Case 48 - blood replacement

Question 1

what is oxygen delivery (DO2) calculated? How is arterial oxygen content calculated?

Answer 1

Blood oxygen content

• CaO2 = (Hb x 1.34 x SaO2) + (PaO2 x .003)

Oxygen delivery =

• DO2 = CO x CaO2

Question 2

Describe compensatory mechanisms for blood loss?

Answer 2

• blood loss = decrease intravasc volume and reduced oxygen carrying capacity 2/2 loss of Hgb

Compensation - increase delivery

• intravasc decreaes –> compensatory vasoconstrictoin and tachycardia to increase CO (and thereby maintain DO2)
• eventually CO will decrease with continued loss –> need fluids to normalize CO

Compensation - Oxygen extraction

• decrease DO2 to tissues will lead to increase O2 extraction
• normally venous saturation is 75%. This will decrease as more oxygen is extracted to hypoxic tissues

Question 3

What is the minimum acceptable hemoglobin concentration (transfusion trigger)?

Answer 3

• controversial
• ASA - RBC usually administered with HgB <6 and…are usually unnecessary when level is > 10 g/dL

Consideratoins

• PRBC transfuion have adverse effects - viral transmission, TRALI, acute hemolytic anemia
• Risk vs benefit

Considerations:

• health of patient and comorbidities
• nature of surgery
• presence of coagulopathies
• likelihood of post-operative oozing/bleeding
• hemodynamic stability
• evidence of adequate or inadequate oxygen carrying capacity
• risk of transfusion reaction/infection, age of patient

Question 4

What are consideration for PRBC transfusion in cardiac patients?

Answer 4

Cardiac patients

• maximal stress on DO2 occurs in heart
• although 25% of oxygen is extracted by tissues, the heart has the highest O2 extraction of 70%.
• In stress, the heart cannot extract anymore oxygen, therefore only compensation is increase coronary blood flow.
  
  • this is compromised in CAD patients
• as such, critical HcT level - transfusion trigger - may be higher than general population

Question 5

what are examples of autologus blood transfusion?

Answer 5

• autologous blood transfusion - using one’s own blood for transfusion
• Examples:
  
  • preop autologous blood donation
  • acute isovolemic hemodilution
  • intraop cell savage
  • post-op cell savage

Question 6

what are advantages of acute isovolemic hemodilution, and how is it done?

Answer 6

acute isovolemic hemodilution

• whole blood removed perioperatively, while intravasc volume maintained by simultaneous infusion of crystalloid or colloid
• Whole blood –> contains rbc, clotting factors, plt

Advantages

• red blood cell loss reduced with each mL of surgical hemorrhage
• fresh whole blood (with all factors) available for transfusion
• tissue perfusion improved with dec viscosity

Question 7

what is the physiologic response to acute isovolemic hemodilution?

Answer 7

1) CaO2 decreases as RBC is removed (dec Hgb)
2) DO2 remains constant or increases

• although CaO2 decrease (dec Hgb), DO2 increases
• hemodilution –> dec blood viscosity –> inc venous return –> inc SV and CO

3) CO increases

• dec blood viscositiy –> dec SVR and inc venous return –> inc SV
• HR is unchanged as long as intravasc vol maintained

4) homogenous distribution of capillary blood flow

Question 8

how is acute isovolemic hemodilution accomplished?

Answer 8

Removal:

• two large-bore IV catheters
  
  • may also use an arterial catheter
• simultaneous admin of crystalloid (3:1) or colloid (1:1)
• allowable blood loss formula
  • EBV = weight (kg) * Average blood volume

Allowable Blood Loss = {(Hi-Hf)/Hi} x EBV

Monitoring - when to replace fluid

• +/i arterial line
• serial HcT measurement
• tachycardia (sign of hypovolemia)
• UOP

retransfusion

• retransfuse units in reverse order of collection
  
  • first unit is least dilute & richest in blood components –> should be last unit transfused
    *

Question 9

What are contraindications for acute isovolemic hemodilution?

Answer 9

• major compensatory mechanism for hemodilution is increased blood flow
• contraindicated in patients whose ability to increase systemic or coronary blood flow is compromised:
  
  • CAD
  • renal disease
  • carotid stenosis
  • anemia

Question 10

What are the characteristics of blood obtained by cell savage?

Answer 10

• colected blood is washed and contains no clotting factors or PLT
• HcT typically 50-60%
• large volumes of salvaged blood can lead to dilutional thrombocytopenia and low levels of clotting factors

cell salvage (vs blood bank)

• normal 2,3-DPG
• normal K+
• normal pH
• no microaggregate formation

Question 11

indications for cell savage

Answer 11

indications

• EBL > 1L
• jehovah’s witness (not all will accept it)
• rare blood type or multiple Antibodies
• surgery where blood loss is confined to discrete area (cardiac, ortho, vascular)

Benefit

• has decreased average homologous blood requirements

Question 12

Controversies and contraindcations involving intraop cell savage?

Answer 12

Controversy

1) tumor surgery

• debated about tumor cells collecting in salvage container and being transfused –> concern of dissemination of tumor
• homologous transfusion produce an immnosuppresive effect, resulting in earlier tumor recurrence and decreased survival time in some forms of cancer

2) abdominal trauma
* concern of contaminated intestinal contents (bacteria) entering salavage system, and then being transfused back to patient

Contraindications

• topical hemostatic agents
• iodine, bacitracin, topical ABX used with irrigant solution
• blood contaminated with amniotic fluid