Size, Shape & Arrangement
| RBC Trait
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Appearance
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Physiology
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Associated Conditions
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Follow-up Testing
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| Rouleaux
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Stacked formation ("stack of coins") in monolayer
- Often seen with blue background staining
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- Increased amount of plasma proteins
- Excess protein have + charge that reduces RBC membrane charge (zeta potential)
- Reduced charge allows cells to stack (due to biconcave shape)
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- Multiple myeloma/plasma cell myeloma
- Chronic liver disease
- Lymphomas
- Acute and chronic inflammatory diseases (especially when plasma proteins like fibrinogen or globulins are increased)
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Saline replacement to remove excess protein
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| Agglutination
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Irregular clumping of cells in monolayer
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- Caused by IgM antibodies (cold agglutinins)
- Large antibodies can span zeta potential gaps and form lattice with other antibody-coated cells
- IgMs bind to RBCs at room temperature
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- Cold autoimmune hemolytic anemia
- IgM-associated lymphomas
- Multiple myeloma
- Paroxysmal cold hemoglobinuria
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Pre-warm sample to 37C to dissociate cold IgMs
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| Microcytosis
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Smaller cells (round, biconcave)
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- More divisions causing smaller cells
- Hemoglobin errors - cells continue dividing to reach adequate hemoglobin concentrations
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- Thalassemia (small, uniform size - N RDW)
- IDA (small, varying size - ↑ RDW)
- Anemia of chronic inflammation
- Lead poisoning
- Hemoglobinopathies
- Sideroblastic anemia
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| Macrocytosis
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Round macrocytes (size)
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- Increases in cell membrane size (more cholesterol)
- Retain shape, but with larger membrane
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Moderate ↑ MCV
- Liver disease
- Normal neonate
- Reticulocytosis
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| Oval macrocytes (shape)
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- Fewer divisions causing larger cells - errors in DNA synthesis
- Cytoplasm increases, but DNA doesn't (asynchrony)
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Marked ↑ MCV
- Megaloblastic anemia (B12/folate deficiency)
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| Hypochromasia
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Cells >1/3 central pallor
- 1/2-2/3 moderate
- >3/4 marked
- Consistent field-to-field, gradual colour change
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- Decreased or abnormal hemoglobin
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- IDA
- Thalassemias
- Sideroblastic anemia
- Lead poisoning
- Some anemia of chronic inflammation
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↓ MCH, ↓ MCHC
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| Increased polychromasia
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Larger, irregular bluish cells, without central pallor
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- Cells at final stage of RBC maturation
- Have lost nucleus but have not assumed final biconcave shape
- Increase indicates bone marrow response to push out immature cells (compensatory mechanism)
|
- 0.5-2.5% normal in adults
- Increased in conditions causing RBC damage or destruction
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Reticulocyte count
- Manual supravital staining (methylene blue to visualize RNA)
- Automated immature reticulocyte fraction (IRF) to stain nucleic acids
|
Poikilocytosis
NOTE: be careful when distinguishing poikilocytosis from artifacts.
