Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine
<p>Aim: to present the potential of biomechanical modeling in individual choice of optimal surgical correction method for transitional thoracolumbar spine injury. Material and Methods. We built solid-base 3-dimensional model of the investigated spine segment in Mimics13 on the basis of CT data...
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Saratov State Medical University
2018-09-01
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| Series: | Саратовский научно-медицинский журнал |
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| Online Access: | http://www.ssmj.ru/system/files/2018_3-1_560-566.doc |
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doaj-6729a692acd74edcbe872d319dac57d02021-07-02T03:52:44ZrusSaratov State Medical UniversityСаратовский научно-медицинский журнал2076-25182018-09-011435605665154Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spineLikhachev S.V.Zaretskov V.V.Arsenievich V.B.Shul'ga A.E.Shchanitsyn I.N.Skripachenko K.K.<p>Aim: to present the potential of biomechanical modeling in individual choice of optimal surgical correction method for transitional thoracolumbar spine injury. Material and Methods. We built solid-base 3-dimensional model of the investigated spine segment in Mimics13 on the basis of CT data of injured thoracolumbar spine. Cage and anchorage models were created in CAE system SolidWorks. Numeric modeling was performed in ANSYS in Workbench medium. We analyzed full movement fields, their maximum values for each model as well as equivalent stress in vertebra and anchorage systems. Results. The analysis of equivalent stress and full movement fields emerging in the models under seven basic types of load revealed the most stable spondylosynthesis model which is circular spine</p>http://www.ssmj.ru/system/files/2018_3-1_560-566.docbiomechanical modeling of the spinecircular anchoragetransitional thoracolumbar spine |
| collection |
DOAJ |
| language |
Russian |
| format |
Article |
| sources |
DOAJ |
| author |
Likhachev S.V. Zaretskov V.V. Arsenievich V.B. Shul'ga A.E. Shchanitsyn I.N. Skripachenko K.K. |
| spellingShingle |
Likhachev S.V. Zaretskov V.V. Arsenievich V.B. Shul'ga A.E. Shchanitsyn I.N. Skripachenko K.K. Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine Саратовский научно-медицинский журнал biomechanical modeling of the spine circular anchorage transitional thoracolumbar spine |
| author_facet |
Likhachev S.V. Zaretskov V.V. Arsenievich V.B. Shul'ga A.E. Shchanitsyn I.N. Skripachenko K.K. |
| author_sort |
Likhachev S.V. |
| title |
Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine |
| title_short |
Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine |
| title_full |
Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine |
| title_fullStr |
Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine |
| title_full_unstemmed |
Biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine |
| title_sort |
biomechanical aspects of circular spondylosynthesis of transitional thoracolumbar spine |
| publisher |
Saratov State Medical University |
| series |
Саратовский научно-медицинский журнал |
| issn |
2076-2518 |
| publishDate |
2018-09-01 |
| description |
<p>Aim: to present the potential of biomechanical modeling in individual choice of optimal surgical correction method for transitional thoracolumbar spine injury. Material and Methods. We built solid-base 3-dimensional model of the investigated spine segment in Mimics13 on the basis of CT data of injured thoracolumbar spine. Cage and anchorage models were created in CAE system SolidWorks. Numeric modeling was performed in ANSYS in Workbench medium. We analyzed full movement fields, their maximum values for each model as well as equivalent stress in vertebra and anchorage systems. Results. The analysis of equivalent stress and full movement fields emerging in the models under seven basic types of load revealed the most stable spondylosynthesis model which is circular spine</p> |
| topic |
biomechanical modeling of the spine circular anchorage transitional thoracolumbar spine |
| url |
http://www.ssmj.ru/system/files/2018_3-1_560-566.doc |
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