![]() ![]() These umbilical cord jelly stem cells are young, healthy and robust cells. Nashville Stem Cell Therapy uses umbilical cord Wharton’s Jelly derived stem cells. We believe that cord Wharton’s Jelly is the superior method for extracting stem cells. The tissue bank runs tests on the Wharton’s Jelly to ensure that it is healthy and free of disease. The Wharton’s Jelly is then frozen and stored at a tissue bank under strict FDA compliance. ![]() The umbilical cord is removed after a live, healthy child is born. The Wharton’s Jelly from within the cord is saved and sent to a tissue bank. These Wharton’s Jelly stem cells are not from aborted fetuses and are in no way related to abortions. It is also very nutrient rich with growth factors and cytokines that help create a safe environment for the stem cells to flourish. Wharton’s Jelly has been shown to be the r ichest source of donor mesenchymal stem cells. Both sources have mesenchymal stem cells in addition to other cytokines and growth factors. There is both blood and Wharton’s Jelly found inside the umbilical cord. The last way to obtain stem cells is through the umbilical cord of live, healthy birthed babies. An accurate cellular count is important because some joints require more cells than others.Ĥ. These three methods produce a variable number of stem cells. The stem cell count from amniotic fluid is variable. This method involves collecting stem cells from amniotic fluid in a pregnant woman. This method has a potential risk of causing an autoimmune reaction in your body due to HLA antigens in cellular debris. Stem cells can be extracted from amniotic fluid. The cell count varies according to the patient’s age, health, and technique of the provider extracting the stem cells.ģ. The stem cell count from both of these methods is variable. Both bone marrow aspirate and adipose derived fat stem cells can be a painful and time consuming process. The fat cells are then filtered to obtain stem cells. This technique involves using a needle to remove fat cells from your body. Stem cells can be extracted from your adipose tissue. The marrow is then filtered to get the stem cells.Ģ. This technique involves puncturing a needle through your bone and extracting the marrow. Stem cells can be extracted from your bone marrow. These four sources include bone marrow, adipose tissue, amniotic fluid and umbilical cord blood.ġ. Stem cells are collected from four sources for the purpose of regenerative therapy. There are multiple ways that mesenchymal stem cells can be collected in order to inject or infuse into your body. Stem cell therapy is very exciting because it has the potential to help correct the source of your pain. Studies have also shown improvements on MRI several years after only one stem cell injection. Research studies have shown patients to have significant improvements in pain and function. ![]() They have the potential to regenerate damaged tissues and help avoid surgery. Stem cells have the potential to do many functions that other cells in your body already do.Stem cells have antimicrobial properties that help fight bacterial infections. This is very beneficial for wound healing.They cannot heal cells that are already dead, but they can help save those damaged cells that are about to die. Stem cells signal nearby cells that are about to die and help rescue those cells from cell death.They increase blood supply to damaged tissue and can help reduce scar tissue formation. Stem cells have trophic/growth factors that help nourish nearby cells that are damaged. ![]() This is especially helpful with chronic pain states and many autoimmune disorders. Stem cells can help restore balance, thus decreasing inflammation and swelling in the body. Many chronic pain states and systemic diseases have an imbalance of T1/T2 helper cells. They can decrease swelling and inflammation in the body by downregulating/decreasing the T-1 helper cells (pro-inflammatory cells) and upregulating/increasing the T-2 helper cells (anti-inflammatory cells).
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