Blood Products

Question 1

Packed Red Blood Cells (PRBCs) ~ _____ cc/unit

Answer 1

350 cc/unit

Question 2

Rarely transfuse if Hgb > __ g/dL; almost always if Hgb < __ g/dL.

Answer 2

Hgb >10 g/dL; <6 g/dL

Question 3

If Hgb is greater than __ g/dL, most are comfortable with the infusion of a crystalloid or colloid.

Answer 3

7 g/dL

(The ASA recommends transfusion to avoid Hgb below 6 g/dL in healthy patients)

Question 4

In a typical 70 kg patient one-unit PRBC transfusion is expected to increase Hgb by __ g/dL and hematocrit by __%.

Answer 4

1 g/dL ; 3%

Question 5

Most PRBC units have an HCT of __ - __%.

Answer 5

50-60%

Question 6

Massive Transfusion Protocol (When to Initiate)

• Loss of entire blood volume within ___ hrs
• ___% of blood volume in 3 hrs
• Ongoing bleeding at > ___ ml/min
• Rapid bleeding with circulatory failure despite volume
replacement

Answer 6

• Loss of entire blood volume within 24 hrs
• 50% of blood volume in 3 hrs
• Ongoing bleeding at >150 ml/min
• Rapid bleeding with circulatory failure despite volume
replacement

Question 7

Massive Transfusion Protocol (Procedure)

• Sample for type and screen to blood bank
• Blood products in containers (coolers)
• 1:1:1 ratio of RBC:FFP:Platelets
(____ u RBC, ___ u FFP, __ apheresis unit platelets)
• ___ u Cryoprecipitate in coolers 3, 6, and 9
• Complete use of 1 cooler before next cooler
• Upon issuing a cooler, blood bank prepares next cooler
• 1 cooler every 20-30 min until protocol discontinued

Answer 7

• Sample for type and screen to blood bank
• Blood products in containers (coolers)
• 1:1:1 ratio of RBC:FFP:Platelets
(6 u RBC, 5 u FFP, 1 apheresis unit platelets)
• 10 u Cryoprecipitate in coolers 3, 6, and 9
• Complete use of 1 cooler before next cooler
• Upon issuing a cooler, blood bank prepares next cooler
• 1 cooler every 20-30 min until protocol discontinued

Question 8

Labs upon initiation of Massive Transfusion Protocol:

• Type and screen
• CBC
• PT/PTT/INR
• ABG
• Comp Metabolic panel
• iCa
• Lactate

What labs are sent every subsequent hour?

Answer 8

Labs to send every one hour
CBC
PT/PTT/INR
Fibrinogen
ABG
iCa
Lactate

Question 9

What are some metabolic characteristics of PRBCs?

Answer 9

Question 10

Classes of Acute Hemorrhage

• What’s the blood loss (cc and % EBV) for each class?
• When would you expect to see a decreased blood pressure?
• When would you expect to see a decreased pulse pressure?
• When should you start to replace with blood?

Answer 10

Question 11

Platelets

Prophylactic transfusion for surgery usually indicated if:
<___/microL; or <___/microL and and high risk of bleeding; not indicated for states of increased destruction, e.g., ITP

Indicated for microvascular bleeding with <___/microL; or <___/microL and risk for increased bleeding

Answer 11

Prophylactic transfusion for surgery usually indicated if <50,000/microL; or <100,000/microL and high risk of bleeding; not indicated for states of increased destruction, e.g., ITP

Indicated for microvascular bleeding with <50,000/microL; or <100,000/microL and risk for increased bleeding

Question 12

Platelets

Transfuse ___ u/10 kg.

In a 70 kg patient each unit will increase the platelet count by approximately _____/microL

One single donor pheresis unit ≅ ___ random donor units

Answer 12

Transfuse 1 u/10 kg.

In a 70 kg patient each unit will increase the platelet count by approximately 7 - 10,000/microL (7 to 10 × 109/L at 1 hour after transfusion).

One single donor pheresis unit ≅ 6 random donor units

Question 13

Do NOT administer platelets through ______, or ______ systems, or rapid transfused systems because the platelets will stick to the tubing and this will decrease the number of platelets that reach the patient.

Answer 13

Do not administer through filters, warmed systems, or rapid transfused systems because the platelets will stick to the tubing and this will decrease the number of platelets that reach the patient.

Question 14

In trauma, transfuse platelets to keep > ____k or > ___k in TBI.

In rapid transfusion, give one six-pack of platelets per __-units of PRBC.

Answer 14

In trauma, transfuse platelets to keep > 50k or >100k in TBI.

In rapid transfusion, give one six-pack of platelets per 6-units of PRBC.

Question 15

If platelets are stored at room temperature, they can be used up to ____ days after collection with constant and gentle agitation.

Answer 15

Seven-days

Question 16

T or F:

When possible, ABO-compatible platelets should be used.

Answer 16

TRUE

But

Platelets will continue to be chosen without regard to antigen systems for the majority of patients. ABO-incompatible platelets produce very adequate hemostasis.

