Blood Transfusion 14-4-2024 PDF

Summary

This document is lecture notes on blood transfusion, covering blood groups (ABO and Rh), transfusion mechanisms, and pathophysiology. It includes various questions relating to the topic covered.

Full Transcript

Blood groups, ABO system and Rh system

Ass.Professor Dr. Samer Al Hakkak
Dean college of Medicine/University of Alkafeel
PhD ( General Surgeon), FRCS ( Ireland), FACS, MRCS (England,
Glasgow, Edinburgh, Ireland)

1st stage lecture April 2024 Blood Physiology
 Learning objectives

By the end of the lecture, students were able to

 Recognize the blood transfusion mechanism
 Identify the ABO and Rh systems
 Describe the pathophysiology of transfusion reactions
 Differentiate different types of blood groups, understand crossmatch

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 Question poll 1

Question 1:
What is the purpose of a whole blood transfusion?

A) To treat all types of anemia.
B) To replace lost blood due to injury or surgery.
Poll # 1 C) To increase the oxygen-carrying capacity of red blood cells.
D) To reduce inflammation in the body.
E) All of the above

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 Blood transfusion

 A is the procedure where a person receives blood, or elements of blood usually through
an intravenous infusion - meaning through a vein.

 Now - if you take blood and spin it in a centrifuge, the heaviest blood components
move to the bottom, and the lightest ones move to the top.

 Overall, three distinct layers form: the erythrocytes or red blood cells at the bottom,
the buffy coat--which contains platelets and immune cells in the middle, and plasma at
the top.

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Blood transfusion

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Now, in rare situations, like in traumatic injuries, someone might receive a whole
blood transfusion, but more commonly a person is given one of the components of the
blood.

For example, a person with anemia could just receive packed red blood cells, a person with
clotting factor deficiency could get fresh frozen plasma which contains the
coagulation factors, or someone with platelet deficiency might receive platelets.

Now, most blood transfusions are homologous transfusions, where the blood comes from
an anonymous donor.

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Sometimes the transfused blood is autologous, meaning the blood was taken out of the
person at a prior time, like when they plan to have surgery in the near future.

In both cases, once the blood is taken, it’s mixed with sodium citrate, which prevents the
blood from coagulating, refrigerated or frozen for storage, or separated into its components
by centrifuge.

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 Question poll

Question 2:
Why is blood mixed with sodium citrate during a transfusion?

A) To separate the blood into its components.
B) To increase the oxygen-carrying capacity of red blood cells.
Poll # 2 C) To prevent the blood from coagulating.
D) To activate the coagulation factors in the blood.
E) All of the above

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 Open question?

What is important to know before giving blood?

Now, before whole blood or packed red blood cells
can be transfused, it’s important to know the blood
typing of both the donor and the recipient of the
blood.

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 Blood groups

Every person has a unique blood group based on two classification systems: the ABO system
and the Rh system.

Both systems are based on the presence or absence of glycoproteins, which are proteins
attached to a sugar molecule, found on the surface of red blood cells.

Now, if the blood that has any of these glycoproteins is given to a person with immune cells
that have never seen those glycoproteins before, then the glycoproteins can act as
antigens.

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In other words, the recipient’s immune system might mistake the donor blood as an invader
and mount an immune response.

This is usually caused by recipient IgM antibodies that float around in the
plasma.
These IgM antibodies can bind to multiple donor red blood cells, resulting
in the red blood cells clumping together.
In addition, the IgM can activate complement proteins which form a membrane attack
complex on the surface of the donor red blood cell, causing pores to form and allowing the
red blood cell to lyse

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 IgM

This is called a hemolytic transfusion reaction. The IgM also activate other immune cells to
cause a systemic immune response resulting in fever, hypotension, and rash.

Now, the ABO system refers to the type of glycoproteins found on a person’s red blood cells;
you can have either type A, type B, type A and B glycoproteins, or neither, which is called
type O blood.

The immune system produces antibodies against the glycoproteins that you don’t have.

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 ABO system

People with type A blood have antibodies to type B blood, and people with type B blood
have antibodies to type A blood.

People with blood type AB don’t have antibodies to type A or type B blood, so they can
receive blood from any of the blood types

Thus, these lucky people are universal recipients. However, since their red
blood cells have both type A and type B antigens, they can’t donate blood to
anyone except other AB blood type individuals.

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So they’re good receivers but bad givers. On the other hand, people with type O blood
have antibodies to both A and B glycoproteins, so people with type O cannot receive type
A, type B, or type AB blood

But since their red blood cells don’t have type A or type B antigens, they can donate blood
to anyone. So they’re the universal donors, good at giving but bad at receiving.

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 Question poll

Why can people with type O blood donate blood to anyone?

A. Because their immune system produces antibodies against both A and
B glycoproteins

Poll # 3 B. Because their red blood cells have both type A and type B antigens

C. Because their red blood cells don't have type A or type B antigens

D. Because their blood doesn't contain any antibodies

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 Rh system

Now, the other major blood group to be aware of is the Rh group, which gets its name from
the animal in which the Rh protein was first described, the rhesus monkey.

Unlike the ABO system, people are either Rh positive, meaning they have the antigen on
their red blood cells, or they are Rh negative, meaning it’s absent.

People who are Rh-positive can receive both Rh-negative and Rh-positive blood since they
do not have antibodies against the Rh glycoprotein.

