Improvement in Spine Pain, Functional Performance, and Quality of Life in a 26-Year-Old Male With a Failed Spine Fusion Surgery After Chiropractic BioPhysics® Structural Spinal Rehabilitation: A Case Report With a Six-Month Follow-Up

Jason W Haas; Curtis Fedorchuk; Douglas F Lightstone; Paul A Oakley; Deed E Harrison

doi:10.7759/cureus.71544

Improvement in Spine Pain, Functional Performance, and Quality of Life in a 26-Year-Old Male With a Failed Spine Fusion Surgery After Chiropractic BioPhysics® Structural Spinal Rehabilitation: A Case Report With a Six-Month Follow-Up

Cureus. 2024 Oct 15;16(10):e71544. doi: 10.7759/cureus.71544. eCollection 2024 Oct.

Authors

Jason W Haas¹, Curtis Fedorchuk², Douglas F Lightstone³, Paul A Oakley^{4

5}, Deed E Harrison⁶

Affiliations

¹ Research, Chiropractic BioPhysics (CBP) Non-profit, Inc., Windsor, USA.
² Chiropractic Biophysics, Institute for Spinal Health and Performance, Cumming, USA.
³ Chiropractic, Institute for Spinal Health and Performance, Cumming, USA.
⁴ Kinesiology and Health Science, York University, Toronto, CAN.
⁵ Chiropractic, Innovative Spine and Wellness, Newmarket, CAN.
⁶ Research, Chiropractic BioPhysics (CBP) Non-profit, Inc., Eagle, USA.

Abstract

Neck pain (NP) is a leading cause of disability and can be a consequence of failed cervical spine surgeries. Articles showing successful conservative therapies after a failed surgery in the cervical spine are very rare. A 26-year-old male reported six years of worsening and disabling NP. The short-form 36-question health status questionnaire revealed a decrease in quality-of-life scores, with a physical component score (PCS) of 25.2 and a mental component score (MCS) of 29.9, compared to the normal scores of 46.8 and 52.8, respectively. Grip strength measured 36.7 kg on the left and 37.1 kg on the right (normal range: 45-52 kg). Radiography revealed cervical hypolordosis (absolute rotation angle, ARA, C2-C7) and anterior head translation (T_z C2-C7) measuring -14.6° and 20.6 mm (ideal is -42° and 0 mm). Chiropractic BioPhysics^® (CBP^®) (CBP Non-Profit, Inc., Eagle, ID) spinal rehabilitation sessions were administered involving Mirror Image^®(CBP Non-Profit, Inc.) spinal exercises, traction, and adjustments to correct cervical spinal alignment. Following 30 treatments over nine weeks, the patient reported near-resolution of initial symptoms, discontinued pain medications, and improved quality of life. Posttreatment outcomes included the following: improvement in PCS (45.6) and MCS (37.1), normalized grip strength on the left (45.3 kg) and right (49.4 kg), and improvement in ARA C2-C7 (30.1°) and T_z C2-C7 (15.6 mm). After six months without treatment, a follow-up examination showed sustained improvements in symptoms and outcome measures, including ARA C2-C7 (30.9°) and T_z C2-C7 (10.6 mm). Failed cervical spine surgeries and persistent spine pain syndrome can occur with devastating consequences. CBP^® may be an effective, conservative approach to help improve pain and disability in patients with poor surgical outcomes and abnormal spinal alignment.

Keywords: cervical lordosis; chiropractic biophysics; instrumented spine fusion; neck pain; persistent spinal pain syndrome; radiography; spine surgery; upper cervical spine.

Publication types

Case Reports

Grants and funding

The authors Curtis Fedorchuk and Douglas F. Lightstone have no conflicts of interest. The author Paul A. Oakley is a compensated consultant for CBP Non-Profit, Inc. The author Jason W. Haas is an instructor for CBP® Seminars and a compensated researcher. The author Deed E. Harrison is the CEO of Chiropractic BioPhysics® (CBP®, CBP Non-Profit, Inc., Eagle, ID) and provides postgraduate education to healthcare providers/physicians. Spine rehabilitation devices are distributed through his company. The author Deed E. Harrison is the president of CBP Non-Profit, Inc. (a not-for-profit spine research foundation).