Acoustofluidics company Aenitis Technologies has entered a Memorandum of Understanding (MOU) with pharmaceutical company Bracco Imaging to develop next-generation acoustic microspheres.
A molecule called MR1 (MHC Class I-related Molecule 1) enables a newly-discovered type of T-cells to sense differences in the metabolism that occur when cells become cancerous.
A new type of pancreas organoid contains all key pancreatic cell types - acinar, ductal, and endocrine cells - allowing valuable new insights.
New insights into the previously unknown diversity of cancer-associated fibroblasts in basal cell carcinoma, squamous cell carcinoma and melanoma could pave the way for new therapies.
A certain type of cells, called aneuploid epithelial cells, are usually associated with breast cancer. However, new research reveals that they can also be found in healthy women.
To take cell therapy in regenerative medicine to a new level, experts consider 3D bioprinting a key technology. However, there are still quality issues that need to be overcome to achieve this.
New insights gained from 3D cell cultures of breast and prostate cancer grown on the International Space Station (ISS) National Laboratory could lead to a way to treat not just these but all cancers.
Tumor cells are notorious for their rapid and uncontrolled division, and many cancer therapies aim to disrupt this. New findings suggest potential applications of apoptosis in blood cancer treatment.
A study led by Assistant Professor Masamitsu Sone and Professor Yoshifumi Yamaguchi from Hokkaido University, Japan, has uncovered a crucial gene that enables hibernating Syrian hamsters (Mesocricetus auratus) to prevent cold-induced cell death. The research was published in the journal Cell Death and Disease.
The study findings of a team from Julius-Maximilians-Universität Würzburg (JMU) in Bavaria, Germany help to broaden the conceptual view on the DNA damage response and to link it more closely with RNA metabolism.
By combining mass spectrometry and mass cytometry imaging techniques, researchers can now dive deeper into tumors and map the metabolism of individual cells in tumor tissue.
Researchers propose the use of molecular ‘cages’ (made of pseudopeptides) to selectively eliminate cancer cells in acidic microenvironments. This could help reduce side effects from chemotherapy.
Researchers have developed an artificial intelligence which can differentiate cancer cells from normal cells, as well as detect the very early stages of viral infection inside cells.
US researchers applied an injectable new therapy, which harnesses fast-moving “dancing molecules,” to repair damaged human cartilage cells within just 4 hours.
Why does the immune system sometimes fail to control the development of bowel cancer? UK and Dutch researchers discovered how cancer cells use a genetic "switch" to evade detection.
Finnish researchers discovered a mechanism that wakes up dormant breast cancer cells and demonstrated that preventing the mechanism can significantly improve treatment outcomes in experimental models.
Scientists discover how the production of antibodies is regulated in allergy and infections. This opens the door to new therapies, without affecting the beneficial response of the immune system.
Chemotherapy kills cancer cells – but how? New research suggests that the mechanisms are different than previously understood. The finding will have implications for future cancer treatments.
Artificial cells to combat cancer: Research groups are working to create synthetic micro-organisms capable of detecting the presence of the disease and delivering anti-cancer therapies.
