Iron Metabolism
The main source of Iron is through dietary intake. Iron can be found in
many food sources, such as red meats, and cereal. Iron is an important
component in synthesizing RBCs. In a normal adult, 15-20mg of iron is needed
daily. Before knowing what causes Iron Deficiency Anaemia (IDA), we should know
the metabolism of iron in our body.
The above shown is a Haem molecule, and in the middle of what we call a
Haem pocket, is an Iron atom. So with decreased iron intake, there will be
slower and lesser haemoglobin synthesis in our blood.
Iron, in the ferrous form (Fe2+), is being absorbed into the
plasma in the duodenum and upper jejunum location. Fe2+ is
carried across the enterocyte microvilli by active transport, facilitated by Divalent metal transporter (DMT-1). This
process, which involves releasing Fe2+ from the enterocyte into
the plasma, is regulated by ferroportin.
Fe2+ has to be reduced to Fe3+ (Ferric form) before
binding to apoferritin. After
apoferritin binds to Fe3+, it forms a water soluble protein-iron complex, called Ferritin. Ferritin is then transported by Transferrin to the bone marrow for erythropoiesis.
In the bone marrow…
Erythroid progenitors expresses transferrin receptors (TfR), which recognizes and binds to ferritin. These cells then utilizes the iron in the Ferritin to synthesize haemoglobin, during erythrocyte maturation. In the Bone marrow, Macrophages serves as an iron source for the Erythroid progenitors for Haem synthesis.
Erythroid progenitors expresses transferrin receptors (TfR), which recognizes and binds to ferritin. These cells then utilizes the iron in the Ferritin to synthesize haemoglobin, during erythrocyte maturation. In the Bone marrow, Macrophages serves as an iron source for the Erythroid progenitors for Haem synthesis.
In IDA
There are 3 stages of IDA progression.
In stage 1:
There is a progressive loss of Iron
Storage, but there is still enough storage iron to maintain Transport & Functional iron.
Therefore, erythrocytes development are still normal at this stage. However,
stage 1 IDA is evident with low levels of
ferritin.
In stage 2:
At this stage, the storage iron is already low, so RBC production
relies on transport iron. Anaemia
may not be present at this stage, but there will be progressive loss of Hb. So
Hb may be within the reference range, but stage 2 IDA will be evident with low levels of ferritin and serum iron.
In stage 3:
All iron sources (storage & transport iron) will be depleted, and
patients would be suffering from anaemia. As shown above, iron is needed for
RBC production and Hb synthesis, therefore, in IDA, there will be decreased Hb
and affected RBC production. When we view the Peripheral Blood Film (PBF) of
these patients, their RBCs will
appear hypochromic and microcytic.
Laboratory and clinical diagnosis
In the clinical situation when doctors observe for any clinical
presentations, they might find patients to be having Glossitis, angular
stomatitis, koilonychia.
Glossitis:
Inflammation of the tongue, which causes the tongue to swell, so it will have a
shiny appearance.
Angular
stomatitis: Inflammation at the corners of the mouth.
Koilonychia: Spoon
shaped fingernail
So upon such
observations, the doctor might do a blood test and order for a Full Blood Count
(FBC), and PBF. FBC will show:
- Low Hb (for patients at the late stage)
- Low MCV (microcytic cells)
- Low MCHC
- Low MCH (hypochromic cells)
- Low Haematocrit (decreased RBC production)
- Low Hb (for patients at the late stage)
- Low MCV (microcytic cells)
- Low MCHC
- Low MCH (hypochromic cells)
- Low Haematocrit (decreased RBC production)
As only RBCs are
affected, the White Blood Cells and Platelets in this case will be normal,
unless other complications occurs.
In their PBF, we
can see anisocytosis (RBCs of various sizes), poikilocytosis (red blood cells
of various shapes), or we can observe elliptocytosis (pencil cells).
To remember these 3 observations, I remember them as APE.
To remember these 3 observations, I remember them as APE.
Discrepancies
There
are certain cases which can falsely elevate the ferritin levels in IDA:
- - Liver dysfunction: Hepatocytes are
damaged in level disease, which releases the ferritin into plasma.
- - Increased haem turnover: Haemolysis and
trauma will also release ferritin.
- - Inflammatory lesions: Includes
malignancy, infections and inflammation. The mechanism to why inflammation causes ferritin elevations are unclear,
however, serum ferritin can be used as an
inflammatory marker.
Treatment
There are 2 kinds
of treatment for IDA:
I)
Oral Iron Therapy
II)
Intra-muscular parental iron
Thanks for all of your time & work.
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