针刀配合手法治疗腰椎退变的大鼠实验研究及生物力学分析
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摘要
随着人类长期从事伏案工作等原因,腰椎病成为一种常见病和多发病,引起腰痛,甚至下肢麻木,威胁到人类的生活质量。目前临床上多采用保守治疗方法和手术治疗方法。根据综述可知,针刀具有显著的治疗效果,治疗机制中生物力学因素起到相当重要的作用。对腰椎的力学分析,挖掘应力对腰椎的影响,可以更好的指导临床。
本研究通过大鼠爬行体位、直立体位、针刀配合手法治疗及恢复爬行体位,结合形态学观察、影像学观察,为针刀配合手法治疗大鼠腰椎退变的疗效提供实验依据。在数值分析中,基于所建的正常大鼠、直立大鼠的有限元模型的基础上通过减掉韧带、缩小椎间隙、减小杨氏模量,具体分析针刀配合手法治疗、恢复体位后,静载荷下的应力场、应变场以及位移场的分布变化。
首先,使用X线腰椎侧位片观察方法,发现仅截肢因素对腰椎影响不大,长期直立状态对腰椎的影响比较大,说明该模型较适合本研究。结合组织形态学的观察,直立大鼠出现腰椎曲度变直、椎间隙变窄,骨赘的形成、椎间盘退变、软骨终板钙化、胶原纤维结构排列较疏散、扭曲,染色变淡,并伴有断裂、挛缩现象。经过针刀配合手法、恢复体位后发生不同程度的好转。证明针刀配合手法治疗大鼠腰椎退变的明确疗效。
其次,基于拉伸压缩试验,首次获得大鼠的杨氏模量,采用Micro-CT扫描以及Mimics软件构建了正常大鼠、直立大鼠第3-6腰椎段的三维数字模型。根据动物实验,针对第4-5腰椎功能单元,进一步模拟针刀组、恢复体位组,分析二种治疗方法的综合效果。同时观察随着退变的发生,韧带应力、椎间盘应变、位移最大值变化规律,将力学分析结果对应于实验结果,挖掘生理病理意义,明确针刀配合手法治疗大鼠腰椎退变的力学机制。
最后,根据动物实验和力学分析的结果比较可知,针刀配合手法和恢复体位的方法有效地恢复了力学环境,治疗大鼠腰椎退变具有明确的治疗作用。说明针刀、手法配合整复、牵引等恢复体位的方法可以有效地治疗腰椎退变引起的相关疾病。将上述研究结果应用于临床可知,棘上韧带要承受更大的应力,所以施术于棘上韧带的效果高于棘间韧带。由于力学分析结果可知,经治疗后应力值改变最大的地方为棘上和棘间韧带交界与棘突的附着处,所以治疗的时候针刀松解异常应力就应该着重于此部位,这样效果最好。
本研究通过动物实验,验证了针刀配合手法治疗大鼠腰椎退变的治疗作用。同时,建立了相应的有限元模型,进行数值模拟,将生物力学和针刀基础研究结合起来。一方面动物实验验证了所建有限元模型的合理性。另一方面通过数值模拟,认识治疗方法的力学机制,进行定量的分析,结果可应用于临床操作方法的改善。最后,将大鼠直立模型的研究应用于中医理论的研究,进一步发展了传统医学的研究方法,认识到生物力学在腰椎病研究中的重要作用,为治疗肾脏病提供新的思路。
As the persons worked on the table for a long time and other reasons, lumbar disease become common and frequent, causing low back pain, numbness and even threaten the quality of human life. More conservative therapy and surgical treatment were used currently. We found that Acupotomy had significant therapeutic effect from the review. Biomechanical factors in the pathogenesis played a very important role in the mechanism of this disease. The impact of stress on the lumbar was analyzed by mechanics can guide the clinic.
In this study, the morphology and imaging observation of rats with crawling posture, upright posture, treated by Acupotomy and recovery posture provided an experimental proof of treating the degenerative disc disease by Acupotomy combined with manipulation. In the numerical analysis, based on the finite element model of the normal rats and upright posture rats, the distribution changes of the stress, strain and displacement of the treatment called Acupotomy and recovery posture under static load were analyzed specifically through reducing ligament, narrowing disc space, reducing the Young's modulus.
First, we found that only amputation had little effect on the lumbar with X ray, but long-term upright posture had impact on lumbar spine. It meant the model was more suitable for this study. Combination of histological observation, the upright posture rats had intervertebral space narrowing, osteophyte formation, disc degeneration, cartilage endplate calcification, evacuated structural arrangement and twisted collagen, pale staining, and associated with fracture, contracture. It proved that degenerative disc disease treated by Acupotomy and recovery posture had the clear effect. Secondly, based on tensile and compression test, we built the L3-6 three-dimensional digital models of the normal and upright posture rats and got the Young's modulus in rats using Micro-CT scanning and Mimics software for the first time. According to animal experiments, the Acupotomy group, recovery posture group and the combined effect of two treatment methods were further simulated for the L4-5 functional unit. To observe the occurrence of degeneration and the variation of the ligament stress, intervertebral disc strain, the maximum displacement. The mechanical analysis was corresponded to the experimental results. We could know the physiological and pathological significance and the mechanism of treating the degenerative disc disease by Acupotomy with manipulation clearly.
Finally, Acupotomy with manipulation and recovery posture were effective in restoring the mechanical environment, compared the animal experiments to the results of mechanical analysis, and had a clear therapeutic effect on degenerative disc disease. It meant that Acupotomy, manipulation, traction and other recovery methods could cure the degenerative disc disease effectively. According to the result that the supraspinous ligament was bore more stress, the effect of treating on the supraspinous ligament was better than that the interspinous ligament. Because the location of the largest stress changes was the junction adhere to spinous between the supraspinous ligament and interspinous ligament. We should choose this location to cure this disease.
