Transfusion Medicine - Karafin

Question 1

1. Minimum age to donate blood?
2. Minimum interval for whole blood donation?
3. How much blood is taken?

Answer 1

1. 16 years old
2. 8 weeks
3. 500 +/-50 mL

Question 2

What H&P findings are noted before a potential donor is allow to give blood?

Answer 2

1. Vitals
2. General appearance & that of venipuncture site
3. Medical history
4. Hemoglobin level
   
   • >12.5 (don’t need to know)

Question 3

Name three blood products derived from donated whole blood.

Answer 3

• Red cell components
• Platelet components
• Plasma

Question 4

Name four preservative compounds added to blood products to maintian the viability and function of cells, and what they do.

Answer 4

• Citrate
  
  • Anticoagulant
• Phosphate
  
  • Maintains 2,3-DPG levels
• Dextrose
  
  • For cell metabolism
• Adenine
  
  • For ADP/ATP production

Question 5

1. What happens to RBCs in storage over time?
2. What causes these effects?
3. How long do they last in storage before needing to be thrown out?

Answer 5

1. Change in shape - membrane blebbing, spherocytosis
2. Decrease in ATP, 2,3-DPG, & pH. Increased K⁺. Increased iron. Increased ROS.
3. ~42 days

Question 6

What are the three main components of processing/testing done on donated blood?

Answer 6

1. Infectious disease testing
2. ABO and Rh typing
3. Antibody screening

Question 7

What infectious agents are tested for in blood products?

What infection does a blood product recipient have the greatest risk of acquiring from the product?

Answer 7

• Hep B - greatest risk, currently at 1: 292,000 units
• Hep C
• HIV
• HTLV
• Syphilis
• West Nile
• Trypanosoma cruzi

All of the agents aside from Hep B have current risks less than 1: 1,000,000

Question 8

[Yes, this was emphasized.]

Who discovered the ABO blood grouping system and when?

Answer 8

K. Landsteiner, circa 1900

Question 9

In the ABO system, red cells and plasma follow (the same / opposite) rules of who can donate to whom. Therefore, the universal red cell donor is (Type O/Type AB), and the universal plasma donor is (Type O/Type AB).

Answer 9

Opposite.

The RBCs display the ABO antigens, while the plasma contains the antibodies.

Thus, Type O is the universal red cell donor (cells display no immunogenic antigens).

Type AB is the universal plasma donor (plasma contains no anti-A or anti-B Abs.)

Question 10

When someone is said to be Rh+, what antigen in specifc is being referred to?

Answer 10

Rh Antigen D.

D is the most important antigen as it is highly immunogenic, with an 80% sensitization risk with exposure.

Its presence/absence determines if a person is Rh+/Rh-, respectively.

Question 11

Name two ways in which an Rh- individual would develop Rh Abs, and the condition that could result in each of those circumstances.

Answer 11

1. Pregnancy
   
   • Hemolytic disease of the newborn - Abs cross the placental barrier
2. Transfusion
   
   • Hemolytic transfusion reaction

Question 12

Name some other blood group systems.

How are they tested for?

Answer 12

[Likely not important to memorize.]

• KELL
• DUFFY
• KIDD
• MNSs
• Lewis
• Lutheran

Tested for via antibody screening.

Question 13

1. What is the purpose of an Indirect Antiglobulin Test (IAT)?
2. How is the test done?

Answer 13

1. The IAT is used for Compatibility Testing (also RBC testing, Ab detection & ID). For compatibility purposes, it detects antibody in the patient’s serum.
2. Protocol (Compatibility):
   
   • The recipient’s serum is combined with donor RBCs.
     
     • If the serum contains anti-RBC Abs, they will bind the red cells.
   • A anti-isotypic secondary Ab is added that will bind the serum antibodies, if present, as well as cause aggregation and precipitation of the RBCs if they are donor Ab-bound.
   • A visible precipitate of RBCs is a positive test and indicates the donor’s plasma and recipient are incompatible.

