(Nanowerk Spotlight) The complex process of wound healing has long challenged medical professionals seeking to monitor recovery accurately and non-invasively. Traditional methods of assessing wound ...

A model of the a-Heal wearable device. As a wound heals, it goes through several stages: clotting to stop bleeding, immune system response, scabbing, and scarring. A wearable device called “a-Heal,” ...

CAD model of There Heal wearable device, illustrating the integrated camera for wound monitoring and actuator for drug delivery or stimulation. As a wound heals, it goes through several stages: ...

As a wound heals, it goes through several stages: clotting to stop bleeding, immune system response, scabbing, and scarring. A wearable device called “a-Heal,” designed by engineers at the University ...

Wound healing happens in four stages: homeostasis, inflammation, proliferation, and remodeling. In the inflammation stage, ...

A new wearable device, a-Heal, combines AI, imaging, and bioelectronics to speed up wound recovery. It continuously monitors wounds, diagnoses healing stages, and applies personalized treatments like ...

If a person’s wound is healing more slowly than usual, there may be an underlying reason, such as an infection, circulatory problems, diabetes, or other health issues. There are various reasons why ...

ASU researchers Jordan Yaron and Kaushal Rege have found that the previously mysterious protein SerpinB3 plays a vital role in the body’s natural wound-healing process. Their findings could lead to ...

Researchers have uncovered that SerpinB3, typically linked to severe cancers, is also a key player in natural wound healing. The protein drives skin cell movement and tissue rebuilding, especially ...