Researchers at Rice University have developed a removable “living bandage” filled with engineered human cells that release ...

In mice, keratinocytes become senescent within just hours after an injury through a novel regulatory mechanism, revealing a ...

A new study from Karolinska Institutet maps the cellular and molecular dynamics of human wound healing in exceptional detail. The study was published in Cell Stem Cell. Self-healing of wounds is vital ...

A new study integrated mathematical modeling with advanced imaging to discover that the physical shape of the fruit fly egg chamber, combined with chemical signals, significantly influences how cells ...

Chronic wounds, particularly those in diabetic patients, present major therapeutic challenges due to impaired tissue regeneration and extracellular matrix (ECM) dysregulation. This study explores how ...

What if a process we associate with aging actually helps the body heal? A study led by Mikolaj Ogrodnik, LBI Trauma, published in Nature Cell Biology, shows that cells enter a state of senescence ...

A new review shines a spotlight on efferocytosis, a critical biological process responsible for the removal of dead cells, as a central force in promoting efficient wound repair and maintaining tissue ...

Epithelial cells line the body’s surfaces to protect against physical damage, pathogens, and dehydration. These cells play key roles in absorbing nutrients and removing waste products, as well as ...

Cell migration is a multistep process essential to various physiological functions, including immune cell movement and embryonic development, as well as pathological conditions like tumor metastasis.

Chronic wounds, especially those caused by diabetes, are notoriously difficult to heal. These wounds are characterized by prolonged inflammation, impaired collagen production, and poor tissue ...