DETECTION OF CURVATURES AND TORSIONS IN THE SPINAL COLUMN THROUGH QUANTITIVE TRIDIMENSIONAL ANALYSIS

Authors

  • Renato Landucci Ortale
  • René Brenzikofer
  • José Roberto Ortale

Keywords:

spinal column, posture, tridimensional, curvature, torsion

Abstract

This paper introduces a method for quantitative and tridimensional analysis of the spinal column in a static position. The method utilizes stereoscopic photographic

registers, image measurement in digitalized table and data analysis using software developed in arder to supply quantitative results in the formal of graphs representing the 3D curvatures and geometrical torsions of the spinal column. The method was applied to thee voluntary subjects who, before having their photographic registers taken, were submitted to a clinicai posture evaluation. A total of twenty anatomic points were marked with contrasting adhesive disks. The points of reference wentfrom the occipital basis until the spinous process of the fourth lumbar vertebra. The results are presented in six graphs for each subject. Two graphs represent the polynomial projection of the spinal column curves in the sagital and frontal planes. Two other graphs represent the bidimensional curvatures in the same planes. One graph represents the 3D curvature and the last one represents the geometric 3D torsion. ln ali these graphs the variables are represented infunction of the vertical coordinate. This method successfully detected inwhich regions of the spinal co/umn 3D curvatures and geometrical torsions occur. lt enab/es the users to quantify, with accuracy, spinal co/umn deformities, such as, lordosis, kyphosis and scoliosis.

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References

AALTO, H., PYYKKO, I. & STARCK, J. 1988. Computerized Posturography. Acta Otolaryngol, Stockh: 449, 71-75.

ABDEL AZIZ, Y.I. & KARARA, H.M. 1974.

Photogrammetric Potential of Non-metric Cameras. Civil Eng.Studies, Photogrammetric,Series 36, Univ. Illinois, USA.

ASSENTE, R.; FERRIGNO, G.; PEDOTTI, A.; SANTAMBROGIO, G.& VIGANO, R. 1987. Auscan System: Anewproceduretoevaluate spinal deformities. Biomechanics XA, Champaign: Human Kinetics Publishers, V(6A): 207-211.

BEVINGTON, P.R. 1969. Data Reduction and Error Analysis for the Physical Sciences. New York: Me Graw-Hill, p. 92-143.

BRENZIKOFER, R. 1991. Instrumentação Para Biomecânica deCorpo Inteiro.Anais do III Congresso Nacional de Biomecânica, Juiz de Fora, Brasil.

BRENZIKOFER, R. 1993. Three-dimensional Reconstruction for Classroom and Laboratory. Proceeding of the XIVth I.S.B. Congress, Paris, France, p. 216 217. CAILLIET, R. 1979. Escoliose. São Paulo: Manole, p. 17-27.

DANGELO, J. G. & FATTINI, C. A. 1985. Anatomia Humana Sistémica e Segmentar. Rio de Janeiro: Atheneu, p. 375.

DRERUP, B. & HIERHOLZER, E. 1985. Objective Determination of Anatomical Landmarks on the Body Surface. J. Biomech. 18(6): 467-474.

DRERUP, B. & HIERHOLZER, E. 1986. Detection of Anatomical Landmarks on the Back Surface. Stuttgart: Gustav Fischer, p. 151-157.

DRERUP, B. & HIERHOLZER, E. 1987. Automatic Localization of Anatomical Landmarks on the Back Surface and Construction of a Body-Fixed Coor_dinate System. J. Biomech. 20(10): 961-970.

FRANÇA, V. 1991. Validade da Topografia Moiré no diagnóstico precoce da escoliose vertebral. Dissertação de mestrado. USP, Faculdade de Medicina de Ribeirão Preto.

FROBIN, W. & HIERHOLZER, E. 1981. Rasterstereography: A photogrammetric method for measurement ofbody surfaces. Photogramm. Engin. Remote Sensing, 47(12): 1717-1724.

FROBIN, W. & HIERHOLZER, E. 1982. Analysis of Human Back Shape Using Surface Curvatures. J. Biomech. 15: 379-390.

JOHNS, H.E. & CUNNINGHAM, J.R. 1983.The Physics of Radiology. 4 ed. New York: Thomas Books, p. 633- 635.

MILES, C.A. & SPEIGHT, B.S. 1975. Recording the Shape of Animais by a Moiré Method. J. Physics, 8: 773-776.

NOSSE, L.J. 1985. Measurement System for Low-Back Contour. Phys. Ther., 65: 1212-1213.

ORTALE, R.L. 1993. Método de reconstrução tridimensional para avaliação postural. Dissertação de mestrado. UNICAMP, Faculdade de Educação Física. 77 p.

PHILIPPENS, M.M.G.M.; SNIJDERS, C.J. & NORDIN, M. 1987. Continuous Registration ofthe Curvature and Inclination of the Back During Working Hours. Biomechanics XB, Champaign: Human Kinetics Publishers V(6B): 1015-1019.

PONCET; P.; DANSEREAU, J.; BELLEFLEUR, C. & LABELLE, H. 1992. Smoothing Methods for the Measurement of Geometric Torsion on 3D Reconstructed Scoliotic Spines. International Symposium on 3D Scoliotic Deformities, Stuttgart: Gustav Fischer, p. 273-281.

RASCH, P.J. & BURKE, R.K. 1987. Cinesiologia e Anatomia Aplicada. 5.ed. Rio de Janeiro: Guanabara Koogan, p. 440-443.

SNELL, R. S. 1984. Anatomia. 2 ed. Rio de Janeiro: Médica e Científica, p. 721-727.

TESTUT, L. & JACOB, O. 1956. Tratado de Anatomia Topográfica. Barcelona: Salvat, p. 623.

WARWICK,R. &WILLIAMS, P. L. 1973.Anatomiado Gray. 35 ed. Rio de Janeiro: Guanabara Koogan, p. 222-238.

Published

2000-12-31

How to Cite

Ortale, R. L., Brenzikofer, R., & Ortale, J. R. (2000). DETECTION OF CURVATURES AND TORSIONS IN THE SPINAL COLUMN THROUGH QUANTITIVE TRIDIMENSIONAL ANALYSIS. Bioikos, 14(2). Retrieved from https://seer.sis.puc-campinas.edu.br/bioikos/article/view/927

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