In this study, animal experiments to verify the effect of treating the degeneration disc disease by Acupotomy with manipulation. While establishing the corresponding finite element model and numerical simulation, it combined biomechanics with Acupotomy basic research. On the one hand the animal experiments demonstrate the rationality of the finite element model. On the other hand the numerical simulation helped us to understand the mechanism of treatment, quantitative analysis and to apply the results to improve clinical effect. Finally, the rats used in vertical model of traditional Chinese medicine theory, the upright posture rats were used to do the research on the theory of traditional Chinese medicine and developed the research methods. We recognized that biomechanics played an important role in the lumbar disease research and provided a new way of curing kidney disease.
本研究通过大鼠爬行体位、直立体位、针刀配合手法治疗及恢复爬行体位,结合形态学观察、影像学观察,为针刀配合手法治疗大鼠腰椎退变的疗效提供实验依据。在数值分析中,基于所建的正常大鼠、直立大鼠的有限元模型的基础上通过减掉韧带、缩小椎间隙、减小杨氏模量,具体分析针刀配合手法治疗、恢复体位后,静载荷下的应力场、应变场以及位移场的分布变化。
首先,使用X线腰椎侧位片观察方法,发现仅截肢因素对腰椎影响不大,长期直立状态对腰椎的影响比较大,说明该模型较适合本研究。结合组织形态学的观察,直立大鼠出现腰椎曲度变直、椎间隙变窄,骨赘的形成、椎间盘退变、软骨终板钙化、胶原纤维结构排列较疏散、扭曲,染色变淡,并伴有断裂、挛缩现象。经过针刀配合手法、恢复体位后发生不同程度的好转。证明针刀配合手法治疗大鼠腰椎退变的明确疗效。
其次,基于拉伸压缩试验,首次获得大鼠的杨氏模量,采用Micro-CT扫描以及Mimics软件构建了正常大鼠、直立大鼠第3-6腰椎段的三维数字模型。根据动物实验,针对第4-5腰椎功能单元,进一步模拟针刀组、恢复体位组,分析二种治疗方法的综合效果。同时观察随着退变的发生,韧带应力、椎间盘应变、位移最大值变化规律,将力学分析结果对应于实验结果,挖掘生理病理意义,明确针刀配合手法治疗大鼠腰椎退变的力学机制。
最后,根据动物实验和力学分析的结果比较可知,针刀配合手法和恢复体位的方法有效地恢复了力学环境,治疗大鼠腰椎退变具有明确的治疗作用。说明针刀、手法配合整复、牵引等恢复体位的方法可以有效地治疗腰椎退变引起的相关疾病。将上述研究结果应用于临床可知,棘上韧带要承受更大的应力,所以施术于棘上韧带的效果高于棘间韧带。由于力学分析结果可知,经治疗后应力值改变最大的地方为棘上和棘间韧带交界与棘突的附着处,所以治疗的时候针刀松解异常应力就应该着重于此部位,这样效果最好。
本研究通过动物实验,验证了针刀配合手法治疗大鼠腰椎退变的治疗作用。同时,建立了相应的有限元模型,进行数值模拟,将生物力学和针刀基础研究结合起来。一方面动物实验验证了所建有限元模型的合理性。另一方面通过数值模拟,认识治疗方法的力学机制,进行定量的分析,结果可应用于临床操作方法的改善。最后,将大鼠直立模型的研究应用于中医理论的研究,进一步发展了传统医学的研究方法,认识到生物力学在腰椎病研究中的重要作用,为治疗肾脏病提供新的思路。
As the persons worked on the table for a long time and other reasons, lumbar disease become common and frequent, causing low back pain, numbness and even threaten the quality of human life. More conservative therapy and surgical treatment were used currently. We found that Acupotomy had significant therapeutic effect from the review. Biomechanical factors in the pathogenesis played a very important role in the mechanism of this disease. The impact of stress on the lumbar was analyzed by mechanics can guide the clinic.
In this study, the morphology and imaging observation of rats with crawling posture, upright posture, treated by Acupotomy and recovery posture provided an experimental proof of treating the degenerative disc disease by Acupotomy combined with manipulation. In the numerical analysis, based on the finite element model of the normal rats and upright posture rats, the distribution changes of the stress, strain and displacement of the treatment called Acupotomy and recovery posture under static load were analyzed specifically through reducing ligament, narrowing disc space, reducing the Young's modulus.
First, we found that only amputation had little effect on the lumbar with X ray, but long-term upright posture had impact on lumbar spine. It meant the model was more suitable for this study. Combination of histological observation, the upright posture rats had intervertebral space narrowing, osteophyte formation, disc degeneration, cartilage endplate calcification, evacuated structural arrangement and twisted collagen, pale staining, and associated with fracture, contracture. It proved that degenerative disc disease treated by Acupotomy and recovery posture had the clear effect. Secondly, based on tensile and compression test, we built the L3-6 three-dimensional digital models of the normal and upright posture rats and got the Young's modulus in rats using Micro-CT scanning and Mimics software for the first time. According to animal experiments, the Acupotomy group, recovery posture group and the combined effect of two treatment methods were further simulated for the L4-5 functional unit. To observe the occurrence of degeneration and the variation of the ligament stress, intervertebral disc strain, the maximum displacement. The mechanical analysis was corresponded to the experimental results. We could know the physiological and pathological significance and the mechanism of treating the degenerative disc disease by Acupotomy with manipulation clearly.
Finally, Acupotomy with manipulation and recovery posture were effective in restoring the mechanical environment, compared the animal experiments to the results of mechanical analysis, and had a clear therapeutic effect on degenerative disc disease. It meant that Acupotomy, manipulation, traction and other recovery methods could cure the degenerative disc disease effectively. According to the result that the supraspinous ligament was bore more stress, the effect of treating on the supraspinous ligament was better than that the interspinous ligament. Because the location of the largest stress changes was the junction adhere to spinous between the supraspinous ligament and interspinous ligament. We should choose this location to cure this disease.
