Researchers at the University of Cologne found that mitochondrial dysfunction leads to early skeletal aging by disrupting ...

Nature has developed a unique structure as a scaffold for almost all nerve cells: the membrane-associated periodic skeleton ...

Researchers use biocompatible polydopamine nanoparticles and near-infrared light to remotely trigger activity in neuron and ...

Improved mental health: Stress and anxiety frequently make insomnia worse. Strength exercise improves mental health by ...

When heart muscle gets damaged, the result is often permanent. Unlike other muscles in the body, the heart has long been ...

The ELT is leaping toward the stars, quite literally — its massive dome, once skeletal, is now clad in protective armor, ...

At the inaugural "Super Tech Day" in April 2025, CATL unveiled three major battery technologies – the second-generation Shenxing ultra-fast charging battery, the Soaring dual-core battery, and the ...

We all want to feel energetic, agile, and able to enjoy our favorite activities at any age, right? Whether it's running, ...

How to Industrialize Sodium-Ion Batteries with Coconut Shell Carbon-Based Hard Carbon Anodes?】SMM, April 24: According to the latest data from the General Administration of Customs, the imports of ...

While there are plenty of weird animals in nature, some of the strangest organisms can only be seen under a microscope. Here ...

A study by Dr. Matthew S. Taylor, published in the Journal of Osteoarchaeology, reports on the reanalysis of modified human bones discovered at several prehistoric South Texas archaeological sites.

New mechanisms discovered that show how development-dependent disruptions in mitochondrial function lead to premature skeletal aging.