Tuesday 2 April 2013

New instrument will quickly detect botulinum, ricin, other biothreat agents

New instrument will quickly detect botulinum, ricin, other biothreat agents [ Back to EurekAlert! ] Public release date: 2-Apr-2013
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Contact: Mike Janes
mejanes@sandia.gov
925-294-2447
DOE/Sandia National Laboratories

LIVERMORE, Calif. Researchers at Sandia National Laboratories are developing a medical instrument that will be able to quickly detect a suite of biothreat agents, including anthrax, ricin, botulinum, shiga and SEB toxin.

The device, once developed, approved by the Food and Drug Administration and commercialized, would most likely be used in emergency rooms in the event of a bioterrorism incident.

"This is an unmet need for the nation's biodefense program," said Anup Singh, senior manager for Sandia's biological science and technology group. "A point-of-care device does not exist."

Sandia's work is funded by a recent grant nearly $4 million over four years from the National Institute of Allergy and Infectious Diseases, part of the National Institutes of Health. NIH has funded a number of recent projects at Sandia.

Sandia's biosciences and microfluidics program areas have continued to evolve with a string of notable projects, including:

  • MicroChemLab, a trailblazer in lab-on-a-chip technology, developed in the early 1990s
  • The "saliva device" and a follow-up technology, RapiDx, developed in the early-to-mid 2000s
  • SpinDx, the latest medical diagnostic tool developed at Sandia

"This will take things to the next level," said Singh. In addition to the broader suite of toxins and bacterial agents that the device would test for, the project includes comprehensive testing with animal (mouse) samples.

This is an important step, Singh said, since toxins may behave differently in live animals and humans than in laboratory blood samples. "We are getting closer and closer to translational elements of research, which involves testing in animal and clinical facilities. This is part of the maturation of our bioresearch activities at Sandia."

The project also will increase what SpinDx can do, he added.

"When you look for bacterial agents, you don't want to rely solely on proteins because you won't get the detection sensitivity you need," explained Singh. "So we are also using other methods that may lead to better detection limits and additional confirmation."

The new NIH project includes collaborators with expertise in animal modeling as well as device manufacturing.

The University of Texas Medical Branch, with whom Sandia enjoys a years-long partnership, together with the U.S. Department of Agriculture's Western Regional Research Center in Albany, Calif., are providing Sandia with expert insight into toxins and diseases at animal lab facilities. Bio-Rad, a manufacturer and distributor of a variety of devices and laboratory technologies, is serving as a consultant on the project to evaluate plans for product development, assist with manufacturers' criteria on the device that is developed, and provide important feedback when a prototype is built.

Although the latest NIH award represents a continuing success story for Sandia's microfluidics/bioresearch work, Singh stresses that it was part of a thoughtful multi-year strategy.

"You've got to keep innovating and coming up with the next thing," he said. "Every technology has its lifecycle. As good as SpinDx is, we know there will be other technologies, better technologies that come along in the next few years. We have to continue to innovate to meet the needs of our customers, understand what other competing technologies are being designed to solve the problems and develop technologies that provide an improvement."

The need for diagnostic devices for biodefense is not going away, Singh said, since there are always new diseases springing up that lack good diagnostic assays.

"Plus, we want dual-use devices that combat both man-made and nature-made problems," he added. "We're not just going to wait for the next anthrax letter incident to happen for our devices to be used and tested; we want them to be useful for other things as well, like infectious diseases."

Expanding into those areas, he said, will keep Sandia's bioresearch efforts engaged for years to come.

"That's where the value of the national labs really comes in," Singh said. "Our capabilities and culture are a very good fit for tackling long-term problems that require a sustained effort."

###

Sandia National Laboratories is a multi-program laboratory operated by Sandia Corporation, a wholly owned subsidiary of Lockheed Martin company, for the U.S. Department of Energy's National Nuclear Security Administration. With main facilities in Albuquerque, N.M., and Livermore, Calif., Sandia has major R&D responsibilities in national security, energy and environmental technologies and economic competitiveness.