In this study, animal experiments to verify the effect of treating the degeneration disc disease by Acupotomy with manipulation. While establishing the corresponding finite element model and numerical simulation, it combined biomechanics with Acupotomy basic research. On the one hand the animal experiments demonstrate the rationality of the finite element model. On the other hand the numerical simulation helped us to understand the mechanism of treatment, quantitative analysis and to apply the results to improve clinical effect. Finally, the rats used in vertical model of traditional Chinese medicine theory, the upright posture rats were used to do the research on the theory of traditional Chinese medicine and developed the research methods. We recognized that biomechanics played an important role in the lumbar disease research and provided a new way of curing kidney disease.
引文
[1]史国栋.腰椎神经根损害的基础与临床研究[D],上海:第二军医大学第二附属医院骨科,2008:
[2]S Wendling-Magnier, V Deplano. The human lumbar intervertebral disc: a multi-phase biological tissue approached by bio-chemo-mechanical consideration[J]. Journal of Biomechanics,2006,39(Supplement 1):459.
[3]Liu YY. The resistance of the lumbar spine to direct shear[J]. Orthop Clin North Am,1975,6(1):33-49.
[4]Chosa E. Goto K, Totoribe K, et al. Analysis of the effect of lumbar spine fusion on the superior adjacent intervertebral disk in the presence of disk degeneration, using the three-dimensional finite element method[J].J Spinal Disord Tech,2004,17(2):134-139.
[5]赵文志,苏晋,陈秉智,等.有限元分析在腰椎生物力学研究中的应用[J].中国组织工程研究与临床康复,2009,13(30):5927-5930.
[6]王永贵.中国医学百科全书-解剖学[M].上海:上海科学技术出版社,1988:25-26.
[7]胡有谷.腰椎间盘突出症[M].第三版.北京:人民卫生出版社,2004:84-179.
[8]许鹏,郭雄.一氧化氮对骨关节病软骨退变影响的研究进展[J].中国矫形外科杂志,1999,6(9):705-707.
[9]Barrels EM, Fairbank JCT, Winlove CP, et al. Oxygen and lactate concentrations measure in vivo in the intervertebral discs of scoliotic and back pain patients[J]. Spine,1998,23 (1):1-8.
[10]Grub HE, Hanley EN. Recent advances in disc cell biology [J]. Spine,2003,28(2):186-193.
[11]王斌.杜寄汤治疗寒湿腰痹68例[J],湖南中医杂志,2005,21(1):37.
[12]贾连顺,李家顺.现代腰椎外科学[M].上海:上海远东出版社,1995:40-348.
[13]穆敬平,刘莉,方伟,等.针刀治疗腰椎间盘突出症的系统评价[J],中国中医药信息杂志,2010,17(7):34.
[14]金永明,李敬怀,姜勇.针刀治疗腰椎间盘突出症156例临床观察[J].针灸临床杂志,2000,16(2):37-38.
[15]瞿群威,夏数数,谢学勇.针刀为主治疗腰椎间盘突出症康复效果评价及机制探讨[J].中国康复医学杂志,2007,22(12):1112-1114.
[16]杨米雄.针刀治疗腰椎间盘突出症的机理探讨[J].中医正骨,2003,15(2):53-54.
[17]朱汉章.针刀医学体系概论[J].中国工程科学,2006,8(7):1-15.
[18]李玉玲.针刀治疗腰椎间盘突出症研究进展[J].实用中西医结合临床,2010,10(2):91-92.
[19]尚铁松,王云钊.腰椎间盘退变的X线、MRI表现与病理对照[J].中华放射学杂志,2002,36(9):828-832.
[20]西永明,胡有谷.椎间盘退变模型的建立及历史和现状[J].中华骨科杂志,2000,20(6):378-380.
[21]洪国斌,崔力扬.大鼠腰椎间盘针刺退变模型的建立及影像学评价[J].中国医学影像技术,2007,23(11):1597-1600.
[22]梁倩倩,王拥军,施杞,等.椎间盘退变动物模型研究进展[J].脊柱外科杂志,2008,6(4):242-245.
[23]Liang QQ, Zhou Q, Zhang M, et al. Upright posture causes disc degeneration[J]. Spine,2008,33(19):2052-2058.
[24]肖军,邱贵兴,吴志宏,等.一种双足鼠改良建模手术方法的研究[J].中华医学杂志,2006,86(39):2784.
[25]Goff CW, Landmesser W. Bipedal rats and mice; laboratory animals for orthopaedic research[J]. J Bone Joint Surg(Am),1957,39:616-622.
[26]卞琴,王拥军,施杞,等.长期直立与大鼠腰椎骨质增生的关系[J].中国脊柱脊髓杂志,2009,19(1):60-64.
[27]卞琴,王拥军,施杞,等.芪麝丸对直立大鼠腰椎骨质增生的影响[J].中西医结合学报,2010,8(2):173-180.
[28]贾连顺,李家顺.现代腰椎外科学[M].上海:上海远东出版社,1995:40.
[29]陆裕朴,胥少汀.实用骨科学[M].北京:人民军医出版社,1991:31.
[30]于远洋.腰脊柱椎间界面融合技术的生物力学[J].河南外科学杂志,2005,11(2):43-45.
[31]Anderson G, Schultz ABM, Nachemson AL. The biomechanics of the posterior elements of the lumbar spine[J]. Spine,1983,8:322.
[32]刘艳超,徐义佳,工以进.脊柱胸腰段内固定对相邻脊椎结构的影响及其生物力学研究[J],苏州大学学报(医学版),2005,25(3):505-506.
[33]兰俊,陈其听,翟晓军,等.腰椎间盘退变时椎间隙形态与腰椎曲度变化及其临床意义[J].中国临床解剖学杂志,2005,23(2):157-159.
[34]刘耀升,陈其昕,廖胜辉,等.椎间盘高度降低及退变对腰椎生物力学影响的有限元分析[J].中国临床解剖学杂志,2006,24(5):566-570.
