UCLA researchers demonstrate new material that could aid body ’s cellular repair process

A research team led by UCLA biomolecular engineers and doctors has demonstrated a therapeutic material that could one day promote better tissue regeneration following a wound or a stroke.During the body ’s typical healing process, when tissues like skin are damaged the body grows replacement cells. Integrins are class of proteins that are important in the cellular processes critical to creating new tissue. One of the processes is cell adhesion, when new cells “stick” to the materials between cells, called the extracellular matrix. Another is cell migration, where at the cell’s surface, integrins help “pull” the cell along through the extracellular matrix to move cells into place. However, these processes do not occur in brain tissue that has been damaged during a stroke. This is w hy scientists are trying to develop therapeutic materials that could promote this form of healing.The injectable gel-like material, which is called a hydrogel, that the UCLA researchers developed helps this repair process by forming a scaffold inside the wound that acts as like an artificial extracellular matrix, and the new tissue grows around that.Using an injectable gel isn ’t new, but previous gel scaffolds resulted in weak blood vessels in the newly formed tissue. The newfindings, published in Nature Materials, show that when the scaffold contains a specific integrin-binding molecule, the new blood vessels that are formed are stronger.“The injectable gel scaffold is sort of like...
Source: UCLA Newsroom: Health Sciences - Category: Universities & Medical Training Source Type: news