| RBC Trait
|
Appearance
|
Physiology
|
Associated Conditions
|
Follow-up Testing
|
| Sickle Cells (Drepanocytes)
|
Hemoglobin S
Elongated cells with pointed ends; may be curved
- Dark red/pink, without central pallor
|
- Cells carry mutated globin chains (hemoglobin S)
- When O2 is low, hemoglobin S polymerizes and forms long fibre 'crystals' that distort cell shape
- Repeated sickling permanently alters cell
|
- Sickle cell disease or anemia
- Sickle cell trait
|
- Sickle cell solubility test
- Hemoglobin electrophoresis
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| Hemoglobin SC
|
Hemoglobin SC
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Cells carry mutated globin chains for both hemoglobin S and hemoglobin C
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| Hemoglobin C
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Hemoglobin C
- Gold bar (dense, rounded rectangle)
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Cells carry mutated globin chains (hemoglobin C)
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| Oval Macrocytes
|
Oval macrocytes
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- Fewer divisions causing larger cells - errors in DNA synthesis
- Unable to synthesize DNA due to vitamin deficiency
- Cytoplasm increases, but DNA doesn't duplicate so cell doesn't divide (asynchrony)
|
Marked ↑ MCV (>80 fL)
- Megaloblastic anemia (B12/folate deficiency)
|
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| Spherocytes
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Spherocytes
Small, dense, dark, round cells without central pallor
|
- RBCs lose portions of membrane during circulation
- Intrinsic abnormalities
- Immune hemolysis
- Fibrin strands
- Thermal injury
- Damage to membrane results in smaller cell size, becoming more spheroid
- Hemoglobin concentrated in smaller cell
|
↑ MCHC (>360 g/L)
- Hereditary spherocytosis
- Hemolytic anemias
- Transfused cells (during storage)
- Severe burns
|
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| Microspherocyte
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| Target cells (codocytes)
|
Cells appear with bull's eye in centre
|
- Relative increase in RBC surface membrane
- Loss of hemoglobin reducing volume
- Excess membrane cholesterol/phospholipid
|
Macrocytic
Normocytic
- Hemoglobin disorders (sickle cell, HGB C or E)
Microcytic
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| Ovals/Pencils
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Ovalocytes
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| Elliptocytes (Pencils)
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| Teardrop Cells
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| Acanthocytes (Spur cells)
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| Echinocytes (Burr cells)
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| Stomatocytes
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Schistocytes (fragments)
- Schistocytes
- Helmet cells
- Bite cells
- Blister cells
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RBC Inclusions & Early Cells
Visible by normal staining
| RBC Trait
|
Appearance
|
Physiology
|
Associated Conditions
|
Follow-up Testing
|
| Howell-Jolly bodies
|
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DNA
|
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| Pappenheimer bodies
|
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Iron
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| Basophillic stippling
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RNA
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| NRBCs
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Supravital staining
| RBC Trait
|
Stain
|
Appearance
|
Physiology
|
Associated Conditions
|
Follow-up Testing
|
| Heinz bodies
|
New methylene blue
|
Purple-blue inclusions around inner membrane (may be one or multiple)
|
- Normal hemoglobin denatured by oxidative stress
- Abnormal, unstable hemoglobin precipitates out
- Removal of Heinz bodies by spleen causes bite cell formation (HBs don't deform when passing through spleen)
|
Associated with bite or blister cells
- G6PD deficiency
- Abnormal or unstable hemoglobin
- Oxidant drugs or chemicals
- Some hemoglobinopathies
|
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| Hemoglobin H
|
Brillian Cresyl Blue
|
Small, evenly dispersed blue-purple granules
- Golf ball/raspberry appearance
|
- Deletion of alpha-globin genes causes formation of beta-chain tetramers
- Abnormal hemoglobin H
- Hemoglobin H susceptible to oxidation, resulting in denaturation - forms precipitate
|
- Hemoglobin H disease (alpha thalassemia)
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| Reticulocytes
|
New methylene blue
|
Groups of blue-coloured inclusions in cell
|
- RNA present in less mature cells precipitates
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- Various (increased erythrocyte production)
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Combinations of Morphology
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| Dual Population
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Usually normal population with abnormal population
|
- Condition being treated (newer, healthy population)
- Condition plus blood transfusion
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| Normocytic/normochromic
|
Normal size and colour of RBC
|
- Normal patient
- Anemia from reduced RBC numbers (hemorrhage, burns, etc.)
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| Hypochromic/microcytic
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Small cells with large central pallor
|
- Anemia from abnormal hemoglobin production or metabolism (e.g., IDA)
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RBC Metabolism
RBC Breakdown
Extravascular Hemolysis (Macrophage-Mediated Hemolysis)
- Occurs in spleen, primarily due to splenic macrophages
- Slower movement through splenic sinusoids allows older or damaged cells to be destroyed
- RBC contents salvaged and metabolized
- Hemoglobin broken down into globin chains and iron
- Most (90%) of RBCs are destroyed this way
Intravascular Hemolysis (Fragmentation/Mechanical Hemolysis)
- Occurs inside blood vessels
- Mechanical damage to cells causing hemolysis
- Can also be caused by damage to blood vessels (e.g., clots)
- RBC contents also salvaged
- Hemoglobin binds to transport proteins (primarily haptoglobin when available, if hemoglobin oxidizes then binds to hemopexin)
- Taken to liver (hemoglobin) or excreted by kidney
- Less common (10-20%) method of RBC destruction
