Stem cell therapies, regenerative medicine, tissue engineering, and cellular reprogramming
188 articoli
Blocking zinc transport in stem cell-derived pancreatic islets improves their survival and function after transplantation for diabetes treatment.
NO-primed extracellular vesicles transfer functional mitochondria to damaged kidney cells, restoring energy production and reducing injury.
Revolutionary dental therapy uses stem cells to regenerate living tooth pulp, potentially replacing root canals with natural healing.
Comprehensive review reveals how parabiosis, organoids, and assembloids complement each other to model complex diseases from systemic to tissue levels.
Breakthrough skin organoids contain blood vessels, hair follicles, and immune cells, opening new paths for disease modeling and regenerative medicine.
Researchers outline vision for fully automated bioprinting laboratories that use AI and robotics to manufacture tissues and organs with minimal human intervention.
Novel mineralized collagen scaffold promotes healing of tendon-bone connections across multiple animal models with 82% recovery rate.
New review explores how lab-grown organ models are revolutionizing personalized medicine and drug development.
Breakthrough chemical reprogramming method transforms ordinary blood cells into versatile stem cells without genetic modification.
New research explores using Klotho protein with stem cell-derived vesicles to treat acute kidney injury, potentially offering regenerative therapy.
New review reveals how nerve signals, Schwann cells, and nerve-derived cells orchestrate tissue healing and regeneration.
Scientists discover cells can recover from dying conditions through a programmed revival process that enhances wound healing and regeneration.
