells filtered out (leucodepleted) as essential for uptake of vCJD prion into brain to cause disease

Question 67

what does the fingerprick test of the donor estimate

Answer 67

Hb (not iron)

Question 68

if O positive and AB positive parents, what ABO groups can children not be

Answer 68

O positive or AB positive

Question 69

if patient is B positive, which blood could kill them

Answer 69

A positive and negative