Question 14

How can the IAT protocol be modified to act as an Ab screen, aka, detect antibodies within a patient’s serum?

Answer 14

• Test cells of a known phenotype (i.e., cells that express antigens for the suspected antibodies) with the patient’s serum.

Question 15

1. What is the purpose of a Direct Antiglobulin Test (DAT)?
2. How is the test done?

Answer 15

1. The DAT is useful for detecting **autoimmune-, drug-, or transfusion-induced hemolytic anemia **that is occuring in a paitent. It detects Ab attached to red cells in vivo.
2. Protocol:
   
   • Similar to the IAT, except here the “donor” Abs (which may indeed be from a mismatched donor, or could be autoimmune- or drug-induced) are already present on the patient’s red cells!
   • Simply add an anti-isotypic secondary Ab to a sample of the patient’s blood. If anti-RBC Abs are present on the red cells, they will precipitate out of solution, producing a positive test result.

Question 16

Name four causes of a positive DAT.

Answer 16

1. Autoimmune hemolytic anemia
2. Drug-induced hemolytic anemia
3. Hemolytic transfusion reaction
4. Hemolytic disease of the newborn

Question 17

Describe the steps of pre-transfusion testing that should occur to ensure matched donor and recipient.

Answer 17

• Acquire Pt blood sample: ABO typing & Ab screen
  
  • Ab screen neg: Select ABO compatible product
  • Ab screen pos:
    
    • Rub Ab ID panel
    • Select ABO compatible, antigen-negative product
• Perform crossmatch
  
  • Testing the **specific blood unit you chose **with the patients blood to double check for compatibility.
• Issue product

Question 18

Whole Blood

1. How much does a unit contain?
2. How long does a unit last?
3. In what conditions is it indicated?
4. What is the expected outcome?

Answer 18

Whole Blood

1. 500mL
2. 35 days
3. Hypovolemia with decreased O₂ carrying capacity
4. Raise Hb 1g/dl in an average adult

Question 19

Red Blood Cells

1. How much does a unit contain? What’s the Hct of the unit?
2. How long does a unit last?
3. In what conditions is it indicated?
4. What is the expected outcome?

Answer 19

Red Blood Cells

1. 300mL, Hct 55-60%
2. 42 days
3. Symptomatic anemia in normovolemic patient
4. Raise Hb 1g/dl in an average adult

Question 20

What do the results of the TRICC trial indicate regarding RBC transfusion in the critical care setting?

Answer 20

[Adapted from 2 Minute Medicine - http://tinyurl.com/mpetnvm]

1. Using a restrictive [Hb kept at 7g/dl] transfusion strategy in critically ill patients did not significantly increase 30-day mortality when compared with a liberal [Hb kept at 10g/dl] transfusion strategy.
2. Subgroup analyses demonstrated that a restrictive transfusion strategy was associated with significantly lower mortality in patients with APACHE II [ICU mortality risk calculator] score ≤20 and age <55 years.

Question 21

Generally, at what Hb level is RBC transfusion useful (or necessary)?

Answer 21

• 8-10g/gl: avoid, consider a transfusion “trial”
• 6-8g/dl: give transfusion if necesssary
• <6g/dl: typically requires transfusion

Question 22

Fresh Frozen Plasma (FFP)

1. How much does a unit contain?
2. How long does a unit last?
3. In what conditions is it indicated?
4. What is the expected outcome?

Answer 22

Plasma

1. 200-250mL
2. 1 year
4. 10-15mL/kg raises all clotting factors by 20-30% in average adult
5. Indications:
   
   • Abnormal bleeding w/ documented coagulopathy
   • Multiple factor deficiency
   • DIC
   • Surgical prophylaxis in pt w/ coagulopathy
   • Therapeutic plasma exchange for TTP (?)

Question 23

Name three treatments that FFP is not indicated for.

Answer 23

1. Volume expansion
2. Reversal of heparin
3. Correction of minor PT prolongation

Question 24

Cryoprecipitate

1. What blood product is it derived from?
2. How long does a unit last in storage?
3. How much is in a unit?
4. What does it contain? What’s considered most important?
5. What is the expected outcome?

