Browse > Article

Effects of Fusion Level for Scioliotic Spine Correction Simulation with Pedicle Screw and Rod Derotation Method  

김영은 (단국대학교 기계공학과)
손창규 (단국대학교 기계공학)
최형연 (홍익대학교 기계시스템디자인공학)
하정현 (경찰병원 정형외)
이춘기 (서울대학교 정형외과)
Publication Information
Journal of Biomedical Engineering Research / v.25, no.1, 2004 , pp. 71-76 More about this Journal
Abstract
In order to investigate the Post-operative changes in scoliotic spine according to selection of fusion level a mathematical finite element model of King-Moe type II scoliotics spine system was developed. By utilizing this finite element scoliosis model surgical correction simulation procedures of pedicle fixation and derotation were simulated. In consequence of the calculation by changing the fusion Levels, postoperative changes like Cobb angle, apical vertebrae axial rotation (AVAR), thoracic kyphosis, and rib hump were Qualitatively analyzed. In the analysis of operative kinematics, the decrease or Cobb angle was most prominent in distraction than in deroation. Applying the rod derotation only was not effective in decrease of Cobb angle but just caused increase of At AR and rib hump. From the operative simulation, co-action or distraction and translation during rod insertion has major impact on Cobb angle decrease and maintenance of kyphosis. With rod rotation, Cobb angle decrease was obtained, but combined increase of AVAR and rib hump was simulation observed as well. The case of most extended instrumentation range with 60o rod rotation produced double decrease of Cobb angle, but the increase of rib hump and AYAR occurred corresponding1y. The optimum selection of fusion level was proved as one level less than inflection position of the thoracic spine curvature.
Keywords
Scoliosis; FE model; Fusion level; Post-operative changes; King-Moe type II;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Biomechanical factors in the progression of idiopathic scoliosis /
[ Schultz AB ] / Ann. Biomechanical Engineering
2 The use of mathematical models for studies of scoliosis biomechanics /
[ Schltz AB ] / Spine
3 Three-dimensional simulations of Harrington distaraction instrimentation scoliosis for surgical correction of scoliosis /
[ Stokes IAF;Gardner-Morse M ] / Spine   DOI   ScienceOn
4 Biomechanical modeling of the scoliotic reducibility /
[ Petit Y;Aubin CE;Labelle H ] / IVth WCB
5 A study of biomechanical coupling between spine and rib cage in the trreatment by orthosis of scoliosis /
[ Aubin CE;Dansereau J;Gruse JAD;Labelle H ] / Ann. Chir
6 /
[ White III A;Panjabi M ] / Clinical Biomechanics of the Spine(2nd edition)
7 Optimization method for 3D bracing correction of scoliosis using a finite element model /
[ Gignac D;Aubin CE;Dansereau J;Labelle H ] / Eur. Spine J.   DOI   ScienceOn
8 Three-dimensional simulations of scoliosis by Cotrel-Dubousset instrumentation /
[ Stokes IAF;Laible J ] / J.Biomech.
9 Biomechanical tools to understand and predict the effect of interventions in scoliosis /
[ Aubin CE;Perie D;Petit Y;Dansereau J;Labelle H ] / IVth WCB
10 Idiopathic scoliosis: Correction of lateral and rotational deformities using the Cotrel-Dubousset spinal instrumentation system /
[ Pollock FE;Pollock FE Jr ] / South Med J   DOI   ScienceOn
11 Characterization of the mechanical behaviour parameters of the costo-verebral joint /
[ Lemosse D;Rue OL;Diop A;Skalli W;Marec P;Lavaste F ] / Eur Spine J   DOI   ScienceOn
12 A Mathematical Expression of Three-Dimensional Configuration of the Scoliotic Spine /
[ Kanayama M;Tadano S;Kaneda K;Ukai T;Abumi K ] / J. Biomechanical Engineering   DOI   ScienceOn
13 Tree-Dimensional simulations of scoliosis derotatuin by Cotrel-Dubousset insterumentation /
[ Gardner-Morse M;Stokes IAF ] / J.Biomech.   DOI   ScienceOn
14 Biomechanical modeling of scoliotic spine instrumentation using flexible mechanisms /
[ Poulin F;Aubin CE;Stokes IAF(et al.) ] / Feasibilty study. Ann Chir.
15 Cotrel-Dubousset instrumentation for adolescent idiopathic scoliosis /
[ Lenke LG;Bridwell KH;Baldus C(et al.) ] / J. Bone Joint Surg
16 척추측만증에서 척추경 나사 고장 및 감염술을 이용하여 회전 변형 교정을 위한 수술 기법-감염술-나사회전술 /
[ 이상민;석세일;김진혁(등) ] / 대한척추외과학회지