Epibone creates precisely measured scaffolding for stem cells to recreate damaged bone.
The New York-based startup Epibone intends to begin human testing on a procedure that will utilize stem cells to regenerate living bone tissue. The researchers, originally from Columbia University, will apply autologous [the patient’s own] stem cells to nanofiber scaffolding of the desired size and shape and direct the stem cells to differentiate into a physical and genetic replica of the patient’s own bone. Continue reading →
Beijing researchers are capitalizing on the abilities of mesenchymal stem cells to reduce inflammation and promote cell growth to combat systemic lupus erythematosus.
In a recent clinical study conducted in Beijing, researchers are testing a treatment for patients suffering from systemic lupus erythematosus by administering autologous [the patient’s own] mesenchymal stem cells. The researchers aim to capitalize on the unique abilities of MSCs to not only differentiate into a multitude of different cell types, but to reduce the autoimmune attack in patients affected by lupus as well. Continue reading →
The transplantation of stem cells into areas affected by osteoarthritis allow lost cartilage tissue to regenerate.
In recent clinical trials, researchers at the National University of Ireland Galway have successfully utilized adult stem cells to treat patients with osteoarthritis. The treatment involves recovering the patients’ own [autologous] stem cells and then injecting the stem cells into cartilage to stimulate the regeneration of lost tissue. Continue reading →
A research team led by Doctor Alexander Seifalian at University College London is currently creating custom lab-grown organs and body parts for patients utilizing autologous [the patient’s own] stem cells. The scientists have engineered a polymer material that they mold into the shape of an organ in need, infuse with the patient’s stem cells, and then transplant back onto the patient’s body. Continue reading →
“Kids will actually regrow a pretty good fingertip, after amputation, if you just leave it alone,” says Dr. Christopher Allan, from the University of Washington Medicine Hand Center. The ability of young kids to regrow the end of a digit following some form of trauma to the digit has researchers at New York University studying a similar phenomenon in mice with the hopes of finding clues to digit regeneration in humans. Researchers are focusing on the stem cells that reside in the area and how they interact with other biological elements to induce the regeneration.