Question 17

Fresh Frozen Plasma (FFP):

Urgent reversal of warfarin therapy ( __ - __ mL/kg )

Answer 17

5–8 mL/kg

Question 18

Fresh Frozen Plasma (FFP)

Correction of microvascular bleeding with elevated (>____ times normal) INR or aPTT, or when suspected factor depletion as after transfusion of more than one blood volume

Treatment of heparin resistance (e.g., _______ deficiency) in a patient requiring heparin

Answer 18

Correction of microvascular bleeding with elevated (>2 times normal) INR or aPTT, or when suspected factor depletion as after transfusion of more than one blood volume

Treatment of heparin resistance (e.g., antithrombin III deficiency) in a patient requiring heparin

Question 19

Fresh Frozen Plasma (FFP)

Give enough to achieve at least ___% of normal plasma factor concentration (___ - ___ mL/kg)

Answer 19

Give enough to achieve at least 30% of normal plasma factor concentration (10–15 mL/kg)

Platelets for transfusion also contain plasma: 4–5 u platelets or 1 single-donor unit contains factors equal to about 1 u FFP

Question 20

FRESH FROZEN PLASMA

It contains all the plasma proteins, particularly
factors __ and __, which gradually decline during
the storage of blood.

Thawed plasma is stored at 1 °C to 6 °C for up to ___ days.

Answer 20

Factors V and VII

Five days

Question 21

Cryoprecipitate or Fibrinogen Concentrate:

Prophylactic use in peri-operative or peripartum patients with congenital fibrinogen deficiencies or ________ unresponsive to desmopressin (DDAVP, 1-deamino-8-d-arginine vasopressin)

Bleeding in patients with von Willebrand’s disease if specific concentrates are unavailable

Patients with a fibrinogen level < ___ mg/dL (normal _____ mg/dL)

For trauma, the goal is to keep > _________ mg/dl

Correction of microvascular bleeding in massively transfused patients with an unknown fibrinogen

DOSING: cryoprecipitate: give _____ single donor units (about ___ units per 10 kg) cold. Does it need to be filtered?

For fibrinogen concentrate, give ______ grams early in resuscitation.

Answer 21

von Willebrand’s disease

< 80–100 mg/dL (normal 150–450 mg/dL)

Trauma: > 100-150 mg/dl

Cryo Dosing: 15-20 single donor units (about 2-units per 10 kg) cold but filtered

Fibrinogen concentrate: 2-3 grams

Question 22

Table: Characteristics of Blood Component

Answer 22

Question 23

___ cc Ca2+ gluconate PIV

or
___ cc CaCl PIV

should be administered every ____ cc blood products given.

Answer 23

10- 20 cc Ca Gluconate

2-5 cc CaCl

500 cc blood products given

Question 24

Table: Blood Products Uses and Effects

Answer 24

Note for Cryo, the formula for raising fibrinogen by 50 to100 mg/dl is 0.2 x kg wt. = number of units

Question 25

CRYOPRECIPITATE:

• Cryoprecipitate is prepared when ___ is thawed, and the precipitate is reconstituted.
• T or F: Cryoprecipitate is frequently administered as ABO compatible
• T or F: Cryoprecipitate should be administered through a filter and as rapidly as possible.

Answer 25

FFP

The product contains factor VIII:C (i.e., procoagulant activity), factor VIII:vWF (i.e., von Willebrand factor), fibrinogen, factor XIII, and fibronectin, which is a glycoprotein that may play a role in reticuloendothelial clearance of foreign particles and bacteria fromthe blood. All other plasma proteins are present in only trace amounts in cryoprecipitate.

True, but this probably is not very important because the concentration of antibodies in cryoprecipitate is extremely low.

True, The rate of administration should be at least 200 mL/h

Question 26

In emergent situations requiring massive transfusion when the patient’s blood has not been cross and matched, group ___ PRBC and ___ plasma products should be issued until the recipient’s blood type is determined.

If ___ or more units of non-crossmatched PRBC and platelets are transfused, residual _________ in these products may result in transfusion reaction, hemolysis, and/ or a positive direct coombs test if additional units of crossmatched blood products are transfused. Prior to converting to the patient’s blood type, blood samples should be tested for significant amounts of anti-A and anti-B titers.

Answer 26

Group O PRBC

Group AB Plasma

Ten (10)

Antibodies

ABO incompatible plasma

Question 27

In an adult, there is approximately a ____% decrease in the concentration of clotting factors and platelets for every ____ mL of blood loss that is replaced with crystalloid.

Clinically significant dilutional coagulopathy also results after transfusion of ______ units of PRBCs

Answer 27

10%; 500 ml

8 to 10 units

Question 28

Typically, ______ (and how much) should be given if either prothrombin time (PT) or partial thromboplastin time (PTT) exceeds 1.5 x normal values.

Answer 28

2 to 8 units of FFP

Question 29

Cryoprecipitate or virus-inactivated fibrinogen concentrate may be used when _____ levels are critically low (< _____ mg/ dL).

Platelet counts below 50 K/ mcL are often seen after ___ blood volumes are transfused.

A full dose of 6 units of whole blood derived platelets, 1 apheresis concentrate, or single donor platelets should increase the platelet count by _______.

