There are processes in the human body that can suppress the growth and proliferation of cancer cells. These mechanisms, ...

The tiny device uses a tightly focused beam of light to capture and manipulate cells. MIT researchers have developed a miniature, chip-based “tractor beam,” like the one that captures the Millennium ...

BeiGene's TEVIMBRA expands for cancer treatment, and BRUKINSA sales soar 107%. See why BGNE stock presents upside potential ...

The two-spotted ladybird looks pretty ­ordinary to the naked eye – it’s a 2.5mm long, dark-coloured beetle – but under the ...

The method employs ultrathin membranes to capture small packets of cellular material known as extracellular vesicles. Cells ...

A research team at Lund University in Sweden has discovered a certain type of cell—foam cells—in patients with the aggressive ...

Emerging from the Institut Lumière Matière (ILM), deeptech startup ABLATOM, a specialist in LIBS (Laser-Induced Breakdown Spectroscopy) technology, is announcing today the deployment of the world’s ...

Those samples can then be checked for cancer under a microscope. But systematic biopsies can be problematic. A major concern is that they overdiagnose low-grade, slow-growing tumors that might never ...

Artificial intelligence will soon help doctors detect cancerous lesions in real-time during endoscopic procedures, through a new collaboration between medical device company Optiscan Imaging Ltd ...

Ancient Egyptians were trying to understand and treat cancer more than 4,000 years ago ... “When we first observed the cutmarks under the microscope, we could not believe what was in front of us.” But ...

An international team has received funding to accelerate the design of nanoparticles with complex shapes that could help fight disease or transmit information.

A study from Lund University identifies foam cells in glioblastoma patients, revealing their role in promoting tumor growth.