Stem Cell Therapy in Fort Worth, TX
Advanced Therapy with Advanced Results
Stem cell treatments work with the body’s natural ability to heal itself. Unlike treatments that simply address the symptoms, this therapy actually promotes repair of the body, restoring degenerated tissue.
At Neuropathy & Pain Centers of Texas’ three convenient locations, including Fort Worth, non-invasive medical procedures are the mainstay of our practice. Using the most up to date techniques, our staff treats patients as whole people, providing a comprehensive diagnostic assessment in order to design a customized strategy for relief from medical concerns in the Dallas/Fort Worth area. The technology has advanced to a point that, at Neuropathy & Pain Centers of Texas, we apply stem cell treatments designed to help our patients attain their wellness goals and achieve a higher quality of life.
For instance, until recently, treatment options for people with osteoarthritis of the knee were limited. Steroid injections, joint replacement surgery, and physical therapy were often the only treatment options. Now, regenerative injections for knee osteoarthritis are available at Neuropathy & Pain Centers of Texas. Regenerative cellular therapy also has applications for treating Achilles tendonitis, rotator cuff tendonitis, and degenerative arthritis.
Stem cell research has made it so these injections work with the body’s natural ability to heal itself. Unlike treatments that simply address the symptoms, stem cell therapy actually promotes repair of the body, restoring degenerated tissue. Stem cell injections also contain hyaluronan, which eases pain and restores mobility by lubricating joints and tendons. This therapy fits well with Neuropathy & Pain Centers of Texas’s integrated approach to wellness, addressing the source of issues, rather than just treating the symptoms. To learn if you’re a candidate for stem cell therapy, contact one of our locations, including Fort Worth, to get more info and set up a free consultation with one of our specialists.