TY - CHAP M1 - Book, Section TI - Hereditary and Acquired Sideroblastic Anemias A1 - Lichtman, Marshall A. A1 - Kaushansky, Kenneth A1 - Prchal, Josef T. A1 - Levi, Marcel M. A1 - Burns, Linda J. A1 - Armitage, James O. PY - 2017 T2 - Williams Manual of Hematology, 9e AB - Sideroblastic anemias may be acquired or hereditary and are classified in Table 11–1.Normal red cell precursors have cytoplasmic organelles termed siderosomes that contain aggregated iron-rich ferritin. They can be seen in erythroblasts by transmission electron microscopy and represent normal structures providing iron for hemoglobin synthesis. These aggregates may be below the resolution of the light microscope. Thus, in Prussian blue–stained marrow specimens, about 20% to 40% of red cell precursors have one to three very small, pinhead-sized blue granules in the cytoplasm under oil immersion optics, depending on the quality of the preparation.Pathologic sideroblasts are of two types. The classical type is a ringed sideroblast with large, Prussian blue–stained granules in a circumferential position around the nucleus of the erythroblast. This position reflects their intramitochondrial location: mitochondria in erythroblasts being positioned closely surrounding the nucleus. The other type of pathologic sideroblast has large and multiple cytoplasmic granules (see Figure 11–1).Sideroblastic anemias are characterized by:— Commonly a population of hypochromic erythrocytes in the blood film (dimorphic picture)— Increased red cell precursors in the marrow in the face of anemia and a low reticulocyte count— Anemia that is the result of apoptosis of late erythroid precursors (ie, ineffective erythropoiesis), with increased plasma iron turnover and normal to decreased red cell survival— Drugs that reduce the formation of pyridoxal 5′-phosphate from pyridoxine decrease heme synthesis and can cause sideroblastic anemia SN - PB - McGraw-Hill Education CY - New York, NY Y2 - 2024/03/29 UR - hemonc.mhmedical.com/content.aspx?aid=1133362615 ER -