Transfusion Medicine

Question 1

What are the 3 main components of the blood used in transfusion?

Answer 1

1. Red blood cells
2. Platelets
3. Plasma

Question 2

What happens to whole blood before it can be processed to be used in transfusion?

Answer 2

Leucodepletion

whole blood is filtered before further processing to remove white cells

Question 3

What are the 3 transfusion products taken from plasma?

Answer 3

Fresh frozen plasma

cryoprecipitate

fractionation

for factor concentrates (FVIII, FIX, prothrombin complex), albumin, immunoglobulin

Question 4

What is cryoprecipitate?

Answer 4

A frozen blood product prepared from blood plasma

fresh frozen plasma is thawed at 1-6 oC and then centrifuged to collect the precipitate

Question 5

What should be considered before a transfusion is given?

Answer 5

Consider alternatives to transfusion to conserve the blood supply and increase patient safety by avoiding clinically non-essential exposure to donor blood

Question 6

What is the composition of 1 unit of RBC (1 unit transfusion) like?

What is the haemocrit?

How much will it raise Hb by?

Answer 6

Most of the plasma is removed to leave “concentrated red cells”

It has a haemocrit of 60%

1 unit transfusion is expected to raise Hb by 10 g/L

Question 7

What is meant by “haemocrit”?

Answer 7

The ratio of the volume of red blood cells to the total volume of blood

Question 8

What is plasma replaced by in 1 unit of RBC?

How much iron does 1 unit contain?

Answer 8

Plasma is replaced by a solution of electrolytes, glycose and adenine to keep the red cells healthy during storage

one unit of packed red blood cells contains 200-250 mg of iron

Question 9

How should 1 unit of RBC be stored?

What is the volume of the unit?

Answer 9

It is stored at 4^oC for up to 35 days from collection

the volume of 1 unit is 280 +/- 60 ml

Question 10

What is the therapeutic dose of 1 unit of RBC?

What is usual transfusion time?

Answer 10

Therapeutic dose is 10-20 ml/kg

usual transfusion time is 1.5 - 3 hours

there is a 4 hour limit from removal from cold storage to the end of the transfusion

Question 11

Why are red blood cells transfused?

What are the 3 most common indications?

Answer 11

They are transfused to restore oxygen carrying capacity

common indications include:

• significant bleeding
• acute anaemia
• chronic anaemia

Question 12

Based on NICE guidance what is involved in the decision to transfuse in bleeding and anaemia?

Answer 12

Bleeding:

• based on the volume of blood loss

anaemia with severe symptoms:

• until symptoms resolve (but not > 100 g / L)

acute anaemia with mild symptoms:

• < 70 g/L for patients without cardiovascular disease
• < 80 g/L for patients with cardiovascular disease

chronic anaemia:

• individualised transfusion plans

Question 13

For what types of anaemia should alternatives to transfusions be used?

Answer 13

For any treatable causes of anaemia

• iron deficiency
• B12 and folate deficiency
• erythropoietin treatment for patients with renal disease

Question 14

What are the 2 different types of platelets that are transfused?

Answer 14

• Pooled platelets
• Apheresis platelets

Question 15

How are pooled platelets collected?

Answer 15

1 unit of platelet is produced from a unit of whole blood

4-6 of these units (from different donors) are pooled together in a single pack

Question 16

What is the benefit to using pooled platelets?

Answer 16

Less allergic reactions because they contain less plasma

Question 17

How are apheresis platelets collected?

Answer 17

Platelets are removed through an apheresis machine that collects platelets and returns all other blood constituents to the donor

the amount of platelets collected with this procedure represents the equivalent of 4-6 units of random donor platelets

Question 18

What is the benefit to using apheresis platelets?

Answer 18

There is less exposure to infective agents as all the platelets are derived from one donor

Question 20

What is the adult therapeutic dose of platelets?

What is the platelet count per dose?

Answer 20

a pool of 4-6 donations or a single apheresis donation

platelet count per dose is 3 x 10¹¹

this is expected to raise platelets by 20-60 x 10⁹ / L

Question 21

How are platelets stored?

What is the volume of the dose and what is the shelf-life?

Answer 21

stored at room temperature (22oC) on an agitator

the shelf-life is 5 days from collection

volume is 250-350 ml

Question 22

What is the usual transfusion time for platelets?

Answer 22

30 mins / unit

Question 23

What is the limiting factor for the shelf life of platelets?

