Research Progress and Prospect of Applications of Finite Element Method in Lumbar Spine Biomechanics_Journal of Biomedical Engineering

Authors：

ZHANGZhenjun ^1,2 , LIYang ^1,2 , LIAOZhenhua ^1,3 ,  LIUWeiqiang ^2,3

1. Department of Mechanical Engineering, Tsinghua University, Beijing 100084, China;
2. State Key Laboratory of Tribology, Tsinghua University, Beijing 100084, China;
3. Shenzhen Institute of Tsinghua University, Laboratory of Biomedical Material and Implanted Devices, Shenzhen 518057, China;

Corresponding?author：

LIUWeiqiang, Email: weiqliu@hotmail.com

Keywords：

finite element method; lumbar; biomechanics; fusion; artificial lumbar disc replacement

DOI：

10.7507/1001-5515.20160189

Video：

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Based on the application of finite element analysis in spine biomechanics, the research progress of finite element method applied in lumbar spine mechanics is reviewed and the prospect is forecasted. The related works, including lumbar ontology modeling, clinical application research, and occupational injury and protection, are summarized. The main research areas of finite element method are as follows: new accurate modeling process, the optimized simulation method, diversified clinical effect evaluation, and the clinical application of artificial lumbar disc. According to the recent research progress, the application prospects of finite element method, such as automation and individuation of modeling process, evaluation and analysis of new operation methods and simulation of mechanical damage and dynamic response, are discussed. The purpose of this paper is to provide the theoretical reference and practical guidance for the clinical lumbar problems by reviewing the application of finite element method in the field of the lumbar spine biomechanics.

Citation： ZHANGZhenjun, LIYang, LIAOZhenhua, LIUWeiqiang. Research Progress and Prospect of Applications of Finite Element Method in Lumbar Spine Biomechanics. Journal of Biomedical Engineering, 2016, 33(6): 1196-1202. doi: 10.7507/1001-5515.20160189 Copy

