At Manchester Chiropractic & Sports Injuries, the outcomes of treating patients with lumbar spine disc herniations with specialized chiropractic techniques is a major component of our chiropractic services practice. We endeavor to offer the best system of care when our Manchester back pain patients choose us for pain relief and return to work. So, we want to share another documented reason why non-surgical back pain relief like ours should be a big consideration... baseball players' back pain experiences.
In a study of 69 professional baseball players with lumbar spine disc herniations
, researchers analyzed the surgical and non-surgical outcomes. Overall, 97% of them returned to play at an average of 6.6 months. Still,
- non-surgically treated players went back to play in 3.6 months and
- surgically treated players returned in 8.7 months. (1)
What got them back to playing baseball (their work!) faster?
Yes, the non-surgical treatment for disc herniation was more beneficial in returning the professional athlete to play than the surgical. Manchester Chiropractic & Sports Injuries is certainly here for all the Manchester athletes, but we’re really here for you. Could non-surgical treatment work for you? Well, your spine more than likely receives less stress than a professional athlete’s. That weighs on the side that your lower back pain and leg pain may respond even better. And our Cox Technic system of care is gentle, safe and effective with federally funded research support behind it.
So, contact Manchester Chiropractic & Sports Injuries for an assessment if you suffer from lower back pain and/or leg pain due to a disc herniation. We're here for you!
"This information and website content is not intended to diagnose, guarantee results, or recommend specific treatment or activity. It is designed to educate and inform only. Please consult your physician for a thorough examination leading to a diagnosis and well-planned treatment strategy. See more details on the DISCLAIMER
page. Content is reviewed by Dr. James M. Cox I