Imaging in sentence

164 examples of Imaging in a sentence

These syndromes collectively have suggested for a long time that the mind is divvied up into distinct components, but the effort to discover those components has jumped to warp speed with the invention of brain imaging technology, especially MRI.

The really cool advance with functional imaging happened when scientists figured out how to make pictures that show not just anatomy but activity, that is, where neurons are firing.

Brain imaging can never tell you if a region is necessary for anything.

All you can do with brain imaging is watch regions turn on and off as people think different thoughts.

Instead, what brain imaging has delivered is this rich and interesting picture of the human mind.

With diffusion imaging, you can trace bundles of neurons that connect to different parts of the brain, and with this method shown here, you can trace the connections of individual neurons in the brain, potentially someday giving us a wiring diagram of the entire human brain.

We have ceramics and photography and computer imaging.

We got it just done in time to show you, so it's kind of the world debut of our digital imaging center.

Here, we're imaging blood vessels in the brain of a living mouse.

Here, we're again imaging into the brain of living mice.

At the time, I was cardiologist at UCLA, specializing in cardiac imaging techniques.

A system based on our technology could enable dramatically lower cost, higher resolution and smaller medical imaging.

Tomorrow, with compact, portable, inexpensive imaging, every ambulance and every clinic can decode the type of stroke and get the right therapy on time.

Two: two-thirds of humanity lacks access to medical imaging.

Compact, portable, inexpensive medical imaging can save countless lives.

And my brain, thanks to my parents, has been activated to form images in my visual cortex, which we now call the imaging system, from those patterns of information, much as your brain does.

Of course, one of the important elements is the imaging.

We've just started to scratch the surface of what you can do with this kind of imaging, because it gives us a new way to capture our surroundings with common, accessible technology.

We're running a small clinical study at Stanford, where we treat Alzheimer's patients with mild disease with a pint of plasma from young volunteers, 20-year-olds, and do this once a week for four weeks, and then we look at their brains with imaging.

Now you've seen before that with electrodes you can control robotic arms, that brain imaging and scanners can show you the insides of brains.

Neuroimaging studies using fMRI, functional magnetic resonance imaging, show us that when we seem someone yawn or even hear their yawn, a specific area of the brain housing these mirror neurons tends to light up, which, in turn, causes us to respond with the same action: a yawn!

Now, new treatments that directly stimulate or block certain pain-sensing attention or modulation networks are being developed, along with ways to tailor them to individual patients, using tools like magnetic resonance imaging to map brain pathways.

I went online, and there I learned about how multispectral imaging had been used to recover two lost treatises of the famed Greek mathematician Archimedes from a 13th-century palimpsest.

And so, out of the blue, I decided to write to the lead imaging scientist on the Archimedes palimpsest project, Professor Roger Easton, with a plan and a plea.

With his help, I was able to win a grant from the US government to build a transportable, multispectral imaging lab, And with this lab, I transformed what was a charred and faded mess into a new medieval classic.

So how does multispectral imaging actually work?

Well, the idea behind multispectral imaging is something that anyone who is familiar with infrared night vision goggles will immediately appreciate: that what we can see in the visible spectrum of light is only a tiny fraction of what's actually there.

Our imaging has enabled me to make the first transcription of this manuscript in 250 years.

The technology is expensive and very rare, and the imaging and image processing skills are esoteric.

That's why I founded the Lazarus Project, a not-for-profit initiative to bring multispectral imaging to individual researchers and smaller institutions at little or no cost whatsoever.

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