Answer 29

Fibrinogen; < 100—200 mg/ dL

1 or 2 blood volumes

30 K/ mcL

Question 30

Savage et al. 10 demonstrated that a loss of blood necessitating transfusion of ____ units of blood within a 60-minute period of time was associated with a twofold increased risk of mortality.

This time period is defined as the critical administration threshold and has been accepted as an alternative definition of massive transfusion, because it takes into account the rate of blood loss.

Answer 30

Three (3)

Question 31

Look over the Validated Massive Transusion Protocols.

Answer 31

Question 32

T or F:

One unit of FFP contains 0.5 g of fibrinogen, twice the amount found in 1 unit of cryoprecipitate.

Answer 32

TRUE

Therefore, transfusion of appropriate ratios of FFP to PRBCs should adequately replace fibrinogen in most cases of massive transfusion.

Question 33

An adult with a healthy liver can metabolize the citrate present in stored blood products to bicarbonate at a rate of ______ every 5 minutes. The average unit of blood contains ______ g of citrate, so how quickly can you give blood without worrying about this? What’s the problem you may see?

Answer 33

3 grams every 5 minutes.

The average unit of blood contains 3 g of citrate.

An infusion rate of 1 unit of PRBC given over a period shorter than 5 minutes will result in elevated free citrate and decreased plasma free calcium levels.

Question 34

Review common crystalloid composition table

Answer 34

Question 35

Why should hydroxyethyl starch solution never be used in massive transfusion?

Answer 35

Because it blocks the fibrinogen receptor (GPIIb-IIIa) and can further affect polymerization

Question 36

If fibrinogen concentrate is not available to replace fibrinogen deficiency, then what can you give?

(** This is why one unit of ___ is recommended per unit of ____.)

Answer 36

A 10-unit bag of cryoprecipitate contains 2500 mg of fibrinogen.

So a ratio of one unit of cryoprecipitate per unit of PRBC is commonly recommended.

Question 37

Fibrinogen concentrates should be given to patients whose measured fibrinogen level is < _____ or whose TEG shows a ____ over four-minutes or alpha angle of less than _____.

Answer 37

100 mg/dl

K time

60 degrees

Question 38

What is DDAVP used for? Dose?

How does DDAVP work?

Answer 38

DDAVP is used for the management of mild hemophilia A, von Willebrand’s disease, uremia.

The typical dose is 0.4 mcg/kg.

It works by releasing endogenous stores of von Willebrand factor from endothelial cells.

Question 39

The activity of the factorXa/Va prothrombinase complex is reduced byt 50%, 70%, and 80% at pH of 7.2, 7.0, and 6.8. How does this impair hemostasis?

Answer 39

This decreases the levels of thrombina and fibrin.

Question 40

A patient’s body temperature below ____ is associated with oncreased mortality

Answer 40

34.5 celcius or 94.1 F

Question 41

During massive transfusion, we ideally want to:

Maintain temperature above ______

pH > ____

Base Excess > ____

Lactate < ____

Platelets > _____

PT.activated PTT < ____

Fibrinogen > _____

Answer 41

Temp > 35 C

pH > 7.2

Base Excess > -6

Lactate < 4 mmol/L

Platelets > 50 x 10-9

< 1.5 normal limits

Fibrinogen > 100-200 mg/dL

Question 42

In emergent situations requiring massive transfusion when the patient’s blood has not been cross matched, group ____ PRBC and ___ plasma products should be issues until the recipient’s blood type is determined.

If ___ or more units of non-crossmatched PRBC and platelets are transfused, residual ABO incompatible plasma in these products may result in transfusion reaction.

Prior to converting to the patient’s blood type, blood samples should be tested for significant amounts of?

Answer 42

Group O PRBC and AB plasma

10 or more units

Anti-A and anti-B titers

Question 43

Hypothermia (i.e. temp below 34.5 C increases mortality) reduces the enzymatic activity of coagulation proteins and prevents calcium dependent activation of?

Answer 43

Platelets by von Willebrand factor

Question 44

In massive transfusion, giving _____ fibrinogen per unit of PRBC is independently associated with improved survival.

T or F Virus inactivated fibrinogen concentrate should be used to correct fibrinogen deficiency.

Answer 44

200 mg

True

Question 45

If the fibrinogen concentrate is not available, then you can use cryoprecipitate. One 10-unit bad of cryoprecipitate contains how much fibrinogen?

Considering this, what is the ratio of cryoprecipitate to PRBC that should be transfused?

Answer 45

10-unit bag has 2,500 mg of fibrinogen (about 250 mg per unit)

Since the recommendation is to give 200 mg of fibrinogen per PRBC unit, then it should be one unit of cryoprecipitate per unit of PRBC.

Question 46

One unit of FFP contains how much fibrinogen?

How does this compare to the amount in one unit of cryoprecipitate?

Answer 46

One unit of FFP has 0.5 g of fibrinogen

This is twice the amount in 1 unit of cryoprecipitate

(As a result, the appropriate ratio of FFP to PRBC should adequately replace fibrinogen in most cases of massive transfusion.)

Question 47

Review catheter flow rates:

14G =

16G =

18G =

20G =

22G =