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Scientists turn a US$40 needle into a high-quality 3D microscope

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August 14, 2014

Using a US$40 needle, the scientists created a 3D microscope capable of creating images wi...

Using a US$40 needle, the scientists created a 3D microscope capable of creating images with a resolution of around one micron (Photo: Ganghun Kim, University of Utah)

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Beginning with a US$40 needle, researchers from the University of Utah have designed a microscope with the ability to generate miniaturized 3D images. The low-cost device is capable of producing images around 70 times smaller than the width of a human hair, a development that could offer new insights into how particular proteins in the brain function.

"We can get approximately 1-micron-resolution images that only $250,000 and higher microscopes are capable of generating," says Rajesh Menon, associate professor of electrical and computer engineering at the University of Utah. "Miniature microscopes are limited to the few tens of microns."

Working with graduate student Ganghun Kim, Menon devised a microscopic method where light passes through a fiber optic needle or cannula. As light from an object enters one end of the cannula, it bounces around inside before exiting at the other end. This creates an initially scrambled image, something the pair designed special algorithms in order to decipher and then use to generate an image of the object.

"If we know how this 'scrambling' took place, then we can apply algorithms to unscramble this 'returned image' and estimate what the object looks like," Menon explains to Gizmag.

The microscope was created for human genetics professor Mario Capecchi and his team at University of Utah. Capecchi will now use it to study the brains of living mice with the aim of better understanding how certain proteins react to various stimuli.

Menon says the technique will enable scientists to gather images much smaller than is currently possible and to do so at a much lower cost. He hopes to develop the technology further so the microscope can create images with sub-micron resolutions. And because it is inexpensive to produce and can be used in hard-to-reach places, he and Kim anticipate many other applications for the device.

"This microscope will open up new avenues of research," he says. "Its low-cost, small-size, large field-of-view and implantable features will allow researchers to use this in fields ranging from biochemistry to mining."

The team's research is set to be published this week in the journal Applied Physics Letters.

Source: University of Utah

About the Author
Nick Lavars Nick was born outside of Melbourne, Australia, with a general curiosity that has drawn him to some distant (and very cold) places. Somewhere between enduring a winter in the Canadian Rockies and trekking through Chilean Patagonia, he graduated from university and pursued a career in journalism. He now writes for Gizmag, excited by tech and all forms of innovation, Melbourne's bizarre weather and curried egg sandwiches.   All articles by Nick Lavars
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3 Comments

" the technique will enable scientists to gather images much smaller than is currently possible"

Maybe it would be better to say that it enables scientists to image things much smaller than currently possible. Gathering small images is not hard at all.

Michaelc
15th August, 2014 @ 11:27 am PDT

Very interestnig. It's good to see microscope techniques being developed that offer high performance and yet not cost an arm and a leg.

Fretting Freddy the Ferret pressing the Fret
15th August, 2014 @ 01:20 pm PDT

I read something about this several years ago where light was "squeezed" through a tiny hollow needle in order to optically image things smaller than the wavelength of light.

Gregg Eshelman
15th August, 2014 @ 06:43 pm PDT
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