Every day, your body replaces billions of cells – and yet, your tissues stay perfectly organized. How is that possible? A team of researchers at ChristianaCare’s Helen F. Graham Cancer Center & ...
Never-before-seen 3D reconstructions of human liver tissue have been created at a cellular level. The details obtained by a team of UW Medicine and University of Washington engineers and physicians ...
A new method has revolutionized our ability to map tissue fiber orientation and organization across tissues, diseases and sample preparations. An international group of researchers led by Marios ...
The human body undergoes a daily replacement of billions of cells, but the tissues remain flawlessly organized. How can that be? Image credit: sdecoret/Shutterstock.com Researchers from the University ...
For instance, in engineering artificial tissue, scientists might optimize intercellular flow within the tissue to improve its function or resilience. The researchers suspect that intercellular flow ...
This textbook describes the biomechanics of bone, cartilage, tendons and ligaments. It is rigorous in its approach to the mechanical properties of the skeleton yet it does not neglect the biological ...
A group of scientists from Harvard University have observed and reconstructed the human brain at the resolution of the electron microscope, with all its cells, following all the connections between ...
New research links abnormal cholesterol signalling with cardiomyocyte dysfunction in DCM, uncovering a potential treatment target. Read more.
Organoids exhibit various structural and functional characteristics of their in vivo counterpart organs and have led to many new cancer models. According to a report by The Insight Partners, the ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results