The Ibis T5000 Universal Biosensor: An Automated Platform for Pathogen Identification and Strain Typing

David J. Ecker; Jared J. Drader; Jose R. Gutierrez; Abel Gutierrez; James C. Hannis; Amy Schink; Rangarajan Sampath; Lawrence B. Blyn; Mark W. Eshoo; Thomas A. Hall; Maria Tobarmosquera; Yun Jiang; Kristin A. Sannes‐Lowery; Lendell L. Cummins; Brian Libby; Demetrius J. Walcott; Christian Massire; Raymond Ranken; Sheri Manalili; Cristina Ivy; Rachael Melton; Harold Levene; Vanessa Harpin; Feng Li; Neill White; Michael Pear; J Ecker; Vivek Samant; Duane J. Knize; David W. Robbins; Karl Rudnick; Fred Hajjar; Steven A. Hofstadler

doi:10.1016/j.jala.2006.09.001

The Ibis T5000 Universal Biosensor: An Automated Platform for Pathogen Identification and Strain Typing

David J. Ecker(Ionis Pharmaceuticals (United States)), Jared J. Drader(Ionis Pharmaceuticals (United States)), Jose R. Gutierrez(Ionis Pharmaceuticals (United States)), Abel Gutierrez(Ionis Pharmaceuticals (United States)), James C. Hannis(Ionis Pharmaceuticals (United States)), Amy Schink(Ionis Pharmaceuticals (United States)), Rangarajan Sampath(Ionis Pharmaceuticals (United States)), Lawrence B. Blyn(Ionis Pharmaceuticals (United States)), Mark W. Eshoo(Ionis Pharmaceuticals (United States)), Thomas A. Hall(Ionis Pharmaceuticals (United States)), Maria Tobarmosquera(Ionis Pharmaceuticals (United States)), Yun Jiang(Ionis Pharmaceuticals (United States)), Kristin A. Sannes‐Lowery(Ionis Pharmaceuticals (United States)), Lendell L. Cummins(Ionis Pharmaceuticals (United States)), Brian Libby(Ionis Pharmaceuticals (United States)), Demetrius J. Walcott(Ionis Pharmaceuticals (United States)), Christian Massire(Ionis Pharmaceuticals (United States)), Raymond Ranken(Ionis Pharmaceuticals (United States)), Sheri Manalili(Ionis Pharmaceuticals (United States)), Cristina Ivy(Ionis Pharmaceuticals (United States)), Rachael Melton(Ionis Pharmaceuticals (United States)), Harold Levene(Ionis Pharmaceuticals (United States)), Vanessa Harpin(Ionis Pharmaceuticals (United States)), Feng Li(Ionis Pharmaceuticals (United States)), Neill White(Ionis Pharmaceuticals (United States)), Michael Pear(Ionis Pharmaceuticals (United States)), J Ecker(Ionis Pharmaceuticals (United States)), Vivek Samant(Ionis Pharmaceuticals (United States)), Duane J. Knize(School of the Art Institute of Chicago), David W. Robbins(School of the Art Institute of Chicago), Karl Rudnick(School of the Art Institute of Chicago), Fred Hajjar, Steven A. Hofstadler

JALA Journal of the Association for Laboratory Automation

December 1, 2006

10.1016/j.jala.2006.09.001

Cited by 63

Abstract

We describe a new approach to the sensitive and specific identification of bacteria, viruses, fungi, and protozoa based on broad-range PCR and high-performance mass spectrometry. The Ibis T5000 is based on technology developed for the Department of Defense known as T.I.G.E.R. (Triangulation Identification for the Genetic Evaluation of Risks) for pathogen surveillance. The technology uses mass spectrometry—derived base composition signatures obtained from PCR amplification of broadly conserved regions of the pathogen genomes to identify most organisms present in a sample. The process of sample analysis has been automated using a combination of commercially available and custom instrumentation. A software system known as T-Track manages the sample flow, signal analysis, and data interpretation and provides simplified result reports to the user. No specialized expertise is required to use the instrumentation. In addition to pathogen surveillance, the Ibis T5000 is being applied to reducing health care—associated infections (HAIs), emerging and pandemic disease surveillance, human forensics analysis, and pharmaceutical product and food safety, and will be used eventually in human infectious disease diagnosis. In this review, we describe the automated Ibis T5000 instrument and provide examples of how it is used in HAI control.

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