The human genome is like a big ball of yarn, made up of 3 billion molecular units arranged in sequence and then wrapped up around itself. Within this ball of yarn are your genes, which are regions of ...
In May 2026, a team at Caltech did something no lab had done before: they pressed an ultrasound probe against a transparent window built into a living patient’s skull and watched, in real time, as ...
The technology can assist in clinical diagnostics and debridement of wounds to reduce the risk of infections and preventable amputations. Autofluorescence imaging can make bacteria glow red or cyan.
In a significant leap forward for successful cancer surgery, researchers at the University of Missouri and collaborators have developed a new imaging probe to help surgeons more accurately identify ...
Two labs at the University of Utah's Department of Chemistry joined forces to improve imaging tools that may soon enable scientists to better observe signaling in functioning cells and other molecular ...
A newly developed imaging method, granzyme B PET, can non-invasively detect inflammatory bowel disease (IBD) and provide a real-time picture of active inflammation in the tissue, according to new ...
CytoMAD (Cyto-Morphology Adversarial Distillation) combines AI and microfluidic technology to do label-free imaging of tumours at the individual cell level. It can capture cell images "at great speed, ...
About three-fourths of our genome is transcribed into RNA, and these RNAs are involved in essentially every cellular process. Like us, RNA cannot do its job if it is not in the right place at the ...
Now that Oghalai's team has adapted OCT for cochlear imaging in awake mice, they are testing a version of the tool for patients in a new NIH-funded study. The technology could ultimately allow ...
Please provide your email address to receive an email when new articles are posted on . A novel 3D imaging method showed promise for noninvasive treatment monitoring of people with melasma. The tool ...