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Whole genome sequencing in clinical practice

Frederik Otzen Bagger, Line Borgwardt, Andreas Sand Jespersen, Anna Reimer Hansen, Birgitte Bertelsen, Miyako Kodama, Finn Cilius Nielsen

2024BMC Medical Genomics155 citationsDOIOpen Access PDF

Abstract

Whole genome sequencing (WGS) is becoming the preferred method for molecular genetic diagnosis of rare and unknown diseases and for identification of actionable cancer drivers. Compared to other molecular genetic methods, WGS captures most genomic variation and eliminates the need for sequential genetic testing. Whereas, the laboratory requirements are similar to conventional molecular genetics, the amount of data is large and WGS requires a comprehensive computational and storage infrastructure in order to facilitate data processing within a clinically relevant timeframe. The output of a single WGS analyses is roughly 5 MIO variants and data interpretation involves specialized staff collaborating with the clinical specialists in order to provide standard of care reports. Although the field is continuously refining the standards for variant classification, there are still unresolved issues associated with the clinical application. The review provides an overview of WGS in clinical practice - describing the technology and current applications as well as challenges connected with data processing, interpretation and clinical reporting.

Topics & Concepts

Human geneticsWhole genome sequencingComputational biologyIdentification (biology)Personalized medicineData scienceComputer sciencePrecision medicineClinical PracticeDNA sequencingGenomeBiologyData miningBioinformaticsGeneticsMedicineGeneBotanyFamily medicineGenomics and Rare DiseasesGenetic factors in colorectal cancerCancer Genomics and Diagnostics
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