[35]Tobias Pitzen, Fred Geisler, Dieter Matthis, et al. A finite element model for predicting the biomechanical behaviour of the human lumbar spine [J]. Control Engineering Practice,2002,10(1):83-90.
[36]姚庆强,王黎明,桂鉴超,等.基于CT建立早期退变腰椎活动节段的三维有限元模型[J].南京医科大学学报(自然科学版),2007,27(10):1084-1087.
[37]郑平,朱青安,钟世镇,等.胸腰椎脊柱韧带拉伸性能的实验研究[J].中国临床解剖学杂志,1998,16(2):171-173.
[38]丁光宏,陈尔瑜,沈雪勇,等.人体组织液定向流动与经络[J].自然科学进展,2001,8(11):811-818.
[39]余晓佳,丁光宏,姚伟,等.穴位处胶原纤维在针刺大鼠“足三里”镇痛过程中的作用[J].中国针灸,2008,28(3):207-213.
[40]舒先涛,李孝林.胸腰椎压缩性骨折患者过伸复位过程中前纵韧带动态力学的有限元分析[J].中国组织工程研究与临床康复,2009,13(48):9567-9569.
[41]Miyanoto S, Yonenobu K, Ono K. Experimental cervical spondylosis in the mouse[J], Spine,1991,16(10 Suppl):495-500.
[42]李晨光,王拥军,施杞,等.动静力失衡性大鼠颈椎间盘组织形态学及超微结构[J].中国矫形外科杂志,2006,14(5):356-359.
[43]张银刚,刘江涛,王金,等.大鼠增龄过程中椎间盘退变指标的研究[J].南方医科大学学报,2008,28(2):167-172.
[44]Aumailley M, Gayraud B. Structure and biological activity of the extracellular matrix[J].J Mol Med,1998,76:253.
[45]Lai WM, Mow VC, Sun DD, et al. On the electric potentials inside a charged soft hydrated biological tissue:Streaming potential versus diffusion potential[J]. J Biomech Eng,2000,122:336.
[46]Chiquet M. Regulation of extracellular matrix gene expression by mechanical stress[J].Mitrix Biol,1999,18:417.
[47]Brand RA. What do tissues and cells know of mechanics?[J]. Ann Med,1997,29:267.
[48]Hsafeli M, Kalberer F, Saegesser D, et al. The course of macroscopic degeneration in the human lumbar intervertebral disc[J]. Spine,2006, 31(14):1522-1531.
[49]施杞,彭宝淦,贾连顺.椎体骨质增生形成机理的实验研究[J].中国矫形外科杂志,1997,4(5):397-398.
[50]Kauppila LI. In growth of blood vessels in disc degeneration: angiographic and histological studies of cadaveric spines[J]. J Bone Joint Surg Am,1995,77(1):26-31.
[51]卞琴,梁倩倩,王拥军,等.复方芪麝片对直立大鼠腰椎成骨作用的观察[J].中国脊柱脊髓杂志,2010,20(4):311-316.
[52]Ho MW, Knight DP. The Acupuncture system and the liquid crystalline collagen fibers of the connective tissue[J].Am J Chinese Medicine,1998,26:251.
[53]Bonassar LJ, Strinn jl, Paguio CG, et al. Activation and inhibition of endogenous matrix metalloproteinase in articular cartilage: Effects on composition and biophysical properties[J]. Arch Biochem Biophys,1996,333:359.
[54]张迪,丁光宏,沈雪勇,等.针刺引起结缔组织效应的研究进展[J].针刺研究,2004,3(29):77-81.
[55]余晓佳.穴位胶原纤维和肥大细胞在针刺效应中的作用和机制研究[D].上海:复旦大学,2008:68-72.
[56]杨静.人体下肢股骨间膜中组织液流动的数值模拟及中医经络现象的解释[D].上海:复旦大学,2003:39-42.
[57]上官磊,樊星,仲霄鹏,等.腰椎退变黄韧带的生物力学测定[J].中国脊柱脊髓杂志,2009,19(10):749-752.
[58]赵宝林,张忠君,马洪顺.人颈椎后纵韧带黏弹性实验研究[J].北京生物医学工程,2005,24(2):120-124.
[59]孙树东,陈丽娟,马洪顺,等.人胸椎前、后纵韧带拉伸生物力学性质实验研究[J].试验技术与试验机,2003,43(2):63-64.
[60]陈雷,杨小玉,马洪顺.腰椎骨松质骨拉伸、压缩、弯曲实验研究[J].中国老年学杂志,2008,7(28):1283-1284.
[61]鲍春雨,刘晋浩.基于CT图像人体脊柱腰椎节段逆向工程研究[J].机械设计,2008,25(9):16-18.
[62]胡勇,谢辉,杨述华.三维有限元分析在脊柱生物力学中应用研究[J].医用生物力学,2006,21(3):246-250.
[63]Liu YK, Ray G, Hirsch C. The resistance of the lumbar spine to direct shear[J].Orthop Clin NorthAm,1975,6(1):33-49.
[64]Shirazi-Adl A. Biomechanics of the lunbar spine in sagital/lateral moments[J]. Spine,1994,19(21):2407-2414.
[65]Geol VK, Kim YE, Lin TH, et al. Ananalytical investigation of the mechanics of spinal instrumentation [J].Spine,1988,13(9):1003-1011.
[66]毕振宇,刘阳,钟世镇,等.利用Mimics和Freeform建立翼内、外肌三维数字化模型[J].解剖学杂志,2010,33(2):221-223.
[67]李筱贺,李志军,李少华,等.CT扫描结合逆向工程软件建立下胸椎三维有限元模型[J].中国组织工程研究与临床康复,2010,14(4):594-597.
[68]敖俊,靳安民,方国荣,等.前路腰椎椎间融合后路关节突螺钉固定术螺钉应力的有限元研究[J].中国临床解剖学志,2008,26(4):429-432.
