Explain Stem Cell Therapy?

Explain Stem Cell Therapy?

Stem cell therapy is basically the use of cells from bone marrow to cure or otherwise treat a specific ailment or condition. In as much as recent years there has been very little research and development in this field of medicine. However as of the year 2016, the only known proven treatment using stem cells for the treatment of various conditions is hematopoietic cell transplantation. This means that these cells can be taken from a person’s bone marrow and then used to repair damaged tissue. It can be used to cure many common problems, such as heart ailments, Parkinson’s disease, and many others. The reason for this is that stem cells are cells that are not damaged, and so they are able to help with the repair of damaged tissue. Carolina Cell Therapy – Stem Cell Therapy North Carolina offers excellent info on this.
There have been some initial trials with stem cell therapy in adults. It has been successful at treating some of the degenerative diseases in the human body, including Parkinson’s and Alzheimer’s disease. In these trials, stem cells were injected into patients in order to stimulate the production of new stem cells within the body. There is a very small but promising trial going on now in the United States of America in which stem cells are being taken from umbilical cords to replace damaged tissues in the brain, spinal cord, and heart. These umbilical stem cell cells were then injected into patients who were experiencing a variety of degenerative diseases. This method of stem cell therapy has been successful at treating such common ailments as spinal cord injuries, and even some forms of cancer.
Despite the research and development that are occurring with stem cell therapies in both adults and children, there are a number of other issues surrounding these new discoveries. One of these is that stem cells have been known to be genetically susceptible to damage. This means that if a person is exposed to an abnormally high level of the damaging hormone cortisol, for instance, then this could potentially result in the production of too many stem cells.

Robert Cline