Regenerative medicine sits at the crossroads of a number of other fields of medicine. The new industry involves biology, chemistry, engineering, and physical sciences, so it’s a wide and varied playing area for researchers, and it’s growing all the time.You may want to check out Lake Norman Regenerative Medicine for more.
Living cells, a cornerstone of the field, are used in regenerative medicine to achieve a number of benefits, including replacing damaged or diseased cells and tissue, inducing an endogenous response that facilitates the body’s own healing, such as an immune response or tissue regeneration in diseased tissue, and delivering genetic or molecular therapies to specific targets.
Through the injection of correctly functioning genes into a patient’s cells, gene therapy fixes faulty or mutated genes that need either correction or enhanced control.
The use of chemicals and cellular components that are known to cause dormant, or edogenous cells to restore regenerative properties is known as biologics and small molecules.
Synthetic and bio-based products are often inserted in the body for reconstructive purposes, such as joint replacement, bone reconstruction, artificial ligaments and tendons, dental implants, heart valves, and wound repair. They promote reconstruction and healing by collaborating with native cells.
Companies are learning to use stem cells and living tissue structures to build in-vitro models to study human disease processes and drug effects on a range of cell and tissue types, including human heart, liver, and brain cells. These models, which are primarily made up of embryonic and induced pluripotent stem cells, allow faster and safer drug production.