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But if an Rh negative person receives Rh positive blood, they could develop a
hemolytic transfusion reaction. That's why we don't usually give Rh positive blood to Rh
negative patients.

Having said that, we can do it in an emergency setting because these individuals don't have
naturally occurring Rh antibodies, since Rh antibodies require prior exposure to Rh positive
RBCs.

So, for someone who doesn’t have Rh antibodies, Rh positive blood might be okay the first
time, but then they'll develop antibodies and you won't be able to give them Rh positive
blood in the future.

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 Blood typing
To prevent hemolytic transfusion reactions, blood must be typed and crossmatched. During
blood typing, serum with known anti-A antibodies and anti-B antibodies are mixed with a
person’s red blood cells.

If an agglutination reaction occurs, that means that the blood being tested has that
glycoprotein on the surface.

For example, if Anti-A serum is mixed with a person’s red blood cells and an agglutination
reaction occurs, but does not when mixed with anti-B serum, then that person has
blood type A.
The same procedure is also performed for people to determine a person’s Rh status. After
the test, blood types are reported as the ABO group and then either negative or positive
depending on the Rh status.

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For example, a person with type A blood and without Rh factor would be called type A-. So
if we combine the ABO and Rh classifications we get 8 possible blood types; A+, A-, B+, B-,
AB+, AB-, O+, and O-.

Now, cross matching is a test to make sure a donor's blood is safe for a person to receive.
During this process the recipient’s serum gets mixed with the donor's blood to see if an
agglutination reaction occurs.

If agglutination occurs, the recipient's blood contains antibodies against the donor's red
blood cells, so that person cannot receive that donor’s blood.

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This is helpful just in case there are additional glycoproteins that are causing a reaction
beyond the ones identified in the blood typing.
So blood transfusion is a procedure where a person receives whole blood, or components of
blood.
A person develops antibodies to the antigens not present in their own blood so if they
receive blood containing that antigen, it will trigger a hemolytic transfusion reaction.
The antigens are glycoproteins on red blood cells that could be classified into the ABO or Rh
system.
In the ABO system people are either type A, B, AB, or O and in the Rh system they are either
Rh positive or negative.
If blood is not properly crossmatched and typed, hemolytic transfusion reactions could
occur.

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 Question poll

What is the reason why people with type AB blood can receive
blood from any blood type, but can only donate blood to other
AB individuals?

A) People with type AB blood lack both A and B antibodies.

B) People with type AB blood have both A and B antigens on
Poll # 3 their red blood cells.

C) People with type AB blood have neither A nor B antigens on
their red blood cells.

D) People with type AB blood have both A and B antibodies.

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Cross match

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 Summary

Blood groups are determined by the presence or absence of certain antigens on the surface of red blood cells.
The most important blood group system is the ABO system, which is determined by the presence or absence
of two antigens: A and B. People with blood group A have antibodies against the antigen B, people with
blood group B have antibodies against the antigen A.
People with blood group AB have no antibodies to either antigen, and people with blood group O have both
types of antibodies.
There is also the D antigen which determines rhesus (Rh). People who have this antigen are said to be Rh
positive, while those who do not are Rh negative.
A person with type O negative blood can donate red cells to any other blood type regardless of the rhesus,
while a person with type O positive blood can donate red cells to any other ABO rhesus positive recipient.
Those which have AB positive can receive blood from any other ABO regardless of the rhesus, whereas those
with AB negative can receive blood from any other ABO with rhesus negative.

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 By the end of session we learn

Recognize the blood transfusion mechanism
Identify the ABO and Rh systems
Describe the pathophysiology of transfusion reactions
Differentiate different types of blood groups, understand
cross match

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 References

1."Medical Physiology" Elsevier (2016)
2."Physiology" Elsevier (2017)
3."Human Anatomy & Physiology" Pearson (2018)
4."Principles of Anatomy and Physiology" Wiley (2014)
5."International society of blood transfusion working party on red cell immunogenetics and
terminology: report of the Seoul and London meetings" ISBT Science Series (2016)
"B antigen acquired by normal A1 red cells exposed to a patient's serum" Transfusion (1987)

Question and answers?
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 Homework
Case Scenario:
Patient: Emily Martinez Age: 25 years Medical History: Emily is a 25-year-old female with no significant medical history. She is admitted to
the hospital for elective surgery to correct a congenital heart defect.
Scenario:
Emily is scheduled for elective surgery to correct her congenital heart defect. As part of the pre-operative preparation, her healthcare
team plans to perform a blood transfusion if necessary during or after the surgery.
Assessment Questions:
1.What blood type would be the safest option for Emily to receive in case a blood transfusion is needed during or after her surgery? A)
Blood group A+ B) Blood group B- C) Blood group AB+ D) Blood group O-
2.Explain why the chosen blood type in question 1 is the safest option for Emily, considering her potential need for a blood transfusion
during or after surgery.
3.What are the possible consequences if Emily were to receive a blood transfusion with an incompatible blood type?
4.How does the Rh factor (D antigen) influence blood transfusion compatibility, especially in Rh-positive and Rh-negative individuals?
5.Describe the process of blood typing and crossmatching and their importance in ensuring a safe blood transfusion for Emily.
If Emily develops signs of a transfusion reaction during or after the surgery, what immediate actions should her healthcare team take to
manage the situation effectively?
6.Considering Emily's young age and elective surgery, what additional precautions should be taken to minimize the risk of transfusion-
related complications?

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