[69]Kim HJ, Chun HJ, Kang KT, et al. A validated finite element analysis of never root stress in degenerative lumbar scoliosis[J]. Med Biol Eng Comput,2009,47(6):559-605.
[70]El'Sheikh HF, MacDonald BJ, Hashmi MSJ. Finite element simulation of the hip joint during stumbling:A comparison between static and dynamic loading[J]. Mater Proc Techn,2003,143(1):249-255.
[71]程立明,陈仲强,钟世镇,等.胸腰段后凸畸形对相邻椎间盘力学影响的三维有限元分析[J].中国临床解剖学杂志,2003,21(3):273-276.
[72]陈雄生,贾连顺,倪斌,等BMP-2mRNA在实验性黄韧带骨化组织中的表达及其意义[J].中国矫形外科杂志,2001,8(8):787-790.
[73]Ben Hamouda K, Jemel H, Haouet S, et al. Thoracic myelopathy caused by ossification of the ligamentum flavum:a report of 18 cases[J]. J Neurosurg,2003,99(2 Suppl):157-161.
[74]戴克戎,王以进,周健男,等.骨骼系统的生物力学基础[M].上海:上海学林出版社.198,5:89
[75]张辉,倪青,任艳,等.腰痛酸软与糖尿病肾虚症状的相关性[J].中医杂志,2010,51(5):409-411.
[76]梁苏荔.从“肾”论治骨伤病[J].湖北中医杂志,2004,26(9):50.
[77]周明浩,张必来.针刺合中药治疗腰椎间盘突出症51例疗效观察[J].浙江中医杂志,2010,45(3):210-211.
[78]邹文.隔姜灸肾俞穴治疗腰肌劳损52例[J].上海中医药杂志,2009,43(4):32.
[79]樊金鹏.壮腰健肾汤治疗腰椎关节突综合征疗效观察[J].中医正骨,2006,18(11):54.
[80]温乃元,范志勇.浅析腰椎间盘突出症从肝肾二经论治[J].按摩与导引,2006,22(11):24-25.
[81]吴国富.中国科学院关于针刀治疗疗效及其费用的抽样调查的数据处理报告[R].北京:中国科学院数学与系统科学研究院应用数学研究所,2004:
[82](美)J.G.尼克尔斯,A.R.马丁,B.G.华莱士,等.神经生物学[M].北京:科学出版社,2003:316-317.
[1]朱汉章.针刀医学原理[M].北京:人民卫生出版社,2002.119-120.
[2]田平,陈银环.电脑三维牵引配合小针刀治疗腰椎间盘突出症187例[J].中国中医急症,2009,18(2):295.
[3]柴晓峰,杨杰.针刀结合骶管注射治疗腰椎间盘突出症120例临床分析[J].现代中西医结合杂志,2007,16(8):1032-1033.
[4]王传明.推拿配合针刀、牵引治疗腰椎间盘突出症[J].江西中医药,2005,36(273):36-37.
[5]陈梅,施晓阳,李玉堂.针刀治疗腰椎间盘突出症96例临床观察[J].江苏中医药,2005,26(5):35-36.
[6]刘庆国,戴爱琳,何和清,等.改良针刀术式与常规术式治疗腰椎间盘突出症的特点对比[J].中国临床康复,2005,9(26):15-16.
[7]杨湘江,王顺兴,温伟平,等.针刀疗法配合骶管注射治疗腰椎间盘突出症[J].江西中医学院学报,2006,18(1):28-29.
[8]任毕祥.小针刀配合手法及中药治疗腰椎间盘突出症[J].中医正骨,2003,15(2):31.
[9]魏铭,刘立华,姜学连,等.水针刀治疗腰椎间盘突出症300例临床体会[J].中国中医急症,2009,18(4):634635.
[10]蒋丽霞.小针刀治疗腰椎间盘突出症80例分析[J].中医正骨,2002,14(8):26-27.
[11]侯宝昌,李为.小针刀椎间孔神经根阻滞法治疗腰间盘突出症148例报告[J].针灸临床杂志,2004,20(2):32.
[12]瞿群威,夏数数,谢学勇,等.针刀为主治疗腰椎间盘突出症康复效果评价及机制探讨[J].中国康复医学杂志,2007,22(12):1112—1114.
[13]陈敏,骆清铭.弱激光的生物学效应及对红细胞变形性的改善作用[J].激光生物学报,2001,11(1):43.
[14]Andreula CF, SimonettiL, De Santis F, et al. Minimally invasive oxygen-ozone therapy for lumbar disk herniation [J]. Am J Neuroradiol,2003,24(5):784-787.
[15]于业洲.临床麻醉治疗学[M].长春:吉林科学技术出版社,2000.406-407.
[16]陈幕远,袁宜勤.电针小针刀配合治疗顽固性腰椎间盘突出症48例[J].针灸临床杂志,2003,19(6):27-28.
[17]公冶国.推拿配合针刀拔罐治疗腰椎间盘突出症146例[J].山东中医杂志,2008,27(6):392.
[18]国家中医药管理局.中医病证诊断疗效标准[M].南京:南京大学出版社,1994:201.
[19]徐顺增.小针刀加椎间孔注射治疗腰椎间盘突出症的临床观察[J].针灸临床杂志,2003,19(12):18-20.
[20]马建国,尚淑萍.针刀配合牵引治疗腰椎间盘突出症300例[J].实用医技杂志,2002,9(10):772-773.
[21]黄有翰,许振兴.小针刀加局部注射治疗腰脊神经后支综合征[J].浙江中西医结合杂志,2005,15(4):250-251.
[22]杨米雄.针刀治疗腰椎间盘突出症106例报告[J].浙江中医学院学报,2003,27(4):40-41.
[23]李江龙,陈开阳,陈春,等.局部封闭+小针刀治疗腰椎间盘突出症术后残留症状132例[J].颈腰痛杂志,2002,23(1):85-86.
[24]贾宏林.小针刀疗法为主治疗腰椎间盘突出症[J].中国康复,2004,19(1):40-41.
