Triple negative breast cancer (TNBC) is one of the most aggressive and hardest forms of breast cancer to treat, but a new study led by Weill Cornell Medicine suggests a surprising way to stop it from ...

A hidden clue may explain why some mutated cells become cancerous and others don’t: how fast they divide. A new study from researchers at Sinai Health in Toronto reveals that the total time it takes ...

A central question in molecular biology is how cells protect their chromosomes from damage during repeated cell division. At ...

Scientists have created the most detailed map to date, comprised of over 3 million cells, showing how breast tissue changes ...

Left: Normal cell division with the chromosomes (blue) lined up and ready to be pulled into two separate daughter cells by the two centrosomes (green). Right: In faulty cell division, too many ...

The post HYD Pioneers New Research Revealing Systemic Role of Deuterium-Depleted Water in Cancer Therapy appeared first on ...

Novocure today announced positive findings from a study of its tumor treating fields (TTFields) in metastatic pancreatic ...

Using a variety of laboratory and animal models, the team found that cysteine fuels the production of the antioxidant ...

Researcher at Harvard Medical School develops AI-driven molecule targeting tumor mitochondria defects to destroy cancer ...

The ability of mutations to cause cancer depends on how fast they force cells to divide, Sinai Health researchers have found. The study, led by Dr. Rod Bremner, a Senior Investigator at the ...

A new study has answered a question that has puzzled cancer researchers for decades: Does a genetic defect found in nearly ...