Chelmsford (978) 505-7813

What Is Spinal Decompression?

Spinal decompression therapy in Woburn & Chelmsford, MAWe work with many back pain patients in our Woburn & Chelmsford, MA chiropractic office, and Dr. James Ellis & Dr. Lyndsay Martin and our staff uses a variety of techniques to help get you out of pain and restore your spine's normal, healthy function. We find spinal decompression to be a highly effective approach.

Understanding Spinal Decompression Therapy

To help you better understand spinal decompression therapy, think of the discs in your spine like small balloons filled with gelatin. When you squeeze them (which occurs due to normal living, sustaining an injury, or other medical conditions), they can protrude, placing pressure on the nerves in your spinal column. This affects your brain's ability to communicate with tissues in the rest of your body.

If the force on the discs becomes too high, they can herniate or bulge. This removes the padding between your vertebrae and can cause pain. The goal of spinal decompression therapy is to reduce this pressure to help restore your body's function and also reduce your level of pain.

Can Spinal Decompression Therapy Help Me?

Spinal decompression therapy relieves disc pressure through the use of a specially designed table that gently elongates your spinal column through slow and controlled movements. This decreases the pressure placed on your discs. Some studies show an increase in disc height by as much as 1.3 millimeters after just six weeks of spinal decompression therapy.

If you're wondering if spinal decompression therapy could help you feel and function better, simply call our Woburn & Chelmsford, MA office and schedule an appointment with Dr. James Ellis & Dr. Lyndsay Martin today. Your optimal health is our number one priority!

Resources

Apfel CC, Cakmakkaya OS, Richmond C, et al. Restoration of disk height through non-surgical spinal decompression is associated with decreased discogenic low back pain: a retrospective cohort study. BMC Musculoskeletal Disorders 2010;11(155). doi:10.1186/1471-2474-11-155

Share to X (Twitter)