Regenerative Medicine SpecialistsThe field of regenerative medicine focuses on the use of science-based methods to treat and cure many degenerative diseases. These include Parkinson's disease, Alzheimer's disease, Lou Gehrig's disease, Huntington's disease, spinal cord injuries, spinal stenosis, head injuries and many other degenerative diseases. In order to treat these diseases, doctors use various methods that include drug treatment, tissue repair and tissue regeneration. These methods are used to help patients recover from their conditions and live more productive lives.
Regenerative Medicine Methods In addition to the methods used in regenerative medicine, it is also possible to use stem cells obtained from embryos or stored in the laboratory for stem cell treatments. Stem cell therapies can either be used individually or in combination. For instance, mesenchymal cell regenerative medicine has been used to treat patients with multiple myeloma, a cancer of the mesothelium (the tissue covering the inner part of the bones); bladder and kidney cell regenerative medicine has been used to treat patients with cystic fibrosis, a condition that results in the failure of the kidney and bladder; and thalassemia, a condition that causes the production of only one of the hemoglobin types used by the body. For both procedures, stem cells from embryos are used. Pain Treatment Some of the problems associated with these treatments include irreversibly damaging the patient's tissues. However, this can be prevented if stem cell therapy is used properly. This therapy, when performed correctly, produces healthy, functional cells that can replace or repair damage tissues in the body. It is very important to perform stem cell therapy only under the supervision of a highly trained and experienced professional. This will ensure the highest quality cells are used, the therapeutic procedures are performed correctly, and that there are no irreparable side effects or risks. Regenerative medicine Charlotte NC is a great specialist to see for stem cells.
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