Hematology Basics (3)

Question 1

What is hematology

Answer 1

The study of blood and its components

Question 2

What are the components of blood

Answer 2

Plasma - 55%
-salt, water, enzymes, antibodies

Red blood cells - 45%
-important for oxygen transport throughout the body

White blood cells and platelets - 1%
-WBCs - protection for infections
-platelets - coagulation proteins that allow body to manage clotting

Question 3

What is hematopoiesis?

Answer 3

The production of ALL types of blood cells (includes formation, development, and differentiation of cells)

Question 4

What are low and high platelet counts called?

Answer 4

Low - thrombocytopenia
High - thrombocytosis

Question 5

What are low and high RBC counts called?

Answer 5

Low - anemia
High - polycythemia

Question 6

What are low and high WBC counts called?

Answer 6

Low - leukopenia
High - leukocytosis

Question 7

What lab values do we look at to see if a patient has anemia? (2)

Answer 7

Hemoglobin
Hematocrit (percentage of blood that is made up by RBCs)

Question 8

What lab value do we look at to see if a patient has thrombocytopenia?

Answer 8

Platelets

Question 9

What is pancytopenia?

Answer 9

deficiency of all three cellular components of the blood (red cells (Hgb), white cells, and platelets) - so we look at all 3 of these values

Question 10

What is anemia?

Answer 10

Reduction in the bodies ability to transport oxygen to organs that need it
-can be due to reduction in hemoglobin or hematocrit (RBCs)

Question 11

Anemia is more prevalent in which patients?

Answer 11

Patients with CKD
Older patients - over 65 yo
Women (bc of pregnancy and menstrual bleeding)
African descent (typically have lower Hgb values)

Question 12

Which 2 factors may cause someone to have higher Hbg/RBCs

Answer 12

People who live at higher elavations have higher levels of hemoglobin

High endurance athletes have higher levels of RBCs

Question 13

What is the lower limit of normal of hemoglobin for males and females

Answer 13

Males: 13 g/dL
Females: 11 g/dL

(anything below this, we start thinking about potential therapy for these patients)

Question 14

National cancer institute anemia scale

Answer 14

Grades 1 - 5 … the higher the grade the lower the level of hemoglobin

Grade 1
-Hgb of 10 - < LLN (13 for males 11 for females)

Grade 2
-Hgb of 8 to <10

Grade 3
-Hgb of 6.5 to <8

Grade 4
-Hgb of <6.5

Grade 5
-Death

Question 15

What is the role of RBCs? How does this relate to anemia?

Answer 15

RBCs pick up oxygen from the lungs and release CO2 into the lungs

Then they transport the oxygen to the rest of the body
-anemia is a disorder where a patient has tissue hypoxia due to a lack in this oxygen transport

Question 16

Erythropoietin (EPO)

Answer 16

This is a hormone that is produced primarily in the kidney

It stimulates the synthesis/differentiation of erythroid progenitor cells (which are precursors for RBCs) (reticulocytes)

So EPO is important for the production of RBCs
(which is why people with CKD are more prone to anemia, since EPO is made mostly in the kidney)

Question 17

Mean corpuscular volume (MCV)

Answer 17

This is a lab value of the average size of the red blood cells
-used to determine if the cells are large or small

Question 18

Normoblastic vs megablastic

Answer 18

This refers to the shape of the RBC

Normoblastic = normal shape, which is circular/round

Megablastic is more of an oblong/oval shape

Question 19

Normochromic vs hypochromic

Answer 19

This refers to the color of the RBC

Normochromic = normal bright red color

Hypochromic = faded color (usually means there is less hemoglobin and therefore impaired oxygen carrying capacity)

Question 20

How does the body react to anemia? (3)

Answer 20

When a patient has anemia there is a decreased oxygen carrying capacity

The body tries to compensate by…
-increasing blood flow
-increasing RBC mass
-increasing oxygen unloading

This makes sense as it is explained by the relationship in this equation…
VO2 = 1.39 x Q x Hgb x (SaO2 - SvO2)
-if there is a decrease in Hgb, to keep VO2 the same, the body will try to increase Q (blood flow) and oxygen unloading (SaO2 - SvO2)

Question 21

Compensating for anemia - increase in blood flow

Answer 21

Because of decreased oxygen transport with anemia, the body tries to compensate by increasing blood flow (Q)

The heart pumps harder and faster resulting in increased cardiac output

This can result in tachycardia and murmurs/arrhythmias
And if it continues for a long period of time can lead to heart failure

Question 22

When the body compensates in the anemic state to increase blood flow, which organs get the blood?