Answer 23

the risk of contamination by bacteria from the donor’s arm that grow at the conditions of storage (22oC)

this can be transmitted to the recipient

Question 24

Why are platelets transfused?

Answer 24

• to treat bleeding due to severe thrombocytopenia (low platelets) or platelet dysfunction
• to prevent bleeding in patients with thrombocytopenia or platelet dysfunction

Question 25

According to NICE guidance, what influences the decision to transfuse in the treatment of bleeding?

Answer 25

massive haemmorrhage:

• maintain platelet count > 50 x 10⁹ / L

critical site bleeding:

• in the CNS
• maintain platelet count > 100 x 10⁹ / L

other clinical significant bleeding:

• maintain platelet count > 30 x 10⁹ /L

Question 26

According to NICE guidance, when should a transfusion be performed in the prevention of bleeding?

Answer 26

bone marrow failure:

• platelet count < 10 x 10⁹ / L
• or < 20 x 10⁹ / L if there is an additional risk e.g. sepsis

prophylaxis for surgery:

• most major surgeries - < 50 x 10⁹ / L
• CNS or eye surgery - < 100 x 10⁹ / L

Question 27

What are the 3 main contraindications for blood transfusion?

Answer 27

• immune thrombocytopenic purpura
• thrombotic thrombocytopenic purpura
• heparin induced thrombocytopenia and thrombosis

Question 28

What is contained within fresh frozen plasma (“ 1 unit of FPP” )?

Answer 28

FFP contains all clotting factors at physiological levels

the therapeutic dose is 12-15 ml / kg

this is 4-6 units for the average adult

Question 29

How is fresh frozen plasma stored?

What is the volume of 1 unit?

Answer 29

it is stored at -30oC for up to 36 months

the volume of 1 unit is 300ml

Question 30

What is the usual transfusion time for fresh frozen plasma?

What happens immediately before use?

Answer 30

usual transfusion time is 30 mins / unit

it is thawed immediately before use (takes 20-30 mins)

6 hours after thawing, the levels of labile factors V and VIII begin to diminish

Question 31

When should FPP be transfused?

Answer 31

to replace clotting factors in patients with multiple factor deficiencies (acquired coagulopathies)

• to treat significant bleeding in patients with abnormal clotting results
• to correct abnormal clotting results prior to invasive procedures

Question 32

When should FPP NOT be transfused?

Answer 32

• to treat single factor deficiencies
• to correct abnormal clotting results in patients that are not bleeding
• to reverse warfarin

Question 33

What is used in the reversal of warfarin anticoagulation?

Answer 33

prothrombin complex concentrate

(factor IX complex)

contains high concentrations of vitamin K - dependent factors II, VIII, IX and X

Question 34

What is cryoprecipitate and what does it contain?

Answer 34

cryoprecipitate is extracted from FFP during the thawing process

it contains fibrinogen, von Willebrand, factor VIII, factor XIII

Question 35

What is the therapeutic dose of cryoprecipitate?

Answer 35

10 - 15 ml / kg

this is 6-10 units

Question 36

How should cryoprecipitate be stored?

What is the volume per unit?

Answer 36

stored at -30oC

has a shelf life of 3 years as it is frozen

volume per unit - 15ml

Question 37

When is cryoprecipitate used?

Answer 37

it is mainly used as a concentrated source of fibrinogen in acquired coagulopathies

i.e. massive haemorrhage, DIC

Question 38

According to NICE, when should cryoprecipitate be used in the treatment and prevention of bleeding?

Answer 38

treatment of bleeding:

• maintain fibrinogen > 1.5 g/L

prevention of bleeding:

• maintain fibrinogen > 1 g/L

Question 39

What are the 2 categories of complications of transfusion?

Answer 39

1. immunological
2. non-immunological

Question 40

When will acute and delayed reactions present after transfusion?

Answer 40

acute reactions present < 24 hours post transfusion

delayed reactions present > 24 hours post transfusion

Question 41

What are the non-immunological complications of transfusion?

Answer 41

• transfusion transmitted infections e.g. viral / prion / bacterial
• transfusion associated circulatory overload (TACO)
• febrile non-haemolytic transfusion reaction (FNHTR)
• iron overload

Question 42

What are examples of transfusion transmitted infections?

Answer 42

• HIV
• Hepatitis B / C virus
• parvovirus 19
• hepatitis E / A
• cytomegalovirus

Question 43

How are viral transfusion tested infections prevented?

