Upasana Joneja1, Gene Gulati1, Alina Dulau Florea1,2, Jerald Gong1. 1. Department of Pathology, Anatomy and Cell Biology, Sydney Kimmel Medical College, Thomas Jefferson University, Philadelphia, PA. 2. Department of Laboratory Medicine, Hematology Section, National Institutes of Health, Clinical Center, Bethesda, MD.
Abstract
BACKGROUND: Microcytic erythrocytosis is an underrecognized and underevaluated complete blood count (CBC) finding. The literature pertaining to the determination of its etiology specifically by hemoglobin variant analysis is limited. METHODS: We performed hemoglobin variant analysis by high performance liquid chromatography on 137 patients who revealed microcytic erythrocytosis on CBC, and reviewed the results for the diagnosis of hemoglobin-associated disorders. RESULTS: A diagnosis of thalassemia trait and/or a hemoglobinopathy was established in 93 of 137 (67.9%) patients. Amongst these, ß-thalassemia trait topped the list with 69 cases (74.1%), followed by hereditary persistence of fetal hemoglobin with 5 cases (5.5%), Hemoglobin E disease with 4 cases (4.3%), and ∂/ß-thalassemia with 2 cases (2.1%). Compound heterozygous conditions with 1 or more hemoglobinopathies and/or thalassemias were diagnosed in 13 cases (14.0%). Abnormal hemoglobins in the compound heterozygosity group included C, S, HPFH, and 2 unknowns. CONCLUSION: Hemoglobin variant analysis provided a very high positive yield in determining the etiology of microcytic erythrocytosis.
BACKGROUND: Microcytic erythrocytosis is an underrecognized and underevaluated complete blood count (CBC) finding. The literature pertaining to the determination of its etiology specifically by hemoglobin variant analysis is limited. METHODS: We performed hemoglobin variant analysis by high performance liquid chromatography on 137 patients who revealed microcytic erythrocytosis on CBC, and reviewed the results for the diagnosis of hemoglobin-associated disorders. RESULTS: A diagnosis of thalassemia trait and/or a hemoglobinopathy was established in 93 of 137 (67.9%) patients. Amongst these, ß-thalassemia trait topped the list with 69 cases (74.1%), followed by hereditary persistence of fetal hemoglobin with 5 cases (5.5%), Hemoglobin E disease with 4 cases (4.3%), and ∂/ß-thalassemia with 2 cases (2.1%). Compound heterozygous conditions with 1 or more hemoglobinopathies and/or thalassemias were diagnosed in 13 cases (14.0%). Abnormal hemoglobins in the compound heterozygosity group included C, S, HPFH, and 2 unknowns. CONCLUSION: Hemoglobin variant analysis provided a very high positive yield in determining the etiology of microcytic erythrocytosis.
Authors: John D Lafferty; David S Barth; Brian L Sheridan; Andrew G McFarlane; Linda M Halchuk; Mark A Crowther Journal: Am J Clin Pathol Date: 2007-02 Impact factor: 2.493