regenerative medicine tagged posts

Artist’s concept of a stingray soft robot. (Image: UCLA)

UCLA bioengineering professor Ali Khademhosseini has led the development of a tissue-based soft robot that mimics the biomechanics of a stingray. The new technology could lead to advances in bio-inspired robotics, regenerative medicine and medical diagnostics. The simple body design of stingrays, specifically, a flattened body shape and side fins that start at the head and end at the base of their tail, makes them ideal to model bio-electromechanical systems on.

The 10-millimeter long robot is made up of four layers: tissue composed of live heart cells, two distinct types of specialized biomaterials for structural support, and flexible electrodes...

OSKM-Induced XEN Cells Arise during Reprogramming

The stem cell discovery could also offer new ways to study birth defects and other reproductive problems. Tony Parenti, MSU cell and molecular biology graduate student, unearthed the new cells – induced XEN cells, or iXEN – in a cellular trash pile, of sorts. “Other scientists may have seen these cells before, but they were considered to be defective, or cancer-like,” said Parenti. “Rather than ignore these cells that have been mislabeled as waste byproducts, we found gold in the garbage.”

A great deal of stem cell research focuses on new ways to make and use pluripotent stem cells. Pluripotent stem cells can be created by reactivating embryonic genes to “reprogram” mature adult cells...

The polymer sphere delivers the microRNA into cells already at the wound site, which turns the cells into bone repairing machines. Credit: Peter Ma

Scientists at the University of Michigan have developed a polymer sphere that delivers a molecule to bone wounds that tells cells already at the injury site to repair the damage. Using the polymer sphere to introduce the microRNA molecule into cells elevates the job of existing cells to that of injury repair by instructing the cells’ healing and bone-building mechanisms to switch on, said Prof Peter Ma.

Using existing cells to repair wounds reduces the need to introduce foreign cells – a very difficult therapy because cells have their own personalities, which can result in the host rejecting the foreign cells, or tumors...

Photo of a tooth germ with a nylon noose (left) and the noose tightened (right). Credit: Image courtesy of RIKEN

In mice, they were able to extract teeth germs- groups of cells formed early in life that later develop into teeth, split them into 2, and then implant the teeth into the mice’s jaws, where they developed into two fully functional teeth

Teeth are a major target of regenerative medicine. ~10% of people are born with some missing teeth, and in addition, virtually all people lose some teeth to either accidents or disease as they age. Remedies such as implants and bridges are available, but they do not restore the full functionality of the teeth...