[25]鄢卫平.针刀、手法治疗腰椎间盘突出症100例总结[J].甘肃中医,2005,18(7):32-33.
[26]牛耀杰,李博,蔺鹏飞,等.针刀疗法配合牵引、手法治疗1000例腰椎间盘突出症体会[J].内蒙古中医药,2007,5:29-30.
[27]朱汉章.针刀医学体系概论.中国工程科学,2006,8(7):4-5.
[28]朱汉章.小针刀疗法[M].北京:中国中医药出版社,1992.185.
[2]S Wendling-Magnier, V Deplano. The human lumbar intervertebral disc: a multi-phase biological tissue approached by bio-chemo-mechanical consideration[J]. Journal of Biomechanics,2006,39(Supplement 1):459.
[3]Liu YY. The resistance of the lumbar spine to direct shear[J]. Orthop Clin North Am,1975,6(1):33-49.
[4]Chosa E. Goto K, Totoribe K, et al. Analysis of the effect of lumbar spine fusion on the superior adjacent intervertebral disk in the presence of disk degeneration, using the three-dimensional finite element method[J].J Spinal Disord Tech,2004,17(2):134-139.
[5]赵文志,苏晋,陈秉智,等.有限元分析在腰椎生物力学研究中的应用[J].中国组织工程研究与临床康复,2009,13(30):5927-5930.
[6]王永贵.中国医学百科全书-解剖学[M].上海:上海科学技术出版社,1988:25-26.
[7]胡有谷.腰椎间盘突出症[M].第三版.北京:人民卫生出版社,2004:84-179.
[8]许鹏,郭雄.一氧化氮对骨关节病软骨退变影响的研究进展[J].中国矫形外科杂志,1999,6(9):705-707.
[9]Barrels EM, Fairbank JCT, Winlove CP, et al. Oxygen and lactate concentrations measure in vivo in the intervertebral discs of scoliotic and back pain patients[J]. Spine,1998,23 (1):1-8.
[10]Grub HE, Hanley EN. Recent advances in disc cell biology [J]. Spine,2003,28(2):186-193.
[11]王斌.杜寄汤治疗寒湿腰痹68例[J],湖南中医杂志,2005,21(1):37.
[12]贾连顺,李家顺.现代腰椎外科学[M].上海:上海远东出版社,1995:40-348.
[13]穆敬平,刘莉,方伟,等.针刀治疗腰椎间盘突出症的系统评价[J],中国中医药信息杂志,2010,17(7):34.
[14]金永明,李敬怀,姜勇.针刀治疗腰椎间盘突出症156例临床观察[J].针灸临床杂志,2000,16(2):37-38.
[15]瞿群威,夏数数,谢学勇.针刀为主治疗腰椎间盘突出症康复效果评价及机制探讨[J].中国康复医学杂志,2007,22(12):1112-1114.
[16]杨米雄.针刀治疗腰椎间盘突出症的机理探讨[J].中医正骨,2003,15(2):53-54.
[17]朱汉章.针刀医学体系概论[J].中国工程科学,2006,8(7):1-15.
[18]李玉玲.针刀治疗腰椎间盘突出症研究进展[J].实用中西医结合临床,2010,10(2):91-92.
[19]尚铁松,王云钊.腰椎间盘退变的X线、MRI表现与病理对照[J].中华放射学杂志,2002,36(9):828-832.
[20]西永明,胡有谷.椎间盘退变模型的建立及历史和现状[J].中华骨科杂志,2000,20(6):378-380.
[21]洪国斌,崔力扬.大鼠腰椎间盘针刺退变模型的建立及影像学评价[J].中国医学影像技术,2007,23(11):1597-1600.
[22]梁倩倩,王拥军,施杞,等.椎间盘退变动物模型研究进展[J].脊柱外科杂志,2008,6(4):242-245.
[23]Liang QQ, Zhou Q, Zhang M, et al. Upright posture causes disc degeneration[J]. Spine,2008,33(19):2052-2058.
[24]肖军,邱贵兴,吴志宏,等.一种双足鼠改良建模手术方法的研究[J].中华医学杂志,2006,86(39):2784.
[25]Goff CW, Landmesser W. Bipedal rats and mice; laboratory animals for orthopaedic research[J]. J Bone Joint Surg(Am),1957,39:616-622.
[26]卞琴,王拥军,施杞,等.长期直立与大鼠腰椎骨质增生的关系[J].中国脊柱脊髓杂志,2009,19(1):60-64.
[27]卞琴,王拥军,施杞,等.芪麝丸对直立大鼠腰椎骨质增生的影响[J].中西医结合学报,2010,8(2):173-180.
[28]贾连顺,李家顺.现代腰椎外科学[M].上海:上海远东出版社,1995:40.
[29]陆裕朴,胥少汀.实用骨科学[M].北京:人民军医出版社,1991:31.
[30]于远洋.腰脊柱椎间界面融合技术的生物力学[J].河南外科学杂志,2005,11(2):43-45.
[31]Anderson G, Schultz ABM, Nachemson AL. The biomechanics of the posterior elements of the lumbar spine[J]. Spine,1983,8:322.
[32]刘艳超,徐义佳,工以进.脊柱胸腰段内固定对相邻脊椎结构的影响及其生物力学研究[J],苏州大学学报(医学版),2005,25(3):505-506.
[33]兰俊,陈其听,翟晓军,等.腰椎间盘退变时椎间隙形态与腰椎曲度变化及其临床意义[J].中国临床解剖学杂志,2005,23(2):157-159.
[34]刘耀升,陈其昕,廖胜辉,等.椎间盘高度降低及退变对腰椎生物力学影响的有限元分析[J].中国临床解剖学杂志,2006,24(5):566-570.
[35]Tobias Pitzen, Fred Geisler, Dieter Matthis, et al. A finite element model for predicting the biomechanical behaviour of the human lumbar spine [J]. Control Engineering Practice,2002,10(1):83-90.
