Zhao et al. 1 now present evidence that this extracellular electric field is the driving force in wound healing, and they uncover signaling pathways that control this biological phenomenon.

Growing cells in the laboratory is an art that humans have mastered decades ago. Recreating entire three-dimensional tissues is much more challenging. Researchers are developing a new hydrogel-based ...

The skin is the largest organ in the human body. It makes up about 15% of our body weight and protects us from pathogens, dehydration and temperature extremes. Skin diseases are therefore more than ...

Scientists at CNIC have identified a specialized group of neutrophils in the skin that produce extracellular matrix. This ...

Recent findings in bone regeneration research, highlights the significant impact of biological sex and donor variability on healing processes, offering promising new approaches to personalized ...

Frankincense essential oil is known for its anti-inflammatory, antioxidant, and therapeutic properties. A recent study ...

Zhang and colleagues evaluated the in vivo wound healing efficacy of composite ... confirming the CMPs' ability to promote ...

For patients with polycystic kidney disease (PKD), a common genetic disorder that ravages the waste-removing organ with cysts ...

Discover cutting-edge developments in wound healing, skin and vascular grafts, and extracellular matrix protein scaffolds engineered using advanced nanofabrication and 3D bioprinting approaches. This ...