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New instrument will quickly detect botulinum, ricin, other biothreat agents [ Back to EurekAlert! ] Public release date: 2-Apr-2013
[ | E-mail | Share Share ]

Contact: Mike Janes
mejanes@sandia.gov
925-294-2447
DOE/Sandia National Laboratories

LIVERMORE, Calif. Researchers at Sandia National Laboratories are developing a medical instrument that will be able to quickly detect a suite of biothreat agents, including anthrax, ricin, botulinum, shiga and SEB toxin.

The device, once developed, approved by the Food and Drug Administration and commercialized, would most likely be used in emergency rooms in the event of a bioterrorism incident.

"This is an unmet need for the nation's biodefense program," said Anup Singh, senior manager for Sandia's biological science and technology group. "A point-of-care device does not exist."

Sandia's work is funded by a recent grant nearly $4 million over four years from the National Institute of Allergy and Infectious Diseases, part of the National Institutes of Health. NIH has funded a number of recent projects at Sandia.

Sandia's biosciences and microfluidics program areas have continued to evolve with a string of notable projects, including:

  • MicroChemLab, a trailblazer in lab-on-a-chip technology, developed in the early 1990s
  • The "saliva device" and a follow-up technology, RapiDx, developed in the early-to-mid 2000s
  • SpinDx, the latest medical diagnostic tool developed at Sandia

"This will take things to the next level," said Singh. In addition to the broader suite of toxins and bacterial agents that the device would test for, the project includes comprehensive testing with animal (mouse) samples.

This is an important step, Singh said, since toxins may behave differently in live animals and humans than in laboratory blood samples. "We are getting closer and closer to translational elements of research, which involves testing in animal and clinical facilities. This is part of the maturation of our bioresearch activities at Sandia."

The project also will increase what SpinDx can do, he added.

"When you look for bacterial agents, you don't want to rely solely on proteins because you won't get the detection sensitivity you need," explained Singh. "So we are also using other methods that may lead to better detection limits and additional confirmation."

The new NIH project includes collaborators with expertise in animal modeling as well as device manufacturing.

The University of Texas Medical Branch, with whom Sandia enjoys a years-long partnership, together with the U.S. Department of Agriculture's Western Regional Research Center in Albany, Calif., are providing Sandia with expert insight into toxins and diseases at animal lab facilities. Bio-Rad, a manufacturer and distributor of a variety of devices and laboratory technologies, is serving as a consultant on the project to evaluate plans for product development, assist with manufacturers' criteria on the device that is developed, and provide important feedback when a prototype is built.

Although the latest NIH award represents a continuing success story for Sandia's microfluidics/bioresearch work, Singh stresses that it was part of a thoughtful multi-year strategy.

"You've got to keep innovating and coming up with the next thing," he said. "Every technology has its lifecycle. As good as SpinDx is, we know there will be other technologies, better technologies that come along in the next few years. We have to continue to innovate to meet the needs of our customers, understand what other competing technologies are being designed to solve the problems and develop technologies that provide an improvement."

The need for diagnostic devices for biodefense is not going away, Singh said, since there are always new diseases springing up that lack good diagnostic assays.

"Plus, we want dual-use devices that combat both man-made and nature-made problems," he added. "We're not just going to wait for the next anthrax letter incident to happen for our devices to be used and tested; we want them to be useful for other things as well, like infectious diseases."

Expanding into those areas, he said, will keep Sandia's bioresearch efforts engaged for years to come.

"That's where the value of the national labs really comes in," Singh said. "Our capabilities and culture are a very good fit for tackling long-term problems that require a sustained effort."

###

Sandia National Laboratories is a multi-program laboratory operated by Sandia Corporation, a wholly owned subsidiary of Lockheed Martin company, for the U.S. Department of Energy's National Nuclear Security Administration. With main facilities in Albuquerque, N.M., and Livermore, Calif., Sandia has major R&D responsibilities in national security, energy and environmental technologies and economic competitiveness.


[ Back to EurekAlert! ] [ | E-mail | Share Share ]

?


AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.


Source: http://www.eurekalert.org/pub_releases/2013-04/dnl-niw040113.php

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