With the amount of research and alternative forms of medication and treatments available, everyone is able to choose the right treatment for them. Stem cells are some of the most personalized medical procedures out there, a lot of other medical solutions are made with the “one size fits all” model in mind because it’s easier and doesn’t require any additional training. Modern medicine is truly fantastic, but make sure you’re working for YOU and not for everyone. Everyone wants to know of alternatives!
Does anyone know exactly where stem cells come from? The best source is your own body! All body tissue has stem cells in it, but some like bone marrow and fat are far more plentiful and viable sources. Also in using your own body as the source, you totally avoid all chance at infections or pathogens. Be wary of people with off-the-shelf products, these are not living stem cells and are often falsely advertised as so.
While stem cell research is much newer than some forms of treatment, it is wildly successful. Roughly 95% of people claim that the procedure was a success and has improved everyday life, and even 80%+ of people say the same after three months. Like all medicine, you and your lifestyle choices heavily impact how successful it may be. In a short time, we’ve seen those with severe arthritis benefit the most from stem cell and growth factor treatments.
As with any form of medical procedure, you do have mild risks involved. With proper techniques and guidelines infection is exceedingly rare, only about 1 in 1000 are affected at all by infection. Stem cell therapy and growth factor injections are very safe, but still always ensure you’re working with the best of doctors and only doing things you understand and are comfortable with. Medicine always comes with risks, the best thing you can do for yourself is research the topic so you know what you’re talking about and doing to your body. We trust the skilled and experienced team at stem cell treatment Charlotte when undergoing any medical procedure involving stem cells.