Integrating deep learning in optical microscopy enhances image analysis, overcoming traditional limitations and improving ...

Indian American researcher’s new AI-enhanced scanning method promises to boost quest for high-resolution mapping of the brain ...

Assistant Professor of Biomedical Engineering Yi Xue works on 2P-FOCUS, a new two-photon microscopy system, in her lab. The system promises novel insights into biological features that were once only ...

Our brain is a complex organ. Billions of nerve cells are wired in an intricate network, constantly processing signals, enabling us to recall memories or to move our bodies. Making sense of this ...

Cell mass and chemical composition are important aggregate cellular properties that are especially relevant to physiological processes, such as growth control and tissue homeostasis. Despite their ...

The advanced imaging approach could enable scientists to observe glioblastoma tumour cells within their microenvironment in the white matter – a capability currently lacking and crucial to ...

A 'deep learning' artificial intelligence model can identify pathology, or signs of disease, in images of animal and human tissue much faster, and often more accurately, than people. The development ...

A new imaging study challenges long-standing ideas about how hair grows and could lead to new treatments for hair loss. Scientists have discovered that human hair does not emerge because it is pushed ...

Recent research has confirmed that nanoplastics can cross cellular barriers, including the blood-brain barrier (a highly selective, semi-permeable membrane that protects the brain from harmful ...