Answer 24

1. FFP
2. 1 year
3. 15ml/unit
4. Contents:
   
   • Fibrinogen - most important.
   • Factors VIII & XIII
   • vWF
   • Fibronectin
5. 1 unit/10kg will raise fibrinogen by 50mg/dl in an average adult.

Question 25

Cryoprecipitate

When is it indicated?

When is it not indicated?

Answer 25

• Indications:
  
  • Hypofibrinogenemia / Dysfibrinogenemia
    
    • DIC
    • Severe liver disease
    • Congenital
    • Trauma w/ massive transfusion
• Not indicated:
  
  • Hemophilia A
  • VWD

Question 26

What’s the goal level of fibrinogen in cryprecipitate therapy?

Answer 26

>150mg/dl

Question 27

What are the two types of platelet transfusion products?

Answer 27

• Random Donor platelets
• Single Donor Apheresis platelets
  
  • Concentrated platelets

Question 28

What differentiates the “old” and “new” methods of obtaining concentrated platelets?

Answer 28

The apheresis technology allows for more effective harvesting of viable platelets from a single donor. One unit of apheresis platelets is equivalent to a “six-pack” of whole blood-derived platelets.

Question 29

Platelets (any kind)

1. How are the platelets seperated?
2. How are they kept and for how long?
3. What is the goal outcome?

Answer 29

1. Centrifugation of whole blood or apheresis
2. Room temperature with agitation. Shelf life is only 5 days!
3. Raise PT count 30,000-60,000 in an average adult

Question 30

Name four scenarios for which prophylactic PT transfusion is useful?

Answer 30

1. Bone Marrow Failure (Aplastic Anemia)
2. Surgery Prophylaxis
3. Platelet inhibitory drugs (an overdose/overshoot, I assume)
4. Congenital platelet dysfunction

Question 31

At what PT level should you consider prophylactic PT transfusion in a marrow failure pt?

Answer 31

• 10-20K: Transfusion reasonable
• <10K: Transfusion indicated

Question 32

An NEJM article showed that as long as PT levels are maintained over _______, the incidence of significant bleeding does not decrease with further PT administration.

Answer 32

6-10 x10³/mm³

Question 33

[Totally realistic clinical scenario…]

You’ve given your pt a PT infusion and are monitoring his PT count hourly. Worryingly, at no point over the next 24 hours does his platelet count seem to increase at all! What do you suspect?

Answer 33

An antibody-related response that is destroying the platelets

Question 34

Name 5 possible immediate adverse effects of transfusion.

Which 2 are most common?

Which is the #1 cause of mortality in transfusions today?

Answer 34

1. Hemolytic transfusion rxn
2. (“Benign”) Febrile Non-hemolytic rxn - 2nd most common, ~28%
3. Hives and other allergic rxns - most common, ~64%
4. TACO (mortality also significant)
5. TRALI - #1 cause of transfusion mortality

Question 35

Name 4 possible **delayed **adverse effects of transfusion.

Answer 35

1. Delayed hemolytic transfusion rxn
2. Post-transfusion purpura
3. Post-transfusion GvHD
4. Iron overload

Question 36

How common is TRALI? TACO?

Answer 36

• TRALI: 1 in 5,000
• TACO: 1 in 1,000
• Orders of magnitude more likely than an infected blood product

Question 37

1. What causes a febrile non-hemolytic transfusion reaction (FNHTR)?
2. When does it occur relative to the transfusion?
3. How common is it?

Answer 37

1. Abs in recipient to the donor’s WBCs
   
   • Activation of recipient’s macrophages, which produce endogenous BRMs (biological response modifiers - aka immune system activation)
   • Plus BRMs that may be present from the donor WBCs
2. At the end of transfusion, ~1-2 hours in
3. **Common! **About 1:200 transfusions. 6-10% of the multitransfused population.

Question 38

What are the signs and symptoms of FNHTR?