[36]姚庆强,王黎明,桂鉴超,等.基于CT建立早期退变腰椎活动节段的三维有限元模型[J].南京医科大学学报(自然科学版),2007,27(10):1084-1087.
[37]郑平,朱青安,钟世镇,等.胸腰椎脊柱韧带拉伸性能的实验研究[J].中国临床解剖学杂志,1998,16(2):171-173.
[38]丁光宏,陈尔瑜,沈雪勇,等.人体组织液定向流动与经络[J].自然科学进展,2001,8(11):811-818.
[39]余晓佳,丁光宏,姚伟,等.穴位处胶原纤维在针刺大鼠“足三里”镇痛过程中的作用[J].中国针灸,2008,28(3):207-213.
[40]舒先涛,李孝林.胸腰椎压缩性骨折患者过伸复位过程中前纵韧带动态力学的有限元分析[J].中国组织工程研究与临床康复,2009,13(48):9567-9569.
[41]Miyanoto S, Yonenobu K, Ono K. Experimental cervical spondylosis in the mouse[J], Spine,1991,16(10 Suppl):495-500.
[42]李晨光,王拥军,施杞,等.动静力失衡性大鼠颈椎间盘组织形态学及超微结构[J].中国矫形外科杂志,2006,14(5):356-359.
[43]张银刚,刘江涛,王金,等.大鼠增龄过程中椎间盘退变指标的研究[J].南方医科大学学报,2008,28(2):167-172.
[44]Aumailley M, Gayraud B. Structure and biological activity of the extracellular matrix[J].J Mol Med,1998,76:253.
[45]Lai WM, Mow VC, Sun DD, et al. On the electric potentials inside a charged soft hydrated biological tissue:Streaming potential versus diffusion potential[J]. J Biomech Eng,2000,122:336.
[46]Chiquet M. Regulation of extracellular matrix gene expression by mechanical stress[J].Mitrix Biol,1999,18:417.
[47]Brand RA. What do tissues and cells know of mechanics?[J]. Ann Med,1997,29:267.
[48]Hsafeli M, Kalberer F, Saegesser D, et al. The course of macroscopic degeneration in the human lumbar intervertebral disc[J]. Spine,2006, 31(14):1522-1531.
[49]施杞,彭宝淦,贾连顺.椎体骨质增生形成机理的实验研究[J].中国矫形外科杂志,1997,4(5):397-398.
[50]Kauppila LI. In growth of blood vessels in disc degeneration: angiographic and histological studies of cadaveric spines[J]. J Bone Joint Surg Am,1995,77(1):26-31.
[51]卞琴,梁倩倩,王拥军,等.复方芪麝片对直立大鼠腰椎成骨作用的观察[J].中国脊柱脊髓杂志,2010,20(4):311-316.
[52]Ho MW, Knight DP. The Acupuncture system and the liquid crystalline collagen fibers of the connective tissue[J].Am J Chinese Medicine,1998,26:251.
[53]Bonassar LJ, Strinn jl, Paguio CG, et al. Activation and inhibition of endogenous matrix metalloproteinase in articular cartilage: Effects on composition and biophysical properties[J]. Arch Biochem Biophys,1996,333:359.
[54]张迪,丁光宏,沈雪勇,等.针刺引起结缔组织效应的研究进展[J].针刺研究,2004,3(29):77-81.
[55]余晓佳.穴位胶原纤维和肥大细胞在针刺效应中的作用和机制研究[D].上海:复旦大学,2008:68-72.
[56]杨静.人体下肢股骨间膜中组织液流动的数值模拟及中医经络现象的解释[D].上海:复旦大学,2003:39-42.
[57]上官磊,樊星,仲霄鹏,等.腰椎退变黄韧带的生物力学测定[J].中国脊柱脊髓杂志,2009,19(10):749-752.
[58]赵宝林,张忠君,马洪顺.人颈椎后纵韧带黏弹性实验研究[J].北京生物医学工程,2005,24(2):120-124.
[59]孙树东,陈丽娟,马洪顺,等.人胸椎前、后纵韧带拉伸生物力学性质实验研究[J].试验技术与试验机,2003,43(2):63-64.
[60]陈雷,杨小玉,马洪顺.腰椎骨松质骨拉伸、压缩、弯曲实验研究[J].中国老年学杂志,2008,7(28):1283-1284.
[61]鲍春雨,刘晋浩.基于CT图像人体脊柱腰椎节段逆向工程研究[J].机械设计,2008,25(9):16-18.
[62]胡勇,谢辉,杨述华.三维有限元分析在脊柱生物力学中应用研究[J].医用生物力学,2006,21(3):246-250.
[63]Liu YK, Ray G, Hirsch C. The resistance of the lumbar spine to direct shear[J].Orthop Clin NorthAm,1975,6(1):33-49.
[64]Shirazi-Adl A. Biomechanics of the lunbar spine in sagital/lateral moments[J]. Spine,1994,19(21):2407-2414.
[65]Geol VK, Kim YE, Lin TH, et al. Ananalytical investigation of the mechanics of spinal instrumentation [J].Spine,1988,13(9):1003-1011.
[66]毕振宇,刘阳,钟世镇,等.利用Mimics和Freeform建立翼内、外肌三维数字化模型[J].解剖学杂志,2010,33(2):221-223.
[67]李筱贺,李志军,李少华,等.CT扫描结合逆向工程软件建立下胸椎三维有限元模型[J].中国组织工程研究与临床康复,2010,14(4):594-597.
[68]敖俊,靳安民,方国荣,等.前路腰椎椎间融合后路关节突螺钉固定术螺钉应力的有限元研究[J].中国临床解剖学志,2008,26(4):429-432.
[69]Kim HJ, Chun HJ, Kang KT, et al. A validated finite element analysis of never root stress in degenerative lumbar scoliosis[J]. Med Biol Eng Comput,2009,47(6):559-605.
