Affiliation:
1. Unit of Diagnosis and Treatment of Congenital Metabolic Diseases, Department of Pediatrics, Hospital Clínico Universitario de Santiago de Compostela, Santiago de Compostela, Spain
Abstract
Approximately 25-50 million Americans, 30 million Europeans, and 8% of the
Australian population have a rare disease. Rare diseases are thus a common problem for clinicians
and account for enormous healthcare costs worldwide due to the difficulty of establishing
a specific diagnosis. In this article, we review the milestones achieved in our understanding
of rare diseases since the emergence of next-generation sequencing (NGS) technologies
and analyze how these advances have influenced research and diagnosis. The first half of this
review describes how NGS has changed diagnostic workflows and provided an unprecedented,
simple way of discovering novel disease-associated genes. We focus particularly on
metabolic and neurodevelopmental disorders. NGS has enabled cheap and rapid genetic diagnosis,
highlighted the relevance of mosaic and de novo mutations, brought to light the wide
phenotypic spectrum of most genes, detected digenic inheritance or the presence of more than
one rare disease in the same patient, and paved the way for promising new therapies. In the
second part of the review, we look at the limitations and challenges of NGS, including determination
of variant causality, the loss of variants in coding and non-coding regions, and the
detection of somatic mosaicism variants and epigenetic mutations, and discuss how these can
be overcome in the near future.
Publisher
Bentham Science Publishers Ltd.
Subject
Pharmacology,Molecular Medicine,Drug Discovery,Biochemistry,Organic Chemistry
Cited by
107 articles.
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