Answer 43

through a donor questionnaire and mandatory testing

e.g. anti-HIV 1 and 2 and HIV NAT (nucleic acid testing)

Question 44

What usually results from prion transfusion transmitted infection?

How can this be prevented?

Answer 44

variant Creutzfeldt-Jakob disease (CJD)

prevention:

• universal leucodepletion
• import plasma from countries with low incidence of vCJD
• inactivate prions with methylene blue

Question 45

When may blood components be contaminated by bacteria?

Answer 45

• bacteria from the donor’s skin during collection
• unrecognised bacteraemia in the donor
• contamination from the environment
• the risk increases with storage after donation

Question 46

How many platelets contain detectable bacteria after transfusion?

Answer 46

1 in 2,000 platelets contain detectable bacteria 5 days after donation

the majority are skin contaminants and are non-pathogenic

Question 47

What is the onset of severe infection following bacterial contaminated components?

What are the signs and symptoms?

Answer 47

onset:

• severe reactions may occur early in the transfusion, within first 15 mins

signs and symptoms:

• rigors
• high fever
• severe chills
• hypotension
• nausea and vomiting
• dyspnoea
• circulatory collapse

Question 48

What is involved in the prevention of bacterial infection during transfusion?

Answer 48

bacterial screening cultures of all platelets

Question 49

What causes febrile non-haemolytic transfusion reactions (FNHTR)?

Answer 49

FNHTR are due to cytokines or other biologically active molecules that accumulate during storage of blood components

Question 50

What is the incidence of febrile non-haemolytic transfusion reactions (FNHTR)?

How can they be resolved?

Answer 50

incidence:

• 10-30% after a platelet transfusion
• 1-2% after a RBC transfusion

they are unpleasant but not life threatening

it resolves after discontinuation of transfusion

Question 51

What are clinical features of febrile non-haemolytic transfusion reactions (FNHTR)?

Answer 51

• rise of temperature > 1oC from baseline
• +/- rigors
• +/- tachycardia

Question 52

What is the onset of transfusion associated circulatory overload (TACO) like?

How can it be prevented?

Answer 52

the onset occurs up to 24 hours after a transfusion

it can be prevented by following guidance on volume and rate of transfusion for each component

Question 53

What are the symptoms and signs of transfusion associated circulatory overload (TACO)?

Answer 53

symptoms:

• sudden dyspnoea
• orthopnoea
• tachycardia
• hypertension
• hypoxemia

signs:

• raised blood pressure
• elevated jugular venous pulse

Question 54

What is meant by hypoxemia?

Answer 54

an abnormally low level of oxygen in the blood

it can cause tissue hypoxia as the blood is not supplying enough oxygen to the body

Question 55

What are the risk factors for transfusion associated circulatory overload (TACO)?

Answer 55

• elderly patients
• small children
• paients with compromised left ventricular function
• large transfusion volume
• increased rate of transfusion

Question 56

What are the main immunological complications of transfusion?

Answer 56

• acute haemolytic transfusion reaction due to incompatibility
• delayed haemolytic reaction
• post transfusion purpura
• allergic / anaphylactic reaction
• transfusion-related acute lung injury (TRALI)
• transfusion-associated graft-versus-host disease (TA-GvHD)

Question 57

What is acute haemolytic reaction due to?

Answer 57

it is due to transfusion of red blood cells to a recipient that has preformed antibodies against antigens that are expressed on the transfused RBC

this is most often ABO incompatibility

Question 58

How can acute kidney injury result from free haemoglobin?

Answer 58

tubular deposition of haemoglobin causes oxidative damage to renal cells

this causes acute kidney injury

Question 59

How can elevated free haemoglobin levels influence endothelial cells?

Answer 59

• elevated free Hb leads to nitric oxide depletion
• this influences endothelial cells and causes vasoconstriction, hypertension and angina
• it also causes endothelial cells to release a cytokine shower and to express pro-coagulant molecules

Question 61

What is the result of endothelial cells releasing a cytokine shower?

Answer 61

fever, rigors and hypotension

Question 62

What happens if endothelial cells express pro-coagulant molecules?

Answer 62

the clotting cascade is activated

this leads to disseminated intravascular coagulation and bleeding

Question 63

Overall, what are the clinical symptoms of increased free haemoglobin?

Answer 63

• vasoconstriction, hypertension, angina
• fever, rigors, hypotension
• bleeding
• acute kidney injury

Question 64

What is the onset of the acute haemolytic reaction due to incompatibility like?

