Wyss Institute wins 'Best of What's New' award for paper-based rapid Zika test

A rapid Zika test, developed by an international, multi-institutional team of researchers led by synthetic biologist James Collins, Ph.D., at Harvard University's Wyss Institute for Biologically Inspired Engineering, has today been named a 2016 "Best of What's New" awards winner by Popular Science magazine in the Health category.

The "Best of What's New", currently in its 29th year, annually honors 100 revolutionary products and technologies that are transforming the world across a range of award categories: Aerospace, Auto, Engineering, Entertainment, Gadgets, General Innovation, Health, Home, Recreation, Security, and Software. The "Best of What's New" Health category, in which the Zika test technology is a winner, recognizes medical treatments and devices that could "solve an unsolvable problem" and utilize entirely new ideas and functions.

"We are tremendously honored to receive a 'Best of What's New' award for our paper-based Zika diagnostic," said Collins, who is a Wyss Institute Core Faculty member, and Termeer Professor of Medical Engineering & Science and Professor of Biological Engineering at the Massachusetts Institute of Technology (MIT)'s Department of Biological Engineering. "Using synthetic biology, we have developed an inexpensive test that could diagnose a patient with Zika in the field within a few hours, which we hope could be used to contain Zika or other viral outbreaks."

To build the Zika test, Collins brought together a team including Wyss Institute scientists as well as collaborators from MIT, the Broad Institute of Harvard and MIT, Harvard Medical School (HMS), University of Toronto, Arizona State University (ASU), University of Wisconsin-Madison (UW-Madison), Boston University (BU), Cornell University, and Addgene. They envisioned a new class of diagnostic that is inexpensive and rapidly deployable to screen blood, urine, or saliva samples for Zika or any other RNA virus including Ebola, SARS, measles, influenza, hepatitis C, and West Nile fever.

With that goal in mind, Collins' team has developed a diagnostic system that does not require refrigeration or electricity. They freeze-dry synthetic gene circuits onto paper discs. These biomolecular circuits are activated when the paper is rehydrated with a droplet of sample fluid; the disc changes color to indicate a positive result for Zika virus, similar to the visual readout of a home pregnancy test. To validate their rapid Zika test, the team successfully identified strain-specific Zika in blood samples from infected monkeys as well in laboratory cell cultures infected with the virus.

More recently, working with collaborators in Ecuador, the test has been used to accurately diagnose presence of Zika virus in patient samples. The ability to discern between strains of Zika is especially important for diagnosing the American strain of the virus, which is associated with rare but severe neurological symptoms including fetal microcephaly and Guillain-Barre´ syndrome. The "Best of What's New" judging criteria include the significance of the innovation, the quality of the design and its originality, and the ambition and scope of the project.

"The cell-free, paper-based tests developed by Jim Collins and his team provide a low-cost, stable platform for long-term storage and fast deployment of diagnostics, anywhere in the world, where they can rapidly diagnose the presence and identity of rapidly emerging viral pathogens. It is fantastic to have yet another recognition for the team's transformative work," said Wyss Institute Founding Director Donald Ingber, M.D., Ph.D., who is the Judah Folkman Professor of Vascular Biology at Harvard Medical School (HMS) and the Vascular Biology Program at Boston Children's Hospital, and also Professor of Bioengineering at the Harvard John A. Paulson School of Engineering and Applied Sciences.

Comments

  1. Andrew Langham Andrew Langham United Kingdom says:

    Let me help some chemists and biologists ;- gram positive bacteria thrive in an acid ph environment and are by far the most common' and are acid resistant externally;
    note;- gram negative' bacteria ie Gram-negative bacteria are a group of bacteria that do not retain the crystal violet stain and importantly prefer alkali environments although they are still found in environments where hydrochloric acid is intermittently' in use at levels less than 2% example the stomach and upper bowel; an example pylori bacta' or Wolbacia bacteria;
    male mosquito's have blood that is biased to acid ph and female mosquito's have blood biased to alkali' so cells in female mosquito's are not inhibited very much by wolbachia' bacteria which is gram negative'
    note;- where as male mosquito's have an acid biased blood of which wolbachia does effect cell chromsomes of viruses' which in tern mating offspring is also is affected'
    Note it is the Toxins of Wolbachia that cause microcephaly because the toxins alter chromosomes in neurons' in mosquito's and humans' example;- in the fetus some neuron mitosis simply does not occur so the neuron dies and so brain formation is affected in the fetus; result at worst microcephaly but usually more subtle damage causing poor brain glial cell connections' so therefor brain operation is impaired to the point of temporary signal failure or signal overload in incorrect areas of the brain causing brain seizures and epileptic fits; or just generalised mild encephalitis; note the female uterus is an alkali environment for the zika virus accompanied & infected with Wolbachia Toxins' ie the entire complex viral amino chain'
    Maintaining an alkaline environment in the uterus is vital for conception' so note;- the female uterus is a prime launch pad for Zika associate Wolbachia toxin produced Microcephaly and associate brain trauma defects;

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