A new online tool developed by researchers at the University of Louisville promises to speed up the discovery of treatments ...

3D-printed tumor models mimic human tissue to improve surgical imaging research by Ashlyn Grotegut, Texas Tech University edited by Sadie Harley, reviewed by Andrew Zinin Editors' notes ...

This tiny patch could replace biopsies—and revolutionize how we detect cancer Date: June 18, 2025 Source: King's College London Summary: A new nanotechnology breakthrough may soon eliminate the ...

A patch containing tens of millions of microscopic nanoneedles could soon replace traditional biopsies, scientists have found. The patch offers a painless and less invasive alternative for ...

Tumor segmentation is crucial for surgical planning and precise tumor resection for effective treatment. Traditionally, tumor localization has been performed using medical imaging techniques such as ...

The utility of capturing heterogeneity by circulating tumor DNA (ctDNA) genotyping combined with tissue analysis or applying it in a sequential manner remains uncertain.

Biomedical engineers at the University of Melbourne have developed a 3D bioprinting system capable of creating structures that closely replicate various human tissues, ranging from soft brain tissue ...

Scientists have successfully developed a gastric cancer model using 3D bioprinting technology and patient-derived cancer tissue fragments. This innovative model preserves the characteristics of ...

Tissue of origin detection for cancer tumor using low-depth cfDNA samples through combination of tumor-specific methylation atlas and genome-wide methylation density in graph convolutional neural ...