Blood vessels of the future 3D printed: breakthrough in regenerative medicine
Scottish researchers create 3D printed artificial blood vessels that are as flexible and strong as human ones. Big blow for medicine.
Scottish researchers create 3D printed artificial blood vessels that are as flexible and strong as human ones. Big blow for medicine.
UCSF researchers have engineered molecules that help build tissues and organs—a coup for regenerative medicine.
The small device uses nano transfection of tissues to regenerate entire organs with the touch of a finger: what was once matter for Star Trek now comes close to reality.
Face and eye transplant opens new hopes in regenerative medicine and the treatment of facial lesions.
The thinnest spaghetti ever created comes from UCL laboratories: 372 nanometers. They will open new frontiers in regenerative medicine.
An international team has created synthetic cells capable of communicating with each other: new avenues for regenerative medicine.
DNA as a building material for multifunctional synthetic cells, stable up to 50°C. Potential applications in regenerative medicine, drug delivery and diagnostics.
“Biologists create 'anthrobots' from human cells, opening new avenues in regenerative medicine and tissue repair.
Researchers develop innovative blood-based “biocooperative” material that enhances natural bone healing processes.
From Penn State comes HITS-Bio, the system that revolutionizes 3D bioprinting: now printing human tissue is 10 times faster (and ultra-precise).
Japanese scientists create plant-animal hybrid cells capable of photosynthesis. The breakthrough could speed up the growth of organs and tissues.
25-Year-Old With Type 1 Diabetes Produces Insulin With Stem Cells Reprogrammed From Her Own Body: Breakthrough in Diabetes Therapy
Progenitor cells that stimulate angiogenesis and healing discovered: a breakthrough for the treatment of chronic wounds.
Italian biomechanics amaze: the SoftFoot Pro is the foot prosthesis that flexes, adapts and absorbs shocks like a natural limb.
Chinese science is a superpower challenging the dominance of the US and EU. Massive investments, return of "brains" and targeted policies.
If approved, LyGenesis cell therapy could allow a single donated liver to treat dozens of patients. And it's just the beginning.
Korean researchers used scans and bioink with the patient's cells to create a 2cm artificial trachea that was successfully transplanted in 5 weeks.
At Pennsylvania State University they developed a technique to 3D print living human skin directly onto wounds. New possibilities for facial reconstructive surgery and hair transplants.
Scientists have developed a method that, via electrical impulses to the brain, helps people recover memories and live better.
Treat knee joint defects with cartilage grown from the nose? A new path in the treatment of arthritis.
New study reveals that CAR T cells, used against cancer, slow aging and can prevent obesity and diabetes.