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Microcytic, normocytic, and macrocytic anemias
Created by Nauroz Syed.
Want to join the conversation?
- you said 80-100 is the range. whats the unit?(6 votes)
- Fl/rbc I think(1 vote)
- Can't anemia be both underproduction and destruction ?(2 votes)
- Yes, though it is still helpful to distinguish between the two types when thinking clinically about a patient. Anemia such as that seen in chronic kidney disease is both due to decreased erythropoietin (decreased production) and decreased red blood cell lifespan (increased destruction)(9 votes)
- What is cytic? Is it size?(3 votes)
- Cytic means cell, so in this case, it means small, normal, or large cell anemias. (referring to the red blood cell)(6 votes)
- What is the most common type of anemia?(1 vote)
- In the United States, the most common form of anemia is Iron deficiency anemia. So microcytic due to low heme production, giving a low MCV.(6 votes)
- I have iron-deficiency anemia, and is that in the underproduction category?(2 votes)
- Yes, it comes from a lack of one of the building blocks; iron. Iron is a crucial part of the haemoglobin which binds the oxygen, so without enough iron not enough can be made.(2 votes)
- What about the Destruction Anemia's?(2 votes)
- Must we consider the pourcentage of reticulocytes or the absolute value of them?(2 votes)
- What are the causes of normocytic anemia?(1 vote)
- Will there be more video's explaining the different types of anemia's and specifics? I'm really enjoying these video's!(2 votes)
- why do lymphlocyetes become purple under a stain(1 vote)
- They are stained with a blue-purple stain, it especially colours the nucleus, and since lymphocytes normally have a big nucleus they appear quite a deep purple.(1 vote)
Video transcript
Voiceover: We said that there are lots of different types of anemias. Anemias can be divided
up into two large groups, into one group called the
underproduction anemias, and the second group called
the destruction anemias. The underproduction anemias are anemias that are due to a problem with
making the red blood cells. So somewhere along the
way, there's a problem with making enough red blood cells. Versus with destruction anemias, you have healthy red blood cells being made in sufficient quantities, but these red blood cells are subsequently being destroyed, either by your immune system, by viruses, or they're being lost in some way. We said that one of the
ways that we can tell whether we're looking at
an underproduction anemia, or a destruction anemia, is to look at the reticulocyte count. The reticulocyte count is a measure of how many reticulocytes we have. Reticulocytes are young,
immature red blood cells. With the destruction anemias, we said that the reticulocyte count, I'm just going to abbreviate that retic, so retic count is higher. So it's greater than 3%, with 3% being the normal
reticulocyte count. So with destruction anemias, the reticulocyte count is greater than 3%. That's indicative of a bone marrow that's working really hard to replace the lost red blood cells. It's churning out these young, immature red blood cells
to replace the ones that have been lost to destruction. Now, compare that with the
underproduction anemias, where the reticulocyte count is lower, so it's less than the normal 3%. That's because with
underproduction anemias, we have a problem with
making red blood cells, so you're not going to see a bone marrow that's appropriately responding by increasing red blood cells production. To begin with, the problem is a production in red blood cells. Initially, the anemias are split up into underproduction anemias,
and destruction anemias. Now these underproduction anemias, we said that there are
many different causes of underproduction anemias. These can be further sub-classified based on the size of the red blood cell. Before we go into any
more depth about that, let's take aside to say that the normal size of red blood cells is measured by an index called the MCV, where MCV stands for
mean corpuscular volume, so mean, the average
volume of a red blood cell. The average MCV, the normal MCV range, is between 80 and 100. a normal red blood cell falls
anywhere between 80 and 100. The underproduction anemias
can be sub-classified into anemias where the red blood cells are larger than normal,
are smaller than normal, and are normal size. Let's talk about the first group where the red blood cells
are larger than normal. In that case, the MCV
would be greater than 100, because 100 is the upper limit of normal. These anemias are called
the macrocytic anemias, where macro means large
and cytic means cell, so these are large cell,
large red blood cell anemias. The second group, where
the red blood cells are smaller than normal, we'd expect to see the MCV, the mean corpuscular volume, less than 80, because 80 is a lower end of normal. These anemias, these are
called the microcytic anemias. Micro meaning small, cytic meaning cell, so these are small red blood cell anemias. Finally, the group of
normal size red blood cells, the MCV of those cells
falls between 80 and 100, so right within the normal range. These are called normocytic anemias. So normal cell, normal red
blood cells size, anemias. We're going to go into
the different causes of macrocytic, microcytic,
and normocytic anemias, the different types of those anemias, but as a general rule of thumb, the macrocytic anemias are caused by a shortage of DNA precursors. Anything that causes a
shortage of DNA precursors will lead to a macrocytic anemia. Compare that to a microcytic anemia. A general rule of thumb
is microcytic anemias are caused by a shortage of hemoglobin, impaired hemoglobin production. Whether that's not enough
hemoglobin being formed, or abnormal hemoglobin formed, whatever the cause, there is a problem with making hemoglobin. Whenever you have a problem
with making hemoglobin, that leads to a microcytic anemia. Pretty much all of the other
underproduction anemias fall into the realm of
the normocytic anemias. Again, we're going to go into specifics about the different types of anemias, but this diagram is a very good paradigm into organizing your thinking about the different types of anemias. As we go along, it's important to place the anemias where they fall within this diagram, because it helps you to keep them organized in your mind.