To characterize the case report evidence of Chiropractic BioPhysics ® (CBP ® ) technique methods applied to increase cervical lordosis and improve forward head posture. [Methods] The CBP Non-profit website as well as PubMed and Index to Chiropractic literature were searched for case reports/series documenting the increase of cervical lordosis and improvement of forward head posture in the treatment of various craniocervical spinal disorders by CBP technique methods. [Results] Sixty patients were reported in 41 unique manuscripts detailing the improvement in cervical spine alignment by CBP technique methods. On average, there was a 14° improvement in cervical lordosis and a 12 mm reduction in forward head position after 40 treatments over 16 weeks with a 5-point reduction in pain rating scores. Thirty-eight percent of cases included follow-up showing only slight loss of lordosis, but maintenance of pain and disability improvements after an average of 1.5 treatments per month for 1.8 years. [Conclusion] An abundance of reports document improvement in craniocervical and other ailments by CBP methods that increase cervical lordosis. Routine radiographic imaging of the spine is recommended as it is safe and the only current practical method of screening for critical biomechanical biomarkers of sagittal spine alignment.
[Purpose] A case series is featured demonstrating reduction of curvature in three adult patients who presented with a mild to moderate severity of a uniquely high thoracic curvature clinical presentation. [Participants and Methods] Three adult patients who presented with an upper thoracic scoliosis deformity of mild to moderate severity underwent Chiropractic BioPhysics ® treatment protocols to treat their deformity. Radiographic stress imaging was performed to correctly position and ascertain potential treatment effect of the Denneroll spinal orthotic device. Patients performed spinal traction for 10–20 minutes daily with intermittent spinal manipulative therapy. [Results] There was a 4.5° average reduction in computerized Cobb angle measurement after treatment. All patients reported reductions in spinal pain and also reported subjective improvements in sleep quality and quality of life. [Conclusion] Mild reductions in uniquely high thoracic curves can be reduced in adult scoliosis patients with mild to moderate (17°–26°) curve magnitudes by CBP treatment protocols. Stress X-ray images are recommended to properly place the fulcrum and assess correction potential.
[Purpose] To present a case demonstrating dramatic restoration of the cervical lordosis and reduction of forward head posture by use of Chiropractic BioPhysics ® (CBP ® ) technique. [Participant and Methods] A 24-year-old cervical asymptomatic female presented with poor craniocervical posture. Radiography revealed forward head posture and an exaggerated cervical kyphosis. [Results] The patient received CBP care including mirror image ® cervical extension exercises, cervical extension traction and spinal manipulative therapy. After 36 treatments over 17-weeks, repeat radiography demonstrated a dramatic improvement of an alteration of the cervical kyphosis to a lordosis and a reduction of forward head posture. Subsequent treatment increased the lordosis further. Long-term follow-up at 3.5 years showed some loss of original correction, however, a maintenance of the global lordosis. [Conclusion] This case demonstrates that non-surgical reversal of a cervical kyphosis to a lordosis is possible in a short time using CBP cervical extension protocols. It is logical if the kyphosis had not been corrected, over time, osteoarthritis and various craniovertebral symptoms would have evolved as the literature indicates. The diagnosis of gross spinal deformity, we argue, requires its correction prior to the onset of symptoms and permanent degenerative changes.
To demonstrate the reduction of lumbar hyperlordosis, sacral base angle and anterior thoracic translation posture in an 11-year-old female. [Participant and Methods] A pediatric patient presented with lumbar hyperlordosis and underwent Chiropractic BioPhysics ® treatment protocols to reduce her spinal deformity and correlated symptoms. Symptoms included thoracolumbar, hip, knee and ankle pains and lower extremity weakness. Radiographs confirmed lumbar hyperlordosis, increased sacral base angle and a forward translated thoracic posture. Spinal traction as well as corrective exercises and spinal manipulative therapy was performed over an 11-month period. [Results] After 57 treatments, there was a 13.4° reduction in L1-L5 lordosis, an 11.8° reduction in sacral base angle and a 13.8 mm reduction in anterior thoracic translation. The improved structural changes correlated with improved symptoms. [Conclusion] Lumbar hyperlordosis can be reduced in pediatric patients presenting with hyperlordosis and associated symptomatology. Routine radiography may be warranted in the diagnosis of lumbar spine deformities in pediatrics. Further research into the non-surgical reduction of lumbar spine hyperlordosis is needed.
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