Diagnostic High-throughput Sequencing of 2396 Patients with Bleeding, Thrombotic, and Platelet Disorders

Overview

Journal Blood

Publisher Elsevier

Specialty Hematology

Date 2019 May 9

PMID 31064749

Citations 63

Authors

Kate Downes

Karyn Megy

Daniel Duarte

Minka Vries

Johanna Gebhart

Stefanie Hofer

Olga Shamardina

Sri V V Deevi

Jonathan Stephens

Rutendo Mapeta

Salih Tuna

Namir Al Hasso

Martin W Besser

Nichola Cooper

Louise Daugherty

Nick Gleadall

Daniel Greene

Matthias Haimel

Howard Martin

Sofia Papadia

Shoshana Revel-Vilk

Suthesh Sivapalaratnam

Emily Symington

Will Thomas

Chantal Thys

Alexander Tolios

Christopher J Penkett

Willem H Ouwehand

Stephen Abbs

Michael A Laffan

Ernest Turro

Ilenia Simeoni

Andrew D Mumford

Yvonne M C Henskens

Ingrid Pabinger

Keith Gomez

Kathleen Freson

Affiliations

Soon will be listed here.

Abstract

A targeted high-throughput sequencing (HTS) panel test for clinical diagnostics requires careful consideration of the inclusion of appropriate diagnostic-grade genes, the ability to detect multiple types of genomic variation with high levels of analytic sensitivity and reproducibility, and variant interpretation by a multidisciplinary team (MDT) in the context of the clinical phenotype. We have sequenced 2396 index patients using the ThromboGenomics HTS panel test of diagnostic-grade genes known to harbor variants associated with rare bleeding, thrombotic, or platelet disorders (BTPDs). The molecular diagnostic rate was determined by the clinical phenotype, with an overall rate of 49.2% for all thrombotic, coagulation, platelet count, and function disorder patients and a rate of 3.2% for patients with unexplained bleeding disorders characterized by normal hemostasis test results. The MDT classified 745 unique variants, including copy number variants (CNVs) and intronic variants, as pathogenic, likely pathogenic, or variants of uncertain significance. Half of these variants (50.9%) are novel and 41 unique variants were identified in 7 genes recently found to be implicated in BTPDs. Inspection of canonical hemostasis pathways identified 29 patients with evidence of oligogenic inheritance. A molecular diagnosis has been reported for 894 index patients providing evidence that introducing an HTS genetic test is a valuable addition to laboratory diagnostics in patients with a high likelihood of having an inherited BTPD.

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