Abstract
Introduction
One of the most complicated problems of orthopaedics is the treatment of scoliosis. More than 90% of cases are attributable to idiopathic deformation, the cause of which is unknown. We investigated the cause and pathogenesis of this disorder.
Methods
At our institution, more than 6900 patients aged 1–89 years have undergone inpatient and outpatient treatment in connection with spinal pain syndrome and different neurological disorders associated with idiopathic scoliosis. This study was undertaken between February, 1996, and February, 2010. All patients had had clinical, radiographic, and laboratory examinations.
Results
29·6% of patients were aged 31–50 years; 60% were men and 40% women. While examining patients with scoliosis deformation we noted symptoms of body asymmetry–ie, different volumes of right and left halves of face, body, and limbs. These features were typical for all patients irrespective of sex, age, and ethnic origin. 83·2% of patients had underdevelopment of left part of the body, and only 16·8% the right side. Analysis of published work in anatomy, physiology, neurophysiology, and vertebrology, done simultaneously with analysis of clinical material, allowed us to make some conclusions.
Conclusions
First, asymmetrical structure of human body is based on laws of nature and is linked with difference of sizes and activity of brain's hemispheres, particularly of right or left gyrus centralis anterior, which control the muscle's function and our movements. Second, asymmetrical tension of Erector spinae muscles leads to inclination of the pelvis on a side of weak muscles; thus initiating development of lateral spine curves. Since such a situation is typical for all people, this deformation is known as functional scoliosis. Third, further development of bodies of vertebrae, their arches, processes, intervertebral discs, ligaments, and other anatomical elements in position of deviation leads to one-sided underdevelopment of these structures. As a result, areas of instability appear in each segment of spine (neck, chest, lumbar, and sacral areas). Fourth, the muscles in a growing body misbalance and on the ground of rotating movement start rotatory dislocation of vertebrae in zones of instability in all parts of the spine. As a result, torsion of deformed wedge-shaped vertebrae leads to formation of structural scoliosis. Rotation of vertebrae, described above, does not depend on sex, age, and ethnic origin of a patient and has a character of natural development. Thus, from our point of view, the term idiopathic scoliosis must be changed to spinal muscle asymmetrical deformation of a reflex origin. Understanding of this rotation allowed us to establish an effective non-surgical method of treatment of scoliosis and spinal pain syndrome in patients of all ages.