The study found significant heterogeneity among non-hematopoietic cells (NHCs) in human lymph nodes, with subgroups exhibiting distinct transcriptional changes and interaction patterns with malignant cells. This discovery may lead to the identification of potential biomarkers for therapeutic approaches.
A new microfluidic array catches and holds single cervical cells for faster screening, trapping them with microscopic electrodes and analyzing them using immunofluorescent staining. The device effectively trapped 98% of cells and held on to 92%, providing a promising tool for cervical cancer diagnosis.
The study sheds light on the functions of sweat gland components, revealing key roles for myoepithelial cells and nerve interactions. The findings have implications for treating disorders of the perspiratory system and could lead to new treatments for heatstroke.