Nanotechnology has advanced to unparalleled heights in biomaterials science. With the
clear advantage of utilizing nanotechnology based systems compared to macroscale …

The nucleus is a central organelle of eukaryotic cells undergoing dynamic structural
changes during cellular fundamental processes such as proliferation and differentiation …

Background To overcome the limitations of current alternative therapies for chronic kidney
disease (CKD), tissue engineering-mediated regeneration strategies have demonstrated the …

Chronic neuroinflammation is a principal cause of neurodegenerative diseases such as
Alzheimer's disease and Parkinson's disease. The blood–brain barrier predominantly …

Titanium (Ti) implants are well known for their mechanical reliability and chemical stability,
crucial for successful bone regeneration. Various shape control and surface modification …

Electrical conductivity is a pivotal biophysical factor for neural interfaces, though optimal
values remain controversial due to challenges isolating this cue. To address this issue …

Reactive astrogliosis is the main cause of secondary injury to the central nerves.
Biomaterials can effectively suppress astrocyte activation, but the mechanism remains …

Periodontal ligament (PDL) cells play a crucial role in maintaining periodontal integrity and
function by providing cell sources for ligament regeneration. While biophysical stimulation is …

The mechanical environment plays an important role in influencing cell identity. The
nucleus's organization and mechanical state are essential regulators of cellular function …

Cell migration interacting with continuously changing microenvironment, is one of the most
essential cellular functions, participating in embryonic development, wound repair, immune …