Feno-genotipificación de trombocitopenias hereditarias: nuestra experiencia en 50 familias

Diagnosis of inherited thrombocytopenias represents a true challenge owing to heterogeneity of these disorders and the absence of distinctive features in a substantial proportion of patients. Classical diagnostic approach is based on phenotypic characterization followed by molecular analysis of candidate genes guided by clinical suspicion. The introduction of next generation sequencing (NGS), that allows multiple genes analysis, is a high-cost alternative with limited access in our country. The aim of this work was to evaluate the utility of the classical approach in a consecutive cohort of 50 families and to describe the application of NGS in a subgroup of patients without an etiological diagnosis after the initial approach.Through the conventional approach, an etiologic diagnosis was made in 27 (54%) families. NGS wasperformed in 8 that remained without diagnosis after initial characterization, attaining a diagnosis in4. Combining both approaches, the diagnostic yield was 31/50 (62%) families: 38% MYH9-related disorder, 8% Bernard-Soulier syndrome, 4% gray platelet syndrome, 4% familial platelet disorder with predisposition to leukemia, 6% ANKRD26-related thrombocytopenia, 2% Wiskott-Aldrich syndrome. Most patients without diagnosis had isolated macrothrombocytopenia and mild bleeding. NGS increased the diagnostic rate in this cohort, although it would be necessary to expand the population to establish its actual value in our setting. Therefore, the use of the classical approach and subsequent application of NGS in undiagnosed patients would represent a useful alternative in low-income countries, pointing out that a correct etiological diagnosis enables the detection of syndromic complications, appropriate treatment and adequate genetic counseling.