RT Book, Section A1 Prchal, Josef T. A2 Prchal, Josef T. A2 Lichtman, Marshall A. SR Print(0) ID 1184013886 T1 Primary and Secondary Erythrocytoses (Polycythemias) T2 Williams Hematology The Red Cell and Its Diseases YR 2022 FD 2022 PB McGraw Hill PP New York, NY SN 9781264269075 LK hemonc.mhmedical.com/content.aspx?aid=1184013886 RD 2024/11/07 AB SUMMARYIncreased red cell mass has been variably termed either erythrocytosis or polycythemia; no clear consensus for either term has been achieved. Some interpret the meaning of polycythemia to imply that several lineages are increased (ie, erythrocytosis, neutrophilia, and thrombocytosis); the only form of polycythemia is polycythemia vera (PV). Others, such as the late Allan Erslev, the editor and an author of earlier editions of Williams Hematology, argued that the proper meaning of polycythemia is too many cells in blood. Hence, one cannot have 6 × 109/L of leukocytes or platelets, but more than 6 × 109/L is seen in many conditions described here. Because the acceptance of first definition is increasing, this chapter reserves the term polycythemia only for PV. This may lead to initial difficulties when reviewing the literature as the entities of Chuvash polycythemia, are now designated Chuvash erythrocytosis. Similarly, the autosomal dominant erythrocytosis stemming from the germ line gain-of-function mutations of erythropoietin receptor is generally known as primary familial and congenital polycythemia but will be referred to here as erythrocytosis.Primary polycythemias/erythrocytoses are caused by acquired or inherited mutations causing functional changes within hematopoietic stem cells or erythroid progenitors leading to an accumulation of red cells. The most common primary erythrocytosis, PV, which is a clonal disorder. The other primary erythrocytosis that is inherited from mutations in the erythropoietin receptor is discussed herein. In contrast, secondary erythrocytoses are caused by either an appropriate or inappropriate increase in the red cell mass, most often as a result of augmented levels of erythropoietin; these erythrocytoses can also be either acquired or hereditary. Some congenital disorders of hypoxia sensing share features of both primary and secondary erythrocytoses, and these are also discussed in this chapter. Although the clinical presentations of primary and secondary erythrocytoses may be similar, distinguishing among them is important for accurate diagnoses and proper management.For example, secondary erythrocytosis states that represent an appropriate physiological compensation to tissue hypoxia should not be treated by phlebotomies. An occasional patient may experience hyperviscosity symptoms and may benefit from isovolemic reduction of hematocrit. Inappropriate erythrocytoses are caused by erythropoietin-secreting tumors; self-administration of erythropoiesis-stimulating agents, including, inherited disorders of hypoxia sensing; or, rarely, some endocrine disorders (described in Chap. 7). Correction of hypoxia, discontinuation of erythropoiesis-stimulating agents, or resection of erythropoietin-secreting tumors typically corrects the associated erythrocytosis.