A study published today in Nature demonstrates that by modifying the surface of conventional microscope slides at the nanoscale, biological structures and cells take on a striking color contrast that ...
When we look at biological cells under a microscope, they're usually not very colorful. Normally, to visualize them we have to artificially add color—typically by staining. By doing so, we can see ...
Understanding how cells within and around a tumor interact provides key information about a cancer's architecture, a patient's immune response to the disease and even how susceptible the cancer may be ...
When cancer is diagnosed, a sample has to be taken from a patient, treated, and analyzed. Researchers have now modified this method slightly to improve detection. Biopsies are assessed on glass slides ...
Each dot represents an image piece from a cancer microscope slide. The AI system has automatically arranged them by similarity. Researchers from the University of Jyväskylä in collaboration with the ...
A research team at UCLA, led by Professor Aydogan Ozcan, has introduced BlurryScope, a compact, cost-effective scanning microscope that combines simple optical hardware with advanced deep learning ...
Despite recent advances in diagnosing cancer, many cases are still diagnosed using biopsies and analyzing thin slices of tissue underneath a microscope. Properly analyzing these tissue sample slides ...
Pathologists often use tissue samples and microscopy to help diagnose diseases like cancer. But distinguishing different cells often require several stages of staining. Now researchers are presenting ...
Each dot represents an image piece from a cancer microscope slide. The AI system has automatically arranged them by similarity. Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of ...
When we look at biological cells under a microscope, they’re usually not very colourful. Normally, to visualise them we have to artificially add colour — typically by staining. By doing so, we can see ...