Why Scoliosis Systems
Scoliosis is the result of small genetic faults in symmetrical growth. The earlier intervention is offered the greater the opportunity to reduce the abnormal forces which ultimately exacerbate the abnormal growth pattern seen in scoliosis. Research published in 2006 by Hawes et al agrees earlier intervention is the key to correction. Published in the Journal Scoliosis Journal Hawes and O’brien concluded,
The breakthrough of the Spinecor system is in its design to retrain movement and reduce the abnormal forces during movement. Retraining of posture and movement is a consequence of the adaptability of the “central pattern generators” which control postural muscle activity. In research published in SPINE (2004) researchers concluded changes in muscle recruitment patterns can serve to reduce the severity and progressive nature of scoliosis.
The transformation of spinal curvature into spinal deformity: pathological processes and implications for treatment., Hawes MC, O’Brien JP. Scoliosis 2006 Mar 31:1(1):3.
Muscle Activation Strategies and Symmetry of Spinal Loading in the Lumbar Spine with Scoliosis. SPINE 2004 Oct 1:29 (19):2103-7 Stokes IA, Gardner-Morse M.
Sensory Feedback Mechanism Underlying Entrainment of Central Pattern Generator to Mechanical Resonance. Biol Cybern 2006 Apr:94(4):245-61. Epub 2006 Jan 10.
Scoliosis is a three dimensional deformity characterized by excessive rotation of the spinal bones (vertebrae) as well as lateral bending. When the apex of the curvature is in the thoracic spine, the rotational component of the deformity causes the ribcage to rotate just as the spinal bones do, thereby causing the signature “rib hump”. Corrective procedures should include de-rotation of the ribcage as well as the spinal bones in order to reduce the ribcage deformity.
In a study published in SPINE 1995, researchers tested linguistic processing, a higher cortical function, and concluded children with scoliosis had an entire brain dominance lateralized to one side, unlike unaffected children in the control group. This study demonstrates the need for advanced neuro-diagnostic testing and clinical correlations which leads to meaningful neurologically based rehabilitation.
Adolescent Idiopathic Scoliosis and Cerebral Asymmetry. An Examination of the non-spinal perceptual systems. SPINE 1995 Aug 1;20(15):1685-91.
Researchers believe a genetic disturbance in the initiation sequence of growth is the primary dysfunction in Idiopathic Scoliosis. Growth centers in the anterior portion of the vertebrae are thought to grow faster than those in the posterior regions, thereby causing a flattening of the normal side (sagital) curves. Further delay in lateral growth centers leads to buckling and a wedging of the bones at the apex of the resultant curvature. Muscle spindles are known to be abnormal and potentially absent at the level of the apex further compounding the problem. Reduced spindle numbers means reduced awareness and motor control of the surrounding musculature, all leading to brain lateralization affecting much more than postural tone.
Researchers from Europe and the United States have published literature which supports the use of exercise and other physiotherapy to reduce the deformity associated with Scoliosis. Specific breathing exercises as well as resistance and postural re-education based exercises can be prescribed to reduce the neuro-musculature imbalance associated with scoliosis. Scoliosis Systems (TM) utilizes the Corrective Exercise Continuum as taught by the National Association of Sports Medicine (NASM). See illustrated below.
Normal body posture is maintained via a natural balance between the proprioceptive systems (dorsal columns of the spinal cord and muscle spindles), the vestibular system (inner ear and brain) and the visual system. Research confirms both children and adults with scoliosis have abnormalities in all of these systems in varying degrees. It is therefore important to evaluate each patient individually to determine which, if any of these systems are potentially lending to the progressive nature of their scoliosis. In the event an imbalance is identified, certain procedures and exercises can be prescribed which are designed to improve the systems in question.
Muscle spindles in the paraspinal musculature of patients with adolescent idiopathic scoliosis. Ford DM, Bagnall KM, Clements CA, McFadden KD. SPINE 1988 May:13(5):461-5
Patients with scoliosis are known to have neurological dysfunction which contributes to the progressive nature of scoliosis, as well as interfering with the rehabilitation of posture in the adult and child. Studies have identified an increased incidence of brainstem and cerebellar abnormalities such as brainstem hypoplasia and Arnold Chiari Malformation in patients with Scoliosis. Certain findings such as cervical lordosis, thoracic kyphosis, abnormal Somatosensory evoked potentials (SSEP) and nystagmus on electronystagmographic testing have been linked to neurogenic causes of scoliosis. In the event neurological dysfunction is identified, MRI imaging may be necessary. Other interventions may include neuromuscular rehabilitation which can be offered on an individual basis. Vestibular and oculomotor dysfunction has been shown to respond to personalized treatment programs, which are designed to re-educate the brain perception of subjective postural vertical.
