How the CRISPR-based COVID Microlab Can Intercept the Pandemic

The demand for diagnostic technologies to track COVID-19 infections and control community spread of the disease has only been skyrocketing since the outbreak initiated almost a year ago. Developed by engineers at Stanford University, a new “lab on a chip” COVID test is slated to fill in the gaps left by existing diagnostic protocols.

For one, it’s far more sensitive and accurate. The so-called microlab detects even trace amounts of coronavirus RNA present in nasal swab samples. It uses electric fields to first isolate RNA from the sample before converting it into DNA that is then amplified. The test has in-built CRISPR-based molecular machinery that scans these nucleic acid sequences to identify if any of them have SARS-CoV-2 origins, which triggers the illumination of a fluorescent probe.

“The microlab is a microfluidic chip just half the size of a credit card containing a complex network of channels smaller than the width of a human hair.”

“Our chip is unique in that it uses electric fields to both purify nucleic acids from the sample and to speed up chemical reactions that let us know they are present,” says senior author of the paper, Juan G. Santiago, professor of mechanical…