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Implementation of Cloud based next generation sequencing data analysis in a clinical laboratory.


ABSTRACT:

Background

The introduction of next generation sequencing (NGS) has revolutionized molecular diagnostics, though several challenges remain limiting the widespread adoption of NGS testing into clinical practice. One such difficulty includes the development of a robust bioinformatics pipeline that can handle the volume of data generated by high-throughput sequencing in a cost-effective manner. Analysis of sequencing data typically requires a substantial level of computing power that is often cost-prohibitive to most clinical diagnostics laboratories.

Findings

To address this challenge, our institution has developed a Galaxy-based data analysis pipeline which relies on a web-based, cloud-computing infrastructure to process NGS data and identify genetic variants. It provides additional flexibility, needed to control storage costs, resulting in a pipeline that is cost-effective on a per-sample basis. It does not require the usage of EBS disk to run a sample.

Conclusions

We demonstrate the validation and feasibility of implementing this bioinformatics pipeline in a molecular diagnostics laboratory. Four samples were analyzed in duplicate pairs and showed 100% concordance in mutations identified. This pipeline is currently being used in the clinic and all identified pathogenic variants confirmed using Sanger sequencing further validating the software.

SUBMITTER: Onsongo G 

PROVIDER: S-EPMC4036707 | biostudies-literature | 2014 May

REPOSITORIES: biostudies-literature

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Implementation of Cloud based next generation sequencing data analysis in a clinical laboratory.

Onsongo Getiria G   Erdmann Jesse J   Spears Michael D MD   Chilton John J   Beckman Kenneth B KB   Hauge Adam A   Yohe Sophia S   Schomaker Matthew M   Bower Matthew M   Silverstein Kevin A T KA   Thyagarajan Bharat B  

BMC research notes 20140523


<h4>Background</h4>The introduction of next generation sequencing (NGS) has revolutionized molecular diagnostics, though several challenges remain limiting the widespread adoption of NGS testing into clinical practice. One such difficulty includes the development of a robust bioinformatics pipeline that can handle the volume of data generated by high-throughput sequencing in a cost-effective manner. Analysis of sequencing data typically requires a substantial level of computing power that is oft  ...[more]

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