New test cuts whole-genome sequencing in critically ill infants nearly in half

Sept. 30, 2015
A new test cuts the time needed for rapid whole-genome sequencing and genetic diagnosis in critically ill infants nearly in half.

Researchers at Children's Mercy Kansas City (Missouri) developed a test called STAT-Seq that cuts the time needed for rapid whole-genome sequencing and genetic diagnosis in critically ill infants nearly in half. Through a variety of enhancements, the Center for Pediatric Genomic Medicine at Children's Mercy completed the STAT-Seq test in 26 hours compared to 50 hours.

Related: Laser fluorescence powers sequencing advances

STAT-Seq can identify mutations across the genome associated with approximately 5300 known genetic diseases, and in some cases even identify previously unknown genetic diseases. In contrast, standard clinical practice calls for an array of genetic tests to be performed, which are time-consuming, costly, and can only test for a limited set of disorders.

The symptoms of genetic diseases in infants are often overlapping, making identification of a specific diagnosis difficult. Further, infants frequently show only a fraction of the full set of symptoms of genetic diseases, further complicating diagnosis and specific treatment. STAT-Seq bypasses these difficulties by casting the widest net possible to rapidly define the underlying cause of the disease.

"Establishing fast, scalable methods is a key step toward making genome sequencing a routine part of healthcare, not only for the diagnosis of genetic disease, but for a wide range of precision medicine applications," says Neil Miller, PhD, CGC, director of informatics and software development at the Center for Pediatric Genomic Medicine at Children's Mercy and a lead author of the study. "This is only possible through collaboration among a uniquely interdisciplinary team of clinical, informatics, laboratory, and genetic counseling experts."

In the retrospective study, blinded DNA samples from infants with known genetic diseases were reanalyzed using various parameters and technologies as a proof of concept. Significant time savings were achieved with Edico Genome's DRAGEN processor, which sped up data analysis from 22.5 hours to 41 minutes. To achieve the 26-hour result, the team at the Center for Pediatric Genomic Medicine also developed ultra-rapid run mode on an Illumina HiSeq 2500 sequencing instrument, saving five hours; replaced manual interpretation and reporting process with in-house VIKING software program, saving three hours; and optimized in-house software, Rapid Understanding of Nucleotide variant Effect Software (RUNES), to more quickly detect mutations in gene sequences, saving two hours.

Full details of the work appear in the journal Genome Medicine; for more information, please visit

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BioOptics World Editors

We edited the content of this article, which was contributed by outside sources, to fit our style and substance requirements. (Editor’s Note: BioOptics World has folded as a brand and is now part of Laser Focus World, effective in 2022.)

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