A 12 -year-old girl presented with a 2-to 3-month history of intermittent severe body pains, fatigue, and weight loss. A radiograph of her legs was normal. Laboratory tests showed normocytic anemia (hemoglobin, 8.7 g/dL), neutropenia (neutrophils, 0.966 3 10 9 /L), 15% blasts, and normal platelet count. Bone marrow aspirate smears showed frequent medium-sized blasts with oval or folded nuclei, condensed nuclear chromatin, inconspicuous nucleoli, high nuclear-to-cytoplasmic ratio, and frequent salmoncolored granules (panels A-B, arrows; original magnification 31000; Wright-Giemsa stain). Flow cytometry showed a large blast population expressing CD19, CD10, CD34, CD38, and TdT but no myelomonocytic or T-cell markers. Cytogenetic analysis showed an abnormal karyotype of
Aplastic anemia occurs when there is a lack of hematopoiesis in the bone marrow leading to peripheral pancytopenia. It is a rare entity and is often idiopathic. However, upon presentation, inherited bone marrow failure syndromes and acquired etiologies must be considered. Investigating causality is particularly important when multiple family members are affected, especially in a short amount of time. It is also essential to identify novel causative genetic variants of bone marrow failure in order to direct treatment in these patients. In our case series, we describe two siblings who presented two weeks apart with severe pancytopenia. The first patient is a 13 year-old non-binary female (prefers pronouns they/them/theirs) who presented from clinic after getting routine labs with white blood cell (WBC) 1.83 x10(3)/mcL, absolute neutrophil count (ANC) 0.16 x10(3)/mcL, hemoglobin (Hgb) 4.8 gm/dL, platelet 13 x10(3)/mcL. Bone marrow biopsy revealed marked hypocellularity (0-10%) with hypoplasia. The second patient is their 16 year-old brother who presented two weeks later with new-onset petechial rash and was found to have WBC 4 x10(3)/mcL, ANC 2.19 x10(3)/mcL, Hgb 6.3 gm/dL, platelet 16 x10(3)/mcL. His bone marrow biopsy demonstrated variable cellularity (10-70%), but after months of transfusion-dependence he met criteria for severe aplastic anemia. Laboratory evaluation for acquired etiologies such as infection was negative. Both patients had a shared medical history of depression briefly treated with fluoxetine, but otherwise no potential medical triggers or environmental exposures were identified. Telomere length analysis was normal and chromosomal breakage analysis was negative. Upon genetic evaluation, both patients were found to have a heterozygous variant of unknown significance of RPS19 (c.-163>T), which substitutes a moderately conserved nucleotide in the noncoding exon 1 in 5' untranslated region of RPS19. Although this variant has not been classified as pathogenic, three other variants in the 5' untranslated region of RPS19 have been reported in patients with Diamond-Blackfan Anemia (DBA). In contrast to classic DBA, these patients did not present in infancy or early childhood. Likewise, they lacked congenital anomalies or other classic phenotypic characteristics of disease. Lab studies showed normal erythrocyte adenosine deaminase levels, though it should be noted that these levels could not be obtained prior to transfusion in both patients. Given lack of other identified etiologies, however, an inherited bone marrow failure syndrome, possibly due to this variant, was presumed. With suspected but potentially unidentifiable genetic predisposition, matched sibling donor transplant was deferred and both patients underwent a matched unrelated donor bone marrow transplant with reduced-intensity conditioning. With these cases, we aim to share a unique presentation of aplastic anemia that reveals a potentially novel pathogenic variant as well as to provide our approach to medical management in pediatric aplastic anemia in the setting of uncertainty. Identification of other patients with bone marrow failure and this genetic variant will be important to determine its pathogenicity. Disclosures No relevant conflicts of interest to declare.
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