Sensome, the pioneer of microsensing technology for real-time, in situ tissue analysis, today announced the publication of a ...

Nanodrones—very small unmanned aerial vehicles—are being explored for use in healthcare, environmental monitoring, industrial ...

A new study unveils a method to non-invasively monitor cell spatiotemporal dynamics involved in cancer progression in a ...

In order to produce effective targeted therapies for cancer, scientists need to isolate the genetic and phenotypic ...

This Collection invites cell-free DNA research focusing on early cancer and minimal residual disease detection that centers on epigenomic features (i.e. methylation, fragmentomics).

Researchers have developed a powerful new tool that makes it easier to study the mix of cell types in human tissue, which is crucial for understanding diseases such as cancer.

New AI technology can spot breast cancer in MRI scans more accurately than current digital methods, while also pinpointing ...

Advancements in biomedical technologies have significantly facilitated the diagnosis and monitoring of diseases. Nonetheless, traditional diagnostic ...

Dr. Ho Sang Jung and his research team from the Advanced Bio and Healthcare Materials Research Division at the Korea Institute of Materials Science(KIMS) have developed an optical biosensor capable of ...

PURPOSEAdverse effects of chemotherapy often require hospital admissions or treatment management. Identifying factors contributing to unplanned hospital utilization may improve health care quality and ...

A new AI tool, AAnet, has discovered five distinct cell types within tumors, offering a deeper look into cancer's inner diversity. This insight could transform how we treat cancer, enabling ...