In conventional pathology and physiology research, two-dimensional (2D) analysis—observing thinly sliced tissue sections—has ...

Researchers at Niigata University have used advanced three-dimensional (3D) imaging to reveal how amyloid β (Aβ) deposits spread along blood vessels in the human brain in cerebral amyloid angiopathy ...

Tissue-mimicking materials (TMMs) are fundamental in the field of medical imaging, where they serve as crucial phantoms for calibration, quality assurance, ...

An international team of scientists and clinicians has announced the launch of a new open-access 3D portal that allows users ...

Researchers led by Hiroki R. Ueda at the University of Tokyo developed comprehensive 3D cellular atlases spanning all organs ...

Researchers create a new polymer that mimics the mechanical, thermal, and electromagnetic properties of brain tissue, driving ...

While medical centers use ultrasound daily, so far this technology is not capable of observing body tissues at the scale of cells. Physicists from TU Delft have developed a microscopy technique based ...

No matter the size or severity, wounds on human skin are difficult to monitor while they heal. Biopsies disrupt the wound ...

Hair may grow in a completely different way than scientists once believed. Instead of being pushed out from the root, new ...

Using postmortem human brain tissue, three-dimensional imaging revealed vascular Aβ deposition patterns and a lower density of parenchymal amyloid plaques surrounding Aβ-positive vessels. Smooth ...