Select your localized edition:

Close ×

More Ways to Connect

Discover one of our 28 local entrepreneurial communities »

Be the first to know as we launch in new countries and markets around the globe.

Interested in bringing MIT Technology Review to your local market?

MIT Technology ReviewMIT Technology Review - logo

 

Unsupported browser: Your browser does not meet modern web standards. See how it scores »

A portable instrument based on an ultrasensitive nanoscale sensor could detect bacteria in minutes, helping to catch infectious diseases early and prevent their spread. The simple, low-cost device should be available within three years, says Benjamin Miller, professor of dermatology and biomedical engineering at the University of Rochester Medical Center, and codeveloper of the sensor.

Right now, diagnosing common bacterial infections requires growing cultures in a laboratory over a period of days, but diagnosis could be greatly speeded by a number of new sensors based on various nanomaterials that are being developed for ultrasensitive, rapid DNA detection. The new instrument would take from 15 minutes to two hours for a diagnosis and could be used in doctor’s offices, hospitals, and homes.

Each sensor is a hairpin-shaped strand of DNA, complementary to the genetic sequence being targeted, that is fixed on a gold film. Gold quenches the glow of a fluorescent molecule attached to one end of the DNA. The DNA stays folded over until a target genetic sequence links to it. Its unfolding results in the fluorescent molecule moving away from the gold film and glowing, which can be seen under a fluorescent microscope.

Lighthouse Biosciences in West Henrietta, NY, is commercializing disposable cartridges to be used with the nanosensor technology. A blood or urine sample to be tested would be placed directly on the cartridge. The cartridge will be a lab-on-a-chip, with rapid, miniaturized ways to prepare the sample for testing. “In the cartridge there are steps for cleaning up samples, that is, extracting material you’re interested in and amplifying the [bacterial] DNA,” Miller says. The cartridge will then be placed in a small portable instrument that does the fluorescence imaging and analysis. Each cartridge should cost a few dollars, Miller says.

By attaching different DNA strands on the gold film, the same cartridge could screen for multiple pathogens, Miller says. So far, the researchers have made a sensor to detect antibiotic-resistant staph bacteria that cause skin infections. They are now working on detecting bacteria responsible for common urinary-tract infections. The sensors could also be used to quickly spot bacteria in food or bioterror agents in water supplies, or even to screen for genetic disorders or cancer.

In a newer version of the sensor, Miller and colleagues stick DNA strands on silver nanoparticles. The silver nanoparticles make the fluorescent signal 10 times brighter. Plus, because thin layers of silver nanoparticles are transparent, the sensor could be coated on glass and optical fibers to make new types of detecting instruments, Miller says.

0 comments about this story. Start the discussion »

Credits: Benjamin Miller, University of Rochester Medical Center

Tagged: Biomedicine, DNA, diagnostics, carbon nanotubes, nanowires, infections, nanosensor

Reprints and Permissions | Send feedback to the editor

From the Archives

Close

Introducing MIT Technology Review Insider.

Already a Magazine subscriber?

You're automatically an Insider. It's easy to activate or upgrade your account.

Activate Your Account

Become an Insider

It's the new way to subscribe. Get even more of the tech news, research, and discoveries you crave.

Sign Up

Learn More

Find out why MIT Technology Review Insider is for you and explore your options.

Show Me