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2.	顏文濤, 趙改平,方新果,等.人體腰椎L4-5節段有限元建模及分析[J].生物醫學工程學雜志,2014,31(3):612-618.
3.	徐浩, 張秋林,唐昊,等.腰椎L3-L5三維有限元模型的有效性驗證[J].中國組織工程研究,2013,17(35):6261-6266.
4.	秦計生, 王昱,彭雄奇,等.全腰椎三維有限元模型的建立及其有效性驗證[J].醫用生物力學,2013,28(3):321-325.
5.	PENG X Q, GUO G D, ZHAO N. An anisotropic hyperelastic constitutive model with shear interaction for cord-rubber composites[J]. Compos Sci Technol, 2013, 78: 69-74.
6.	趙亮, 閆廣華,瞿東濱,等.腰椎間盤退變對軟骨終板生物力學特性影響的有限元分析[J].中國臨床解剖學雜志,2015,33(4):455-460.
7.	JACOBS N T, CORTES D H, PELOQUIN J M, et al. Validation and application of an intervertebral disc finite element model utilizing independently constructed tissue-level constitutive formulations that are nonlinear, anisotropic, and time-dependent[J]. J Biomech, 2014, 47(11): 2540-2546.
8.	YIN Ning, XU Gui-zhi, ZHANG Shuai, et al. Finite element modeling and analyzing for lumbar muscle electrical activity[J]. COMPEL-The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 2014, 33(1/2): 106-115.
9.	KIM Y E, CHOI H W. Effect of disc degeneration on the muscle recruitment pattern in upright posture: a computational analysis[J]. Comput Methods Biomech Biomed Engin, 2015, 18(15): 1622-1631.
10.	ZHANG Q, YUAN Z, ZHOU M, et al. A comparison of posterior lumbar interbody fusion and transforaminal lumbar interbody fusion:a literature review and meta-analysis[J]. BMC Musculoskelet Disord, 2014: 367.
11.	張文, 王蘭,施勤,等.腰椎行椎間孔入路椎間融合術固定的有限元分析[J].醫用生物力學,2014,29(5):405-410.
12.	李杰, 王洪崗,尚進,等.經椎間孔腰椎椎間融合術植骨融合前后應力分布差異的有限元分析[J].第三軍醫大學學報,2015,37(14):1449-1454.
13.	KIM H J, KANG K T, CHANG B S, et al. Biomechanical analysis of fusion segment rigidity upon stress at both the fusion and adjacent segments: a comparison between unilateral and bilateral pedicle screw fixation[J]. Yonsei Med J, 2014, 55(5): 1386-1394.
14.	AMBATI D V, WRIGHT E K, LEHMAN R A, et al. Bilateral pedicle screw fixation provides superior biomechanical stability in transforaminal lumbar interbody fusion: a finite element study[J]. Spine J, 2014, 15(8): 1812-1822.
15.	陳為堅, 段揚,林周勝,等.基于三維有限元法的腰椎動態穩定系統建立及生物力學行為初步分析[J].廣東醫學,2015,36(10):1497-1499, 1500.
16.	SONG C, LI X F, LIU Z D, et al. Biomechanical assessment of a novel L4/5 level interspinous implant using three dimensional finite element analysis[J]. Eur Rev Med Pharmacol Sci, 2014, 18(1): 86-94.
17.	BISWAS J, KARMAKAR S, MAJUMDER S, et al. Optimization of spinal implant screw for lower vertebra through finite element studies[J]. J Long Term Eff Med Implants, 2014, 24(2/3): 99-108.
18.	董可欣, 馬德春,李秋菊,等.人工腰椎間盤假體設計原理研究及未來趨勢發展[J].中國組織工程研究,2014,18(26):4254-4259.
19.	SIEPE C J, HEIDER F, WIECHERT K, et al. Mid- to long-term results of total lumbar disc replacement: a prospective analysis with 5- to 10-year follow-up[J]. Spine J, 2014, 14(8): 1417-1431.
20.	張蘭鳳, 董黎敏,王永清,等.新型人工腰椎間盤置換的三維有限元模型[J].中國組織工程研究,2013,17(30):5477-5482.
21.	GARCIA VACAS F, EZQUERRO JUANCO F, PEREZ DE LA BLANCA A, et al. The flexion-extension response of a novel lumbar intervertebral disc prosthesis: A finite element study[J]. Mechanism and Machine Theory, 2014, 73: 273-281.
22.	NOAILLY J, AMBROSIO L, ELIZABETH TANNER K, et al. In silico evaluation of a new composite disc substitute with a L3-L5 lumbar spine finite element model[J]. Eur Spine J, 2012, 21(5): 675-687.
23.	朱海明, 丁亮,張東,等.胸腰椎爆裂性骨折短節段傷椎固定三維有限元模型構建及生物力學比較研究[J].中國矯形外科雜志,2015,23(10):917-920.
24.	陳華星, 楊圣,蘆健民,等.有限元分析顯微鏡下不同比例髓核摘除后的腰椎力學特征[J].中國組織工程研究,2014,18(17):2659-2666.
25.	LIPSCOMB K E, SARIGUL-KLIJN N, KLINEBERG E, et al. Biomechanical effects of human lumbar discography: in-vitro experiments and their finite element validation[J]. J Spinal Disord Tech, 2016.
26.	白文媛, 顧洪生,廖振華,等.人工腰椎間盤置換的臨床應用:現狀與未來[J].中國組織工程研究,2013,17(35):6321-6326.
27.	項嬪, 都承斐,趙美雅,等.全腰椎有限元模態分析[J].醫用生物力學,2014,29(2):154-160.
28.	郭偉, 陳立君,王飛,等.腰椎三維有限元模型的建立及模擬高載荷環境的受力分析[J].空軍醫學雜志,2013,29(2):74-76.
29.	FINK H A, KUSKOWSKI M A, MARSHALL L M. Association of stressful Life events with incident falls and fractures in older men: the Osteoporotic Fractures in Men (MrOS) Study[J]. Age Ageing, 2014, 43(1): 103-108.
30.	何劍穎, 董謝平,舒勇,等.脊柱保護器對腰椎保護的有限元分析[J].中國矯形外科雜志,2015,23(6):548-555.

