Every time we feel a gentle tap on the skin, specialized nerve cells convert that physical force into an electrical signal ...

Every time we feel a gentle tap on the skin, specialized nerve cells convert that physical force into an electrical signal ...

The world's first lab-based tick feeding system for bush ticks, developed by researchers at the University of Melbourne, has ...

Bacteria and phages that travel in space behave much differently in microgravity than they do in labs on Earth, exciting ...

Sport-related concussions are mild traumatic brain injuries that demand timely recognition and management. This review explores current evidence on pathophysiology, diagnosis, and treatment strategies ...

Every time we feel a gentle tap on the skin, specialized nerve cells convert that physical force into an electrical signal the brain can ...

Foods rich in magnesium, omega-3s, probiotics, antioxidants, and more can help your nervous system function properly, ...

Chronic, mild dehydration quietly increases the workload on your cardiovascular system. Even mild dehydration reduces blood ...

In the International Journal of Extreme Manufacturing, researchers at Jilin University now report a way to measure the ...

Three antimicrobial peptides that target multidrug-resistant bacteria have been identified in camels, potentially combatting AMR.

Researchers at Simon Fraser University have studied the effects of microgravity on women's bodies and found that even a few days in simulated zero gravity can change the blood clotting process in ...

A recent mouse study suggests that low-oxygen conditions, such as being at high altitudes, could cause red blood cells to absorb excess blood glucose, potentially helping to protect against diabetes.