Answer 22

The vital organs (the ones that desperately need blood to function)
-brain, heart, kidneys

Question 23

Compensating for anemia - increase in RBC mass

Answer 23

The body tries to increase the mass of RBCs to increase oxygen transport (to compensate for the anemic state)

In order to do that it increases the production of EPO in the kidneys (to increase production of reticulocytes)

Overtime this can lead to hyperviscosity in the blood, which can result in bone pain (pain occurs as bone marrow tries to expand to compensate for increased amount)

Question 24

What are some causes of anemia (5)

Answer 24

1. Production defects
   -deficiency in EPO (seen with kidney disease)
   -seen in cancer patients
   -inability to produce RBCs
2. Maturation defects
   -typically cancer associated (cancer kills bone marrow, where RBCs mature)
3. Survival defects
   -RBC cannot survive after it is produced
   -Can be intrinsic (something is wrong inside the RBC that keeps it from surviving) or extrinsic (RBC is being attacked from the outside, e.g. a toxin)
4. Sequestration
   -splenic sequestration, particularly in hemolysis - spleen takes up RBCs (causing anemia)
5. Blood loss
   -hemorrhage, GI bleed, etc.
   -could be due to conditions that require a lot of blood work/labs

Question 25

Reticulocyte counts

Answer 25

Reticulocytes are immature RBCs
We don’t want RBCs to stay immature, so this value should typically be less than 1%

Patients who are constantly producing new RBCs (e.g. sickle cell anemia or another disorder where they need to be constantly replacing RBCs) may have an elevated reticulocyte count

Or if a patient is bleeding or undergoing hemolysis - they will have more reticulocytes since they are trying to compensate and create more RBCs for the ones they are losing

Question 26

Mean cell hemoglobin (MCH)

Answer 26

Measure of the weight of Hb in a single RBC.
(used to make sure there is adequate amount of hemoglobin)

Question 27

Mean cell hemoglobin concentration (MCHC)

Answer 27

measurement of the amount (weight) of hemoglobin in a single RBC compared to the volume of the cell
(used to see if the amount of hemoglobin present is appropriate for the size of the cell to carry the oxygen needed)

Question 28

Macrocytic vs microcytic anemia

Answer 28

Macrocytic (MCV > 100)
-RBCs are LARGER than normal
-caused by folic acid deficiency or vitamin B12 deficiency

Microcytic (MCV < 80)
-RBCs are SMALLER than normal
-caused by iron deficiency (which results in reduced hemoglobin synthesis)
-aka iron deficiency anemia (IDA)

Note - in both marco and microcytic anemia the cells may be normal shaped (normoblastic) but are larger or smaller in size

Note - normal sized cells are called normocytic (MCV 80-100)

Question 29

If we have a decreased RBC production, what is the first step/first thing to look at?

Answer 29

The size of the RBCs… are they….
-microcytic (MCV < 80)
-normocytic (MCV 80-100)
-macrocytic (MCV > 100)

Question 30

If RBCs are microcytic what should you consider next to determine the cause of decreased RBC production?

Answer 30

The color…
If they are normochromic (bright red)…
-genetic cause (we may or may not have to do anything about this)

If they are hypochromic (faded) …
-means they do not have enough Hgb (low MCH and MCHC)
-this could be IDA (iron deficency) or anemia of chronic disease (caused by CKD or chronic inflammatory state)

Question 31

If RBCs are normocytic what is likely the cause of decreased RBC production?

Answer 31

Bone marrow failure –> cancer related
Or associated with CKD

Or can occur if a patient has causes of both macrocytic and microcytic anemia (results in normocytic)

Question 32

If RBCs are macrocytic, what should be considered next to determine the cause of decreased RBC production?

Answer 32

Is the shape appropriate?

If they are megablastic…
-caused by folic acid or vitamin B12 deficiency

If they are normoblastic (normal shape) - the cause is harder to identify…
-can be due to alcohol use, liver disease, hyperthyroidism, HIV medications, valproic acid , or other random causes