1. ?原芳, 薛清華,劉偉強.有限元法在脊柱生物力學應用中的新進展[J].醫用生物力學,2013,28(5):585-590.
2. 顏文濤, 趙改平,方新果,等.人體腰椎L4-5節段有限元建模及分析[J].生物醫學工程學雜志,2014,31(3):612-618.
3. 徐浩, 張秋林,唐昊,等.腰椎L3-L5三維有限元模型的有效性驗證[J].中國組織工程研究,2013,17(35):6261-6266.
4. 秦計生, 王昱,彭雄奇,等.全腰椎三維有限元模型的建立及其有效性驗證[J].醫用生物力學,2013,28(3):321-325.
5. PENG X Q, GUO G D, ZHAO N. An anisotropic hyperelastic constitutive model with shear interaction for cord-rubber composites[J]. Compos Sci Technol, 2013, 78: 69-74.
6. 趙亮, 閆廣華,瞿東濱,等.腰椎間盤退變對軟骨終板生物力學特性影響的有限元分析[J].中國臨床解剖學雜志,2015,33(4):455-460.
7. JACOBS N T, CORTES D H, PELOQUIN J M, et al. Validation and application of an intervertebral disc finite element model utilizing independently constructed tissue-level constitutive formulations that are nonlinear, anisotropic, and time-dependent[J]. J Biomech, 2014, 47(11): 2540-2546.
8. YIN Ning, XU Gui-zhi, ZHANG Shuai, et al. Finite element modeling and analyzing for lumbar muscle electrical activity[J]. COMPEL-The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 2014, 33(1/2): 106-115.
9. KIM Y E, CHOI H W. Effect of disc degeneration on the muscle recruitment pattern in upright posture: a computational analysis[J]. Comput Methods Biomech Biomed Engin, 2015, 18(15): 1622-1631.
10. ZHANG Q, YUAN Z, ZHOU M, et al. A comparison of posterior lumbar interbody fusion and transforaminal lumbar interbody fusion:a literature review and meta-analysis[J]. BMC Musculoskelet Disord, 2014: 367.
11. 張文, 王蘭,施勤,等.腰椎行椎間孔入路椎間融合術固定的有限元分析[J].醫用生物力學,2014,29(5):405-410.
12. 李杰, 王洪崗,尚進,等.經椎間孔腰椎椎間融合術植骨融合前后應力分布差異的有限元分析[J].第三軍醫大學學報,2015,37(14):1449-1454.
13. KIM H J, KANG K T, CHANG B S, et al. Biomechanical analysis of fusion segment rigidity upon stress at both the fusion and adjacent segments: a comparison between unilateral and bilateral pedicle screw fixation[J]. Yonsei Med J, 2014, 55(5): 1386-1394.
14. AMBATI D V, WRIGHT E K, LEHMAN R A, et al. Bilateral pedicle screw fixation provides superior biomechanical stability in transforaminal lumbar interbody fusion: a finite element study[J]. Spine J, 2014, 15(8): 1812-1822.
15. 陳為堅, 段揚,林周勝,等.基于三維有限元法的腰椎動態穩定系統建立及生物力學行為初步分析[J].廣東醫學,2015,36(10):1497-1499, 1500.
16. SONG C, LI X F, LIU Z D, et al. Biomechanical assessment of a novel L4/5 level interspinous implant using three dimensional finite element analysis[J]. Eur Rev Med Pharmacol Sci, 2014, 18(1): 86-94.
17. BISWAS J, KARMAKAR S, MAJUMDER S, et al. Optimization of spinal implant screw for lower vertebra through finite element studies[J]. J Long Term Eff Med Implants, 2014, 24(2/3): 99-108.
18. 董可欣, 馬德春,李秋菊,等.人工腰椎間盤假體設計原理研究及未來趨勢發展[J].中國組織工程研究,2014,18(26):4254-4259.
19. SIEPE C J, HEIDER F, WIECHERT K, et al. Mid- to long-term results of total lumbar disc replacement: a prospective analysis with 5- to 10-year follow-up[J]. Spine J, 2014, 14(8): 1417-1431.
20. 張蘭鳳, 董黎敏,王永清,等.新型人工腰椎間盤置換的三維有限元模型[J].中國組織工程研究,2013,17(30):5477-5482.
21. GARCIA VACAS F, EZQUERRO JUANCO F, PEREZ DE LA BLANCA A, et al. The flexion-extension response of a novel lumbar intervertebral disc prosthesis: A finite element study[J]. Mechanism and Machine Theory, 2014, 73: 273-281.
22. NOAILLY J, AMBROSIO L, ELIZABETH TANNER K, et al. In silico evaluation of a new composite disc substitute with a L3-L5 lumbar spine finite element model[J]. Eur Spine J, 2012, 21(5): 675-687.
23. 朱海明, 丁亮,張東,等.胸腰椎爆裂性骨折短節段傷椎固定三維有限元模型構建及生物力學比較研究[J].中國矯形外科雜志,2015,23(10):917-920.
24. 陳華星, 楊圣,蘆健民,等.有限元分析顯微鏡下不同比例髓核摘除后的腰椎力學特征[J].中國組織工程研究,2014,18(17):2659-2666.
25. LIPSCOMB K E, SARIGUL-KLIJN N, KLINEBERG E, et al. Biomechanical effects of human lumbar discography: in-vitro experiments and their finite element validation[J]. J Spinal Disord Tech, 2016.
26. 白文媛, 顧洪生,廖振華,等.人工腰椎間盤置換的臨床應用:現狀與未來[J].中國組織工程研究,2013,17(35):6321-6326.
27. 項嬪, 都承斐,趙美雅,等.全腰椎有限元模態分析[J].醫用生物力學,2014,29(2):154-160.
28. 郭偉, 陳立君,王飛,等.腰椎三維有限元模型的建立及模擬高載荷環境的受力分析[J].空軍醫學雜志,2013,29(2):74-76.
29. FINK H A, KUSKOWSKI M A, MARSHALL L M. Association of stressful Life events with incident falls and fractures in older men: the Osteoporotic Fractures in Men (MrOS) Study[J]. Age Ageing, 2014, 43(1): 103-108.
30. 何劍穎, 董謝平,舒勇,等.脊柱保護器對腰椎保護的有限元分析[J].中國矯形外科雜志,2015,23(6):548-555.

Journal of Biomedical Engineering

Research Progress and Prospect of Applications of Finite Element Method in Lumbar Spine Biomechanics

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