Your search keyword '"Erick Lin"' showing total 3 results

1. Challenges and opportunities for next-generation sequencing in companion diagnostics

Author

Jian-Bing Fan, Erick Lin, Jeremy Chien, and Frank S Ong

Subjects

Genetics, Cancer genome sequencing, Whole genome sequencing, Genome, Human, Knowledge Bases, Bisulfite sequencing, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Biology, Molecular diagnostics, Precision medicine, DNA sequencing, Pathology and Forensic Medicine, Molecular Diagnostic Techniques, Humans, Molecular Medicine, Precision Medicine, Molecular Biology, Exome sequencing, Companion diagnostic

Abstract

The rapid decline in sequencing costs has allowed next-generation sequencing (NGS) assays, previously ubiquitous only in research laboratories, to begin making inroads into molecular diagnostics. Genotypic assays - DNA sequencing - include whole genome sequencing, whole exome sequencing, focused assays that target only a handful of genes. Phenotypic assays comprise a broader spectrum of options and can query a variety of epigenetic modifications of DNA (such as ChIP-seq, bisulfite sequencing, DNase-I hypersensitivity site-sequencing, Formaldehyde-Assisted Isolation of Regulatory Elements-sequencing, etc.) that regulate gene expression-related processes or gene expression (RNA-sequencing) itself. To date, the US FDA has only cleared 12 DNA-based companion diagnostic tests, all in cancer. Although challenges exist for NGS in companion diagnostics, the wide-ranging capabilities of NGS offer extraordinary opportunities for the development and implementation of NGS-based companion diagnostics to probe oncogenes, tumor suppressor genes and cancer-enabling genes.

Published

2014

2. Clinical investigational studies for validation of a next-generation sequencingin vitrodiagnostic device for cystic fibrosis testing

Author

Wendy M Goldstein, Daynna J. Wolff, Jay Stoerker, Julie A. Woolworth, Erick Lin, W. Edward Highsmith, Manjula Chelliserry, Jonathan San, Kenneth J. Friedman, Kristina M. Kruglyak, Patricia Devers, Sharmili Moturi, Ross Edward Lenta, Frank S Ong, Lynda Hague, Barbara Elashoff, Brandy Klotzle, Eric Peters, and Daniel S. Grosu

Subjects

Sanger sequencing, Reproducibility, Cystic Fibrosis, business.industry, High-Throughput Nucleotide Sequencing, Reproducibility of Results, Sequence Analysis, DNA, Sequencing by synthesis, medicine.disease, Sensitivity and Specificity, Cystic fibrosis, Molecular biology, In vitro diagnostic, DNA sequencing, Pathology and Forensic Medicine, symbols.namesake, Molecular Diagnostic Techniques, Genetics, medicine, symbols, Humans, Molecular Medicine, business, Molecular Biology

Abstract

Clinical investigational studies were conducted to demonstrate the accuracy and reproducibility of the Illumina MiSeqDx CF System, a next-generation sequencing (NGS) in vitro diagnostic device for cystic fibrosis testing.Two NGS assays - a Clinical Sequencing Assay (Sequencing Assay) and a 139-Variant Assay (Variant Assay) - were evaluated in both an Accuracy Study and a Reproducibility Study, with comparison to bi-directional Sanger sequencing and PCR as reference methods. For each study, positive agreement (PA), negative agreement (NA), and overall agreement (OA) were evaluated.In the Accuracy Study, the Sequencing Assay achieved PA of 99.7% including the polyTG/polyT region and PA of 100% excluding the region. The Variant Assay achieved PA of 100%. NA and OA were99.99% for both Assays. In the Reproducibility Study, the Sequencing Assay achieved PA of 99.2%; NA and OA were both 99.7%. The Variant Assay achieved PA of 99.8%; NA and OA were both 99.9%. Sample pass rates were 99.7% in both studies for both assays.This is the first systematic evaluation of a NGS platform for broad clinical use as an in vitro diagnostic, including accuracy validation with multiple reference methods and reproducibility validation at multiple clinical sites. These NGS-based Assays had accurate and reproducible results which were comparable to or better than other methods currently in clinical use for clinical genetic testing of cystic fibrosis.

Published

2014

3. Next-generation sequencing in precision oncology: challenges and opportunities

Author

Kristina M. Kruglyak, Erick Lin, and Frank S Ong

Subjects

business.industry, High-Throughput Nucleotide Sequencing, Cancer, Genomics, Disease, Computational biology, Medical Oncology, medicine.disease, Bioinformatics, DNA sequencing, Pathology and Forensic Medicine, Precision oncology, Neoplasms, Cancer screening, Genetics, Humans, Molecular Medicine, Medicine, Personalized medicine, business, Molecular Biology, Blood drawing

Abstract

High throughput gene sequencing is transforming the utilization of genomics in patient care by providing physicians with a powerful tool to aid the diagnosis and management of disease, particularly in precision oncology. As next-generation sequencing (NGS)-based diagnostic assays are developed, significant hurdles such as assessing tumor heterogeneity, characterizing 'driver' and 'passenger' mutations, typing molecular signatures of individual cancers and determining limits of detection pose significant challenges for clinical laboratories and downstream bioinformatics analyses. Despite these challenges, NGS has the potential to affect all facets of cancer treatment, including early detection and diagnosis through cancer screening in at-risk populations and assessing therapeutic efficacy by detection of circulating tumor DNA via noninvasive blood draws. As the utilization of NGS in precision oncology matures, NGS-based laboratory tests could be used throughout the evolution of cancer in patients and allow for cancers to be monitored and managed as a chronic disease, rather than an acute condition.

Published

2014