Scientists have developed an AI system that analyzes complex gene-expression signatures to estimate the likelihood that a tumor will spread.

A new study by researchers at Wake Forest University School of Medicine has identified a promising strategy to treat brain ...

A recent integrative analysis of single-cell sequencing and single-cell spatial mapping of lymph node metastasis in breast cancer reveals novel mechanisms of the metabolic-immune interaction that ...

Circulating tumor cells (CTCs) are cancerous cells that break away from the primary tumor, enter the bloodstream, and travel to another part of the body. Research into CTCs, particularly their ...

Researchers at Atrium Health Wake Forest Baptist have shown that engineered macrophages can infiltrate brain tumor sites, recognize cancer cells, and destroy them in preclinical mouse models, ...

Scientists recently found that dark sweet cherries may help slow aggressive triple-negative breast cancer growth in mice, ...

Researchers at the Cancer Research Institute and the Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, have uncovered a critical mechanism that enables gastric cancer to spread to ...

Ipsen withdrew tazemetostat worldwide for follicular lymphoma and epithelioid sarcoma after new trial data suggested a less favorable safety profile than previously characterized. SYMPHONY-1 ...

Scientists at the University of Geneva have created a new AI system that can predict the chances of cancer spreading to other parts of the body. The new AI system, named MangroveGS, studies ...

Synovial sarcoma is an aggressive malignant tumor that primarily affects the limbs of teenagers and young adults. While it can be cured if completely removed by surgery, recurrence or metastasis, the ...

BrYet US, Inc. (“BrYet”) — a biotechnology innovator focused on developing curative therapies for advanced cancers — ...