Imaging live cells with fluorescent proteins has long been a crucial technique for understanding cellular behavior. While ...

In a recent study, scientists have introduced an innovative imaging technique that provides an unparalleled view of the bone ...

Our mission is to provide a state-of-the-art facility, expertise, and education in advanced quantitative light microscopy to support Drexel University’s research community The Cell Imaging Center (CIC ...

Imaging live cells with fluorescent proteins has long been a crucial technique for understanding cellular behavior. While bioluminescent proteins offer several advantages over fluorescent proteins, ...

Get Instant Summarized Text (Gist) A new imaging technology using explainable deep learning (XDL) transforms low-resolution, label-free mid-infrared photoacoustic microscopy (MIR-PAM) images into ...

Scientists developed a technology that surpasses the constraints of traditional imaging methods, providing stable and highly ...

Trapped immune cells laden with microplastics starve the brain of oxygen—mouse study links vascular blockages to memory loss and motor deficits, with lingering risks even after symptoms fade.

Real-time imaging shows how plastic-stuffed cells form clumps that affect mouse movement.

Explainable deep learning-based unsupervised inter-domain image transformation for virtually stained high-resolution mid-infrared photoacoustic microscopy ...

In life sciences, confocal fluorescence microscopy (CFM) is widely regarded for producing high-resolution cellular images. However, it requires fluorescent staining, which poses risks of ...

Cutting-edge fluorescent cholesterol probes now enable scientists to visualize cholesterol movement and distribution in live cells with unprecedented detail. By combining computer simulations with ...