Answer 38

• Fevers (at least 1C elevation)
• Chills / Rigors
• HTN
• Tachycardia
• SOB

Question 39

[KNOW THIS]

A hemolytic transfusion reaction results in RBC destruction in the recipient, as the name suggests.

1. What causes acute hemolytic reactions?
   
   • When does it occur relative to transfusion?
   • Where does the hemolysis occur in acute reactions?
2. What causes delayed hemolytic reactions?
   
   • When does it occur relative to transfusion?
   • Where does the hemolysis occur in delayed reactions?

Answer 39

1. Acute = ABO mismatch
   
   • 1-2 hours after start of transfusion
   • mainly Intravascular hemolysis
2. Delayed = Abs (not detected w/ Ab screen or cross match)
   
   • 5-7 days after transfusion
   • mainly Extravascular hemolysis

Question 40

What are the signs and symptoms of acute hemolytic transfusion reactions?

Answer 40

• Fever
• Chills / Rigors
• Anxiety / Feeling of Doom
• “Trunk” pain (Chest, Abdomen, Flank, and/or Back)
• Nausea / Vomiting
• Dyspnea
• Hypo- & Hypertension
• Pain at infusion site
• Hemoglobinuria / Oliguria

Question 41

Name signs and symptoms of an IgE-mediated transfusion reaction in the following systems [probably just have a general idea of these]:

• Skin
• Respiratory
• GI
• CV

Answer 41

• Skin
  
  • Itching
  • Hives
  • Flushing
  • Angioedema
• Respiratory
  
  • Bronchospasm
  • Wheezing / Stridor
  • Check tightness / pain
  • Dyspnea
  • Cyanosis
• GI
  
  • Nausea / vomiting
  • Diarrhea
  • Cramps
• CV
  
  • Hypotension / Shock
  • Tachycardia
  • Arrhythmias / Arrest

Question 42

1. What does TRALI stand for?
2. What is TRALI mediated by?
3. Describe its pathogenesis?
4. What is the “two-hit hypothesis” for TRALI?

Answer 42

1. Transfusion-Induced Acute Lung Injury
2. Donor Antibody-mediated
   
   • HLA Abs
   • anti-Neutrophil Abs
3. (Wiki) Leukoagglutination [due to Ab binding] and pooling of granulocytes in the recipient’s lungs may occur, with release of the contents of leukocyte granules, and resulting injury to cellular membranes, endothelial surfaces, and potentially to lung parenchyma.
4. In pts where neutrophils are already “primed” towards activation (first hit - surgery, sepsis, etc.), agglutination by the anti-neutrophil antibodies (second hit) will produce greater activation and more severe TRALI.

Question 43

What are the signs and symptoms of TRALI?

Answer 43

• Pulmonary edema w/o heart failure
• ARDS
• Hypoxemia / Cyanosis
• Tachycardia / Hypotension
• Fever
• pO₂ < 90mmHg with room air

Question 44

When does TRALI occur relative to transfusion?

Answer 44

• Virtually always within 6 hours
• Usually within 2 hours

Question 45

What causes Graft vs. Host Disease (GvHD?)

Answer 45

• Immunocompetent lymphocytes in donor blood (or other graft) recognize the recipient as foreign.
• Recipient’s immune system cannot recognize/react to the donor’s lymphocytes due to:
  
  • HLA similarity (the relationship happens to work one way but not the other)
  • Recipient is immunosuppressed

Question 46

What are the signs and symptoms of transfusion-induced GvHD?

When do they occur relative to transfusion?

How lethal is it?

Answer 46

• Sxs:
  
  • High fever, followed by diffuse rash for about 3 weeks post transfusion
  • Nausea / vomiting / watery diarrhea
  • Pancytopenia
    
    • Distinguishes transfusion-induced GvHD from BMT GvHD!
• >90% mortality!

Question 47

Who is at highest risk of transfusion-induced GvHD?

Answer 47

The Immunosuppresed

• SCID
• BMT recipients
• Fetus or neonate
• High dose chemo ptr