[1]Brekelmans WA,Poort HW,Slooff TJ.A new method analysis the mechanical behaviour of skeletal parts[J].Acta Orthop Scand,1972,43(5):301-317.
[2]Rybicki EF,Simonen FA,Weis EB Jr.On the mathematical analysis of stress in the human femur[J].J Biomech,1972,5(2):203-215.
[3]Belytschko T,Kulak RF,Schultz AB,et al.Finite element stress analysis of an intervertebral disc[J].J Biomech,1974,7(3):277-285.
[4]Liu YK,Ray G,Hirsch C.The resistance of the lumbar spine to direct shear[J].Orthop Clin North Am,1975,6(1):33-35.
[5]Lotz JC,Colliou OK,Chin JR,et al.Compression-induced degeneration of the intervertebral disc:an in vivo mouse model and finite-element study[J].Spine,1998,23(23):2493-2506.
[6]牛雷,贺瑞,张文志,等.枕寰枢关节三维有限元模型的建立及其有效性验证[J].实用骨科杂志,2018,24(5):427-430.
[7]Kallemeyn N,Gandhi A,Kode S,et al.Validation of a C2~7 cervical spine finite element model using specimen-specific flexibility data[J].Med Eng Phys,2010,32(5):482-489.
[8]del Palomar AP,Calvo B,Doblaré M.An accurate finite element model of the cervical spine under quasi-static loading[J].J Biomech,2008,41(3):523-531.
[9]Anderst WJ,Donaldson WF 3rd,Lee JY,et al.Three-dimensional intervertebral kinematics in the healthy young adult cervical spine during dynamic functional loading[J].J Biomech,2015,48(7):1286-1293.
[10]Zafarparandeh I,Erbulut DU,Lazoglu I,et al.Development of a finite element model of the human cervical spine[J].Turk Neurosurg,2014,24(3):312-318.
[11]David Kaye I,Hilibrand AS.Adjacent level disease-background and update based on disc replacement data[J].Curr Rev in Musculoskelet Med,2017,10(2):147-152.
[12]Zhou F,Ju KL,Zhao Y,et al.Progressive bone formation after cervical disc replacement[J].Spine,2018,43(3):E163-E170.
[13]Hisey MS,Bae HW,Davis RJ,et al.Prospective,randomized comparison of cervical total disk replacement versus anterior cervical fusion:results at 48 months follow-up[J].J Spinal Disord Tech,2015,28(4):E237-243.
[14]Lou J,Li Y,Wang B,et al.Biomechanical evaluation of cervical disc replacement with a novel prosthesis based on the physiological curvature of endplate[J].J Orthop Surg Res,2018,13(1):41.
[15]Ding C,Hong Y,Liu H,et al.Comparison of cervical disc arthroplasty with anterior cervical discectomy and fusion for the treatment of cervical spondylotic myelopathy[J].Acta Orthop Belg,2013,79(3):338-346.
[16]Galbusera F,Fantigrossi A,Raimondi MT,et al.Biomechanics of the C5~6 spinal unit before and after placement of a disc prosthesis[J].Biomech Model Mechanobiol,2006,5(4):253-261.
[17]Ha SK.Finite element modeling of multi-level cervical spinal segments(C3-C6)and biomechanical analysis of all elastomer-type prosthetic disc[J].Med Eng Phys,2006,28(6):534-541.
[18]Lin CY,Kang H,Rouleau JP,et al.Stress analysis of the interface between cervical vertebrae end plates and the Bryan,Prestige LP,and ProDisc-C cervical disc prostheses:an in vivo image-based finite element study[J].Spine,2009,34(15):1554-1560.
[19]周华军,张美超,李锋.人工颈椎间盘置换术后颈椎生物力学的有限元分析[J].生物骨科材料与临床研究,2007,4(5):1-5.
[20]张宇宸,李颉,牛文鑫,等.人工颈椎间盘置换对多节段下颈椎活动影响的三维有限元分析[J].中华医学杂志,2008,88(17):1214-1216.
[21]徐波,金大地,张美超.颈椎人工椎间盘置换有限元分析[J].中国临床解剖学杂志,2013,31(3):328-332.
[22]Galbusera F,Bellini CM,Raimondi MT,et al.Cervical spine biomechanics following implantation of a disc prosthesis[J].Med Eng Phys,2008,30(9):1127-1133.
[23]Womack W,Leahy PD,Patel VV,et al.Finite element modeling of kinematic and load transmission alterations due to cervical intervertebral disc replacement[J].Spine,2011,36(17):E1126-E1133.
[24]李志远,申勇,张英泽,等.人工颈椎间盘置换术对邻近节段生物力学影响的三维有限元分析[J].中国矫形外科杂志,2009,17(7):523-525.
[25]李斌,赵文志,陈秉智,等.人工椎间盘植入术后颈椎邻近节段生物力学变化的有限元分析[J].医用生物力学,2010,25(2):94-99.
[26]Lee SH,Im YJ,Kim KT,et al.Comparison of cervical spine biomechanics after fixed and mobile-core artificial disc replacement:a finite element analysis[J].Spine,2011,36(9):700-708.
[27]Yu CC,Liu P,Huang DG,et al.A new cervical artificial disc prosthesis based on physiological curvature of end plate:a finite element analysis[J].Spine J,2016,16(11):1384-1391.
[28]Staudt MD,Das K,Duggal N.Does design matter? Cervical disc replacements under review[J].Neurosurg Rev,2018,41(2):399-407.
[29]李蕊,王松,廖振华,等.人工椎间盘机械性能评估研究现状与进展[J].生物医学工程学杂志,2018(3):493-500.
[30]Rong X,Wang B,Ding C,et al.The biomechanical impact of the facet tropism on the intervertebral disc and facet joints in the cervical spine[J].Spine J,2017,17(12):1926-1931.
[31]Ganbat D,Kim YH,Kim K,et al.Effect of mechanical loading on heterotopic ossification in cervical total disc replacement:a three dimensional finite element analysis[J].Biomech Model Mechanobiol,2016,15(5):1191-1199.
[32]Yoganandan N,Kumaresan S,Voo L,et al.Finite element applications in human cervical spine modeling[J].Spine,1996,21(15):1824-1834.
[33]Panzer BM,Fice BJ,Cronin SD.Cervical spine response in frontal crash[J].Med Eng Phys,2011,33(9):1147-1159.
[34]冯毅,海涌,藏磊.有限元方法应用于特发性脊柱侧凸研究的进展[J].实用骨科杂志,2016,22(1):35-39.