In cases of adult scoliosis, bending radiographs and functional assessments can be helpful in identifying areas of spinal subluxation which can lead to arthritic changes in the spine as well as proprioceptive and muscular imbalances. These conditions require specialized chiropractic adjustments or physiotherapy procedures to improve range of motion and the normal coupling in spinal mechanics. In cases of adolescent or juvenile scoliosis, chiropractic may be appropriate to increase the frequency of firing of certain neural pathways. Each patient is evaluated on and individual basis and recommendations are made accordingly.
Bending radiographs are utilized to determine the beginning and the end of certain curvatures, as well as to assess the relative flexibility of the curvatures. Although rare, if there is a clinical necessity, bending films may be taken on either children or adults.
Physiotherapy techniques have been successfully utilized in scoliosis treatment for the past sixty years. Myofascial Release Technique (MRT) is designed to neurologically inhibit the connective tissues which become fibrotic when a muscle is in a shortened state for a prolonged period of time, thereby preparing the muscle to be lengthened.
Slow stretching causes an overall increase in resting muscle tone, and is therefore not recommended on the concavity musculature. Techniques which utilize fast stretch can be successful in reducing muscle tone and therefore are recommended on the concavity musculature.
Blood platelets have been found to be abnormal in children with scoliosis. It is believed that the similarities between platelets and muscle spindles as contractile proteins makes them susceptible to genetic influences present in Idiopathic Scoliosis. In a study performed by Dr. Lowe at the University of Nottingham, platelet changes were linked to paraspinous muscle activity in children with Scoliosis.
Platelet calmodulin levels in adolescent idiopathic scoliosis (AIS); can they predict curve progression and severity”? Eur Spine J. 2004 May:12(3):257-65. Epub 2004 Jan 9
A recent article in The Journal of Neuroscience, November 17, 2004, 24(46):10410-10415 highlighted the relationship of the brain to back pain. See below:
Chronic Back Pain Is Associated with Decreased Prefrontal and Thalamic Gray Matter Density
A. Vania Apkarian, Yamaya Sosa, Sreepadma Sonty, Robert M. Levy, R. Norman Harden, Todd B. Parrish, and Darren R. Gitelman
We compared brain morphology of 26 chronic back pain (CBP) patients to matched control subjects, using magnetic resonance imaging brain scan data and automated analysis techniques. CBP patients were divided into neuropathic, exhibiting pain because of sciatic nerve damage, and non-neuropathic groups. Pain-related characteristics were correlated to morphometric measures. Neocortical gray matter volume was compared after skull normalization. Patients with CBP showed 5-11% less neocortical gray matter volume than control subjects. The magnitude of this decrease is equivalent to the gray matter volume lost in 10-20 years of normal aging. The decreased volume was related to pain duration, indicating a 1.3 cm3 loss of gray matter for every year of chronic pain. Regional gray matter density in 17 CBP patients was compared with matched controls using voxel-based morphometry and nonparametric statistics. Gray matter density was reduced in bilateral dorsolateral prefrontal cortex and right thalamus and was strongly related to pain characteristics in a pattern distinct for neuropathic and non-neuropathic CBP. Our results imply that CBP is accompanied by brain atrophy and suggest that the pathophysiology of chronic pain includes thalamocortical processes.
Studies confirm the muscles of the convexity undergo atrophy due to disuse. Electrical stimulation at a frequency of 2500hz has been successfully used to create muscle contraction and ultimately muscle hypertrophy in denervated or under used musculature. Proprioceptive activation is another benefit leading to increased somatotopic representations of the deformed area of the trunk and thorax.
Our patients include an Olympic Skier, competitive gymnasts, a Champion Golfer, an ice skater, and many ballerinas, all who are able to continue to practice and compete in their sports while wearing our brace.
Dr. Gary Deutchman and his team has successfully managed children and adults with scoliosis secondary to Cerebral Palsy (CP), Prader Wilie Syndrome, Polio, Ehrler Danlos Syndrome, Spinal Muscle Atrophy (SMA), Post Stroke, and Parkinsonism.
Why do you recommend treating mild curvatures? I’ve been told even a moderate curvature is harmless
Ventilatory Functional Restriction in Adolescents with Mild or Moderate Idiopathic Scoliosis
Barrios and coworkers recently demonstrated, for the first time, that patients with mild and moderate idiopathic scoliosis have impairment of cardiopulmonary function. Those investigators noted a worse tolerance to maximal exercise testing, lower ventilatory efficiency at maximal exercise, an earlier anaerobic
threshold, and a lower normalized maximal aerobic capacity in subjects with scoliosis than in matched nonscoliotic controls. That important study received the Hibbs Award for clinical research
at the annual meeting of the Scoliosis Research Society in 2002. The study established that there is impairment of cardiopulmonary function even in patients with mild and moderate scoliosis, necessitating a reassessment of our understanding of and approach to mild and moderate scoliosis as a benign condition.
Individuals with idiopathic scoliosis had a significantly lower tolerance to maximal and submaximal exercise but did not exhibit significant cardiopulmonary restrictions.