Gene therapy is a pioneering field of medicine in which genetic material (DNA) is inserted into a person’s cells to replace missing or defective DNA so that the body can function properly. Gene therapy can be used to treat many different diseases, and some people have had success with several life-threatening conditions.
Gene therapy is the insertion of genes into an individual’s cells and tissues to treat diseases. New genes can be inserted into cells using a vector, usually a genetically engineered virus, that carries the therapeutic gene into the cell. Once the vector carrying the new gene enters the cell, the therapeutic gene is expressed and a protein is produced to correct the genetic defect that causes the disease.
Why is it important for the future of medicine?
As our population continues to grow and age, the need for healthcare will only increase. This puts pressure on our already overburdened healthcare system, and costs continue to rise. One way to help reduce this burden is through gene therapy.
Gene therapy is a promising new field of medicine with the potential to treat a wide variety of diseases, including many currently considered incurable. By targeting the underlying causes of disease at the genetic level, gene therapy has the potential to provide lasting or even permanent cures. Furthermore, because gene therapy can be tailored to each patient, it has the potential to be more effective than current treatments.
Gene therapy is an exciting new field of medicine that holds great promise for the future of medicine. While there are still many questions to be answered about gene therapy, it is clear that it has the potential to change the way we treat diseases and disorders.
As Cyagen, the gene therapy CRO, as more research is conducted, we discover more amazing applications for this cutting-edge technology. Gene therapy is used to treat some rare genetic diseases, but in the future, it has the potential to be used to treat many diseases, including cancer, heart disease and Alzheimer’s disease. In addition to treating disease, gene therapy also has the potential for cosmetic use. For example, genes can be injected into muscles to increase muscle size or into skin cells to reduce wrinkles.