Answer 64

• severe reactions occur early in the transfusion , within the first 15 mins
• milder reactions occur later on but usually before the end of the transfusion
• this is fatal in 20-30% of cases

Question 65

What are the signs and symptoms of acute haemolytic reaction due to incompatibility?

Answer 65

• fever and chills
• back pain
• infusion pain
• hypotension / shock
• haemoglobinuria (may be first sign in anaesthetised patients)
• increased bleeding (DIC)
• chest pain
• sense of “impending death”

Question 66

How can acute haemolytic reaction due to incompatibility be prevented?

Answer 66

by screening patients to identify their blood group

Question 67

What is involved in the pre-transfusion testing on patients?

Answer 67

this is done to determine ABO or Rh(D) group

the patient’s plasma is screened for antibodies against other clinically significant blood group antigens

the test is either positive or negative

Question 68

What happens if the pre transfusion testing on patients is postive or negative?

Answer 68

negative:

• no further testing

positive:

• antibody identification
• involves testing a patient’s plasma against a panel of red cells containing all the clinically significant blood gorups

Question 69

What is meant by compatibility testing and when is it performed?

Answer 69

it is only performed for RBC transfusions

it is the final test before transfusion of RBCs

donor red cells of the correct ABO and Rh group and antigen negative for the antibodies detected in the screen are selected from the blood bank

crossmatching is then performed

Question 70

What is meant by crossmatching?

What are the consequences if it is positive and negative?

Answer 70

the patient’s plasma is mized with aliquots of donor red cells to see if a reaction (agglutination or haemolysis) takes place

no reaction:

• RBC units are compatible
• no risk of acute haemolysis

reaction:

• RBC units incompatible
• risk of acute haemolysis

Question 71

What is a delayed haemolytic reaction due to?

Answer 71

post-transfusion formation of new immune IgG antibodies against RBC antigens other than ABO

Question 72

What is the onset of delayed haemolytic reaction like?

What is the main test result that shows this?

Answer 72

onset is 3-14 days following a transfusion of RBCs

a direct and indirect antiglobulin test will be positive

Question 73

What are the clinical features and laboratory findings of delayed haemolytic reaction?

Answer 73

clinical features:

• fatigue
• jaundice
• and / or fever

laboratory findings:

• drop in Hb
• increased LDH (lactate dehydrogenase)
• increased indirect bilirubin

Question 74

What is the role of the direct anti-globulin test?

(Coomb’s test)

Answer 74

it detects antibodies that are bound on RBCs

Question 75

What causes allergic reactions after transfusion?

Answer 75

they are due to hypersensitivity of recipient to transfused “random” proteins

this is often after transfusion of components that contain plasma

e.g. FFP, cryoprecipitate, platelets

Question 76

What are the clinical features of allergic reactions following transfusion?

Answer 76

• rash, urticaria, pruritus
• +/- rigors and fever
• periorbital oedema (around the eyes)

Question 78

What is the onset of anaphylactic reaction like?

Which patients are more at risk?

Answer 78

onset is a severe, life-threatening reaction soon after transfusion starts

patients with IgA deficiency and anti-IgA antibodies are at higher risk

Question 79

What are the signs and symptoms of anaphylactic reaction?

Answer 79

• laryngeal oedema
• bronchospasm
• hypotension
• swelling

Question 80

What causes transfusion related acute lung injury (TRALI)?

Answer 80

it is a serious complication of transfusion

it is due to antibodies in the transfused unit against antigens expressed on the recipient’s leucocytes

it almost always complicates transfusion of plasma-rich components (platelets, FFP)

Question 81

What donor antibodies are involved in TRALI?

What happens when they react?

Answer 81

anti-HLA and anti-HNA

they react with antigens on the patient’s WBCs

the activated WBCs lodge in pulmonary capillaries

they release substances that cause endothelial damage and capillary leak

Question 82

What are the criteria for diagnosis of TRALI?

What is involved in prevention?

Answer 82

acute lung injury:

• hypoxemia
• new bilateral chest X-ray infiltrates
• no evidence of volume overload
• sudden onset of acute lung injury occurring within 6 hours of transfusion

prevention:

• plasma used in UK is only from male donors

Question 83

What are the 2 criteria that must be present in a diagnosis of TRALI?

Answer 83

1. presence of acute lung injury as defined by hypoxia, bilateral CXR infiltrates and the absence of circulatory overload
2. reaction occurs within 6 hours of transfusion