Calculation of the strain-deformation condition of the spinal motor segment during loading

Calculation of the strain-deformation condition of the spinal motor segment during loading

A mathematical model is proposed to analyze the spinal strain-deformation condition resulting from axial and lateral g-loads that are generated by changes in the gravity field and/or pilot’s actions during high-performance aircraft maneuvering under flight overload conditions. An algorithm of soluti...

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Bibliographic Details
Published in:Human physiology Vol. 42; no. 7; pp. 820 - 825
Main Authors: Chumachenko, E. N., Logashina, I. V.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-12-2016
Springer Nature B.V
Subjects:
Aircraft
Biomedical and Life Sciences
Biomedicine
Brief Communications
Gravity
Human Physiology
Intervertebral discs
Life Sciences
Mathematical models
Mechanical properties
Motor task performance
mathematical modeling
mechanics
spinal column
biomechanics
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Summary:A mathematical model is proposed to analyze the spinal strain-deformation condition resulting from axial and lateral g-loads that are generated by changes in the gravity field and/or pilot’s actions during high-performance aircraft maneuvering under flight overload conditions. An algorithm of solution has been developed, which takes into account changes in the intervertebral disk pressure and the fibrous ring shape at the time when loading reaches close-to-critical g-values. Calculation of the spinal-strain deformation condition was implemented using the SPLEN computer system (KOMMEK, Russia). Analysis of the spinal straindeformation condition was made for two types of external loads: normal load and unilateral load with the bending moment. Maximum permissible loads on the spinal segment were evaluated, and a pattern of distribution of strain intensity and mean strains, spinal deformation, and the destruction field was described. The developed computer models can be used as a basis for developing a technique of predicting characteristic spinal injuries due to different extreme loads and pathologies.
ISSN:0362-1197
1608-3164
DOI:10.1134/S0362119716070033