Introduction: Rare pediatric diseases are clinically severe with high rates of mortality and morbidity. This paper outlines how next-generation sequencing (NGS) can be used to greatly advance identification of the underlying genetic causes. Areas covered: This manuscript is a blend of evidence obtained from literature searches from PubMed and rare disease related websites, laboratory experience and the author’s opinions. The paper covers the current state of the field and identifies where the challenges lie and how they are being overcome, using up-to-date references. Expert commentary: The field of NGS is still relatively new but it has already transformed the field of rare disease research. Technological advances in instrumentation,...
OBJECTIVE: The aim of this thesis is to summarize the contributions of NGS techniques in the genetic...
The study of rare diseases uses next-generation sequencing (NGS) technology to detect causative muta...
Orphan diseases are individually uncommon but collectively contribute significantly to pediatric mor...
INTRODUCTION: Rare pediatric diseases are clinically severe with high rates of mortality and morbidi...
International audienceThe advent of next generation sequencing (NGS) technologies is so scale-changi...
Next generation sequencing (NGS) has revolutionised rare disease diagnostics. Concomitant with advan...
Genetics has been revolutionised by recent technologies. The latest addition to these advances is ne...
Genetics has been revolutionised by recent technologies. The latest addition to these advances is ne...
Despite the small sample size that often complicates research into diseases that affect children, re...
The advancements made in next‐generation sequencing (NGS) technology over the past two decades have ...
In recent years the technology of new generation sequencing technology (NGS) has become an important...
Background: Genetic testing in inherited disease has traditionally relied upon recognition of the pr...
Advances in DNA sequencing technologies through Next Generation Sequencing (NGS) approaches have ena...
Introduction: Rare diseases are heterogeneous group of diseases, with one common characteristics, a ...
AIMS: The causes of intellectual disability, which affects 1%-3% of the general population, are high...
OBJECTIVE: The aim of this thesis is to summarize the contributions of NGS techniques in the genetic...
The study of rare diseases uses next-generation sequencing (NGS) technology to detect causative muta...
Orphan diseases are individually uncommon but collectively contribute significantly to pediatric mor...
INTRODUCTION: Rare pediatric diseases are clinically severe with high rates of mortality and morbidi...
International audienceThe advent of next generation sequencing (NGS) technologies is so scale-changi...
Next generation sequencing (NGS) has revolutionised rare disease diagnostics. Concomitant with advan...
Genetics has been revolutionised by recent technologies. The latest addition to these advances is ne...
Genetics has been revolutionised by recent technologies. The latest addition to these advances is ne...
Despite the small sample size that often complicates research into diseases that affect children, re...
The advancements made in next‐generation sequencing (NGS) technology over the past two decades have ...
In recent years the technology of new generation sequencing technology (NGS) has become an important...
Background: Genetic testing in inherited disease has traditionally relied upon recognition of the pr...
Advances in DNA sequencing technologies through Next Generation Sequencing (NGS) approaches have ena...
Introduction: Rare diseases are heterogeneous group of diseases, with one common characteristics, a ...
AIMS: The causes of intellectual disability, which affects 1%-3% of the general population, are high...
OBJECTIVE: The aim of this thesis is to summarize the contributions of NGS techniques in the genetic...
The study of rare diseases uses next-generation sequencing (NGS) technology to detect causative muta...
Orphan diseases are individually uncommon but collectively contribute significantly to pediatric mor...