Spinal deformations are posture dependent. Official data from the Netherlands show that youth are encountering increasing problems with the musculoskeletal system (>40% back pain, and sport injury proneness). Prolonged sloth and slumped sitting postures are causative factors. Dutch youth are “champion sitting” in Europe. The effects of sitting on the development of posture and function of locomotion (stiffness) during growth have only been reported clearly in classic textbooks (in German) of practical anatomy and orthopaedics. Research with relevant clinical examinations is being done to understand epidemiological data on the increasing posture-dependent problems.

A cohort of adolescents (15–18 years) in secondary school was assessed for sagittal postural deviations while bending. 248 children completed a questionnaire, and tests were done on neuromuscular tightness. The femorotibial angle was used to measure hamstring tightness. Measurement of the dorsiflexion of the foot was used to assess the tightness of calf muscles and Achilles tendons. All adolescents were photographed laterally while performing the finger–floor test (used to test flexibility), assessed as a knockout test: “Can you reach the floor or not?” The spinal profiles while bending were classified as abnormal arcuate or angular kyphosis.

Hamstring tightness was present in 62.1% of the cohort in both legs, and in 18.2% unilaterally. Achilles tendon tightness was present bilaterally in 59.3%, and unilaterally in 19.4%. Activities with presence of stiffness (finger–floor distance), in descending order, were football, running, no sports, field hockey, tennis, dance, and gymnastics. 93.5% of the soccer players had tight hamstrings in both legs compared with none of those performing gymnastics. The correlation of the finger–floor test with tight hamstrings was 73.2%. For sagittal bending deformities, the correlation between form and function deficits cannot be made yet. 80 of 248 spines were rated by the examiners as having deformed flexion. Since Andry (1741) and at the zenith of continental orthopaedics and anatomy around 1900, the prolonged flexed positions of a young spine were indicated as being the main cause of deformity by overload and shear loads on immature discs and cartilage, preventing normal development of the discs. Nachemson proved that the intradiscal pressure in sitting adults was extremely high, so it follows that children must also be at risk.

Evidence suggests that youth, generally because of their sedentary and “screenful lifestyle”, will encounter serious problems in growth, manifesting as incongruent neuro-osseous growth (Roth), serious neuromuscular tightness (being prone to injury), and spinal deformations, leading to pain.

Background: Unclear aetiology in scoliotic and kyphotic deformities of the spine are responsible for uncertainty in treatment options. To clarify aetiology a constant reference to what normal growth and optimal construction of the entire spine should be at the end of growth is lacking.

Examination of sitting children and consequent testing of muscular tightness can be useful in understanding the different disturbances of growth that keep the spine apparently away from an optimal configuration and thereby optimal function. Prolonged sitting of children exists only 200 years or less.

Goal:

- Better understanding of the role of the central nervous system, especially the cord and roots in proper and improper growth of the human spine.

Methods:

- Present obvious important and consistent clinical observations in children in sitting and supine position with early and advanced adolescent deformities, both kyphotic and scoliotic by photographic studies and video fragments.

Results: We discovered by alteration of our brace-configuration that applying lordotic forces exclusively on the thoracolumbar spine gives excellent correction of kyphotic and scoliotic deformities progressing in adolescence. In a study of 32 patients with double curves > 25° all scoliotic curves significantly (p< 0,001) reduced by correcting with a forced lordotic fulcrum.

Extended clinical examination of children with proven or suspected spinal deformities revealed a complex of consistent findings in different sitting positions and functional tests in supine and standing positions.

Discussion: By looking for scientific support for these phenomena in (bio-)mechanical literature the work of Milan Roth was disclosed in his complete width. His embryologic studies, (neuro) anatomical and radiological findings with their explanations, alongside interesting cadaver-, mechanical- and neuro-anatomical experiments and models can bring his concept of neuro-spinal relationship in growth and misgrowth back to orthopaedic daylight. Even Nicoladoni saw a century ago that a cascade of structural alterations take place around the “core”-unit of the spine: the boundaries of the central canal to let it stay on its place and in the shortest configuration possible in scoliosis, by suspected tensile and compressive forces.

Anatomical and biomechanical consequences of keeping the spine upright in standing, but more important in the sitting positions seems to fit. Children do sit for prolonged periods only in the last one or two centuries!

It can be shown that the presence of these tension related clinical signs are easily leading to high compressive forces with deformation of the ventral parts in the TL-junction while sitting In literature evidence of torsion facilitating anatomical features can be found to clarify why some spines deform in scoliosis an not in pure kyphosis

Conclusions: By recognising positive effects of creating lordosis at the thoracolumbar junction of the spine and consistent clinical findings in early deformations scientific support was found by early experimental work of Roth. With a leading role of the central nervous system in growth of the spine of standing and sitting vertebrates by steering a tension based system, deformation can be understood as adaptations. Consequences for preventive measures and therapeutic strategies in deformities seems inevitable.