Orthobiologic medicine is the branch of medicine that focuses on developing methods to regrow, repair, or replace damaged or diseased cells, organs or tissues. Cell therapy is a type of orthobiologic medicine that involves the use of human bodies’ therapeutic stem cells to heal itself. Through this therapy, damaged tissues and injuries can be repaired.
Cell therapy in Louisiana is becoming increasingly popular for excellent reasons. Physicians are recommending this form of therapy to their patients—sometimes, in conjunction with other treatments—because they offer a remarkable number of benefits such as:
Cell therapy is unlike many conventional medical treatments. It does not involve painful therapies that often take weeks or months to offer relief. By targeting and injecting tissues into the affected area, this therapy ensures faster results and lower levels of pain. The whole treatment can be completed in as fast as 30 minutes. This approach allows for minimal bruising and discomfort.
The ultimate goal of treating any patient with cell therapy is to eliminate the need for invasive surgery and allow them to return to their normal activities quickly. Orthobiologic medicine doctors offer this treatment as the first line of attack against acute or chronic injuries or illnesses so that patients don’t have to undergo risky surgical treatments that require extensive healing. There is no need for the administration of local anesthesia since the therapies would only involve injection of tissue to the injured area.
Cell therapy in Louisiana is more popularly used for treating orthopedic injuries. What many people don’t know is that it is also used to treat other kinds of diseases, including cardiovascular diseases and neurodegenerative diseases. Research on stem cells has found out that this therapy improves recovery of heart disease, stimulating repair and growth of blood vessel tissue. Current findings also suggest that stem cells can improve synaptic circuits, provide relief from degeneration symptoms, and slow down disease progression.