Microcyte Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Microcyte and links to relevant pages within the course.
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| The condition most likely associated with the peripheral blood picture shown in the photograph is: | View Page |
| Conditions in which erythrocytes as photographed here may be present in a peripheral blood smear include: | View Page |
| Hemolytic disease of the newborn Jaundice was recognized in a day-old infant. Notice particularly the size variation (anisocytosis) of the erythrocytes on the infant's peripheral smear. What does this observation mean? Does it provide immediate information that might serve as guidance in expediting diagnosis and treatment? Note that normal-sized red blood cells, microcytes, microspherocytes, macrocytes, and nucleated red blood cells are all present. Red cell variations are expected findings in healthy neonates, but the variations here are exaggerated. Hyposplenic functional features may appear, including acanthocytes, spherocytes, and possibly Howell-Jolly bodies, especially if hemolysis is particularly vigorous. A high (3-7%) reticulocyte count is not unusual during the first three or four days after birth, however, the marrow in this jaundiced infant is proliferating vigorously in response to hemolysis. A call for more red cells is urgent. Immature red cells (in the form of nucleated red cells) and red cells with stippling of RNA (basophilic stippling) are readily identified. Red cell maturation sequence has not been totally processed in the marrow nor is all residual red cell debris removed by the spleen. In the lower photograph are reticulocytes stained by supravital stain (new methylene blue). Basophilic stippling (specks of RNA) stains with both supravital stains and with routine Wright-Giemsa stain. | View Page |
| Spherocytes and reticulocytes The photograph represents peripheral blood smear findings in another patient with hereditary spherocytosis. The red cells vary in size (anisocytosis)with a mixture of microcytes (red cells with central pallor) and microspherocytes (red cells with central staining). Macrocytes are conspicuous, some staining light blue. They are immature erythrocytes (reticulocytes)released from the bone marrow early. The bone marrow, geared up for rapid cell release in response to severe hemolysis, expels young red blood cells into the circulation before completing their 24 hour maturation cycle. Hemolysis, jaundice, and gall stone formation disappear following splenectomy. Gallbladder and stone removal eliminate the right upper quadrant pain. A serious consideration, especially in children with hereditary spherocytosis, is hemolytic crisis. A viral infection may allow red blood cell destruction to continue unabated. Anemia of such sudden onset and severity may become catastrophic, with death as the outcome. Splenectomy removes this possibility. | View Page |
| Warm antibody hemolytic disease A 49-year-old male with pneumonia was treated with penicillin. He became jaundiced with yellow sclera. Observe the photograph of his peripheral blood smear. Anisocytosis was observed with pale-centered microcytes and polychromatophilic macrocytes. Since penicillin is a classic offender for autoimmune hemolytic disease, the clinician asked for an antihuman globulin (AHG) test, also known as the Coombs test. A positive AHG reaction occurs when the antibody stimulated by penicillin becomes attached to red blood cells. Hemolysis follows, leaving the patient with jaundice and a peripheral blood smear, as demonstrated in the photograph. | View Page |
| Considering the predominance of microspherocytes on the blood smear, and the patient's jaundiced condition, what is the most likely diagnosis? | View Page |
| Using the lymphocyte as a guideline, the two cells below the lymph and in the center would be described as: | View Page |
| Microcyte with Normal Hemoglobin Content A microcyte with normal hemoglobin content (one-third of central pallor) can be seen in the center of this field, just below and to the left of the lymphocyte. Since many of the other cells in this field are normal or larger than normal, the MCV would be within the normal range although the diameter and volume of this individual cell would be lower than normal. This type of microcyte can be seen in some hemolytic anemias and the rare enzyme deficiency, pyruvate kinase deficiency anemia. | View Page |
| Summary of Microcytes To summarize, microcytes have a diameter of less than 7 microns and an MCV of less than 80 cubic microns. Two types of microcytes can be seen, those with increased central pallor and those with normal central pallor. | View Page |
| Pseudomacrocytes Pseudo macrocytes, as well as some microcytes, can be seen in this slide. Notice that pseudomacrocytes do not have the oval appearance seen in some megalocytes. | View Page |
| The round and oval red cells with diameters of greater than 9 microns and decreased central pallor seen in this slide are example of: | View Page |
| The cell in the center of this slide would be a: | View Page |
| Which of the following characteristics can be seen in the microcytes present in some hemolytic disorders? | View Page |
| The cell population in this field is: | View Page |
| Microcyte Diameter The diameter of microcytes is less than 7 microns and the MCV is below 80 cubic microns. Notice that many of the red cells shown in this field are smaller than the lymphocyte and, in addition, have a greater area of central pallor. This type of microcyte can be seen in iron deficiency anemia and thalassemia. | View Page |
| Another Example of Microcytes Another example of microcytes seen in a slide from a patient with hemolytic anemia. Compare the two microcytes in the center of the field with the lymphocyte to the right. Notice the larger red cell just below the microcytes is about the same size as the lymphocyte. Several other microcytes can also be seen in this field. | View Page |
| Size Variation Red blood cells can vary in size (diameter/volume) from smaller than normal, microcytes, to larger than normal, macrocytes. When red cells of normal size, microcytes and macrocytes are present in the same field, the term anisocytosis is used.Since the purpose of this unit is to acquaint you with the appearance (identification) of abnormal red cell morphology, percentages of abnormalities present will not be considered. It is important to be aware that rating red cell morphology for the purpose of reporting it is a skill which must be learned before you are able to complete this aspect of a differential count. | View Page |