Pearse Keane working with AI on imaging
This piece describes more of what might be done than what is done in [MORE]
Seeing deep tissue with Nano-optic endoscope
Earlier this year, optical engineers at Harvard published an article in Nature Nanotechnology about their [MORE]
CAT Scan Liver Cancer
In an international competition to develop machine learning applications for low-dose CT imaging, researchers at China’s Tsinghau [MORE]
Brain SPECT Scans
Single proton emission computed tomography (SPECT) relies on injected gamma ray-emitting radioisotopes which results in true 3-D images [MORE]
Nanographene Interacting with Bacteria
MRI, CT and PET imaging often rely on contrast agents to provide better pictures. Contrast agents, such [MORE]
Raw Data Collected from dGEMRIC MRI Protocol
It’s not uncommon for a woman to get an MRI for breast cancer and [MORE]
Atherosclerosis
Stanford researchers have demonstrated how fluorescent markers and PET/CT imaging can provide non-invasive scans of atherosclerotic plaque inflammation. The probes [MORE]
Vevo-MD
There are two pieces here about the same thing—Fujifilm’s newly FDA cleared ultrahigh frequency ultrasound imager: the first piece is [MORE]
Holography
Leonardo da Vinci, Pablo Picasso, and Albert Einstein had a neurological anomaly in common: all three were dyslexics. Consequently, they [MORE]
Somatom Force Siemens
During World War II, British optical engineers developed dual aerial cameras that created 3-D pictures of the [MORE]
Normal human vision can see things as small as 125 microns (i.e. 125 thousands of a millimeter); today’s best [MORE]
Imaging Red Blood Cells
Using two lasers that excite specific molecules in the skin, a Harvard team has been able [MORE]
Siemens has combined a whole-body molecular magnetic resonance scanner and an integrated PET imager into one machine-a world’s first. [MORE]
Cancer Imaging
This is gene therapy with a twist. Researchers at AntiCancer, Inc. (San Diego, CA) and Okayama University in Japan [MORE]