[70]El'Sheikh HF, MacDonald BJ, Hashmi MSJ. Finite element simulation of the hip joint during stumbling:A comparison between static and dynamic loading[J]. Mater Proc Techn,2003,143(1):249-255.
[71]程立明,陈仲强,钟世镇,等.胸腰段后凸畸形对相邻椎间盘力学影响的三维有限元分析[J].中国临床解剖学杂志,2003,21(3):273-276.
[72]陈雄生,贾连顺,倪斌,等BMP-2mRNA在实验性黄韧带骨化组织中的表达及其意义[J].中国矫形外科杂志,2001,8(8):787-790.
[73]Ben Hamouda K, Jemel H, Haouet S, et al. Thoracic myelopathy caused by ossification of the ligamentum flavum:a report of 18 cases[J]. J Neurosurg,2003,99(2 Suppl):157-161.
[74]戴克戎,王以进,周健男,等.骨骼系统的生物力学基础[M].上海:上海学林出版社.198,5:89
[75]张辉,倪青,任艳,等.腰痛酸软与糖尿病肾虚症状的相关性[J].中医杂志,2010,51(5):409-411.
[76]梁苏荔.从“肾”论治骨伤病[J].湖北中医杂志,2004,26(9):50.
[77]周明浩,张必来.针刺合中药治疗腰椎间盘突出症51例疗效观察[J].浙江中医杂志,2010,45(3):210-211.
[78]邹文.隔姜灸肾俞穴治疗腰肌劳损52例[J].上海中医药杂志,2009,43(4):32.
[79]樊金鹏.壮腰健肾汤治疗腰椎关节突综合征疗效观察[J].中医正骨,2006,18(11):54.
[80]温乃元,范志勇.浅析腰椎间盘突出症从肝肾二经论治[J].按摩与导引,2006,22(11):24-25.
[81]吴国富.中国科学院关于针刀治疗疗效及其费用的抽样调查的数据处理报告[R].北京:中国科学院数学与系统科学研究院应用数学研究所,2004:
[82](美)J.G.尼克尔斯,A.R.马丁,B.G.华莱士,等.神经生物学[M].北京:科学出版社,2003:316-317.
[1]朱汉章.针刀医学原理[M].北京:人民卫生出版社,2002.119-120.
[2]田平,陈银环.电脑三维牵引配合小针刀治疗腰椎间盘突出症187例[J].中国中医急症,2009,18(2):295.
[3]柴晓峰,杨杰.针刀结合骶管注射治疗腰椎间盘突出症120例临床分析[J].现代中西医结合杂志,2007,16(8):1032-1033.
[4]王传明.推拿配合针刀、牵引治疗腰椎间盘突出症[J].江西中医药,2005,36(273):36-37.
[5]陈梅,施晓阳,李玉堂.针刀治疗腰椎间盘突出症96例临床观察[J].江苏中医药,2005,26(5):35-36.
[6]刘庆国,戴爱琳,何和清,等.改良针刀术式与常规术式治疗腰椎间盘突出症的特点对比[J].中国临床康复,2005,9(26):15-16.
[7]杨湘江,王顺兴,温伟平,等.针刀疗法配合骶管注射治疗腰椎间盘突出症[J].江西中医学院学报,2006,18(1):28-29.
[8]任毕祥.小针刀配合手法及中药治疗腰椎间盘突出症[J].中医正骨,2003,15(2):31.
[9]魏铭,刘立华,姜学连,等.水针刀治疗腰椎间盘突出症300例临床体会[J].中国中医急症,2009,18(4):634635.
[10]蒋丽霞.小针刀治疗腰椎间盘突出症80例分析[J].中医正骨,2002,14(8):26-27.
[11]侯宝昌,李为.小针刀椎间孔神经根阻滞法治疗腰间盘突出症148例报告[J].针灸临床杂志,2004,20(2):32.
[12]瞿群威,夏数数,谢学勇,等.针刀为主治疗腰椎间盘突出症康复效果评价及机制探讨[J].中国康复医学杂志,2007,22(12):1112—1114.
[13]陈敏,骆清铭.弱激光的生物学效应及对红细胞变形性的改善作用[J].激光生物学报,2001,11(1):43.
[14]Andreula CF, SimonettiL, De Santis F, et al. Minimally invasive oxygen-ozone therapy for lumbar disk herniation [J]. Am J Neuroradiol,2003,24(5):784-787.
[15]于业洲.临床麻醉治疗学[M].长春:吉林科学技术出版社,2000.406-407.
[16]陈幕远,袁宜勤.电针小针刀配合治疗顽固性腰椎间盘突出症48例[J].针灸临床杂志,2003,19(6):27-28.
[17]公冶国.推拿配合针刀拔罐治疗腰椎间盘突出症146例[J].山东中医杂志,2008,27(6):392.
[18]国家中医药管理局.中医病证诊断疗效标准[M].南京:南京大学出版社,1994:201.
[19]徐顺增.小针刀加椎间孔注射治疗腰椎间盘突出症的临床观察[J].针灸临床杂志,2003,19(12):18-20.
[20]马建国,尚淑萍.针刀配合牵引治疗腰椎间盘突出症300例[J].实用医技杂志,2002,9(10):772-773.
[21]黄有翰,许振兴.小针刀加局部注射治疗腰脊神经后支综合征[J].浙江中西医结合杂志,2005,15(4):250-251.
[22]杨米雄.针刀治疗腰椎间盘突出症106例报告[J].浙江中医学院学报,2003,27(4):40-41.
[23]李江龙,陈开阳,陈春,等.局部封闭+小针刀治疗腰椎间盘突出症术后残留症状132例[J].颈腰痛杂志,2002,23(1):85-86.
[24]贾宏林.小针刀疗法为主治疗腰椎间盘突出症[J].中国康复,2004,19(1):40-41.
[25]鄢卫平.针刀、手法治疗腰椎间盘突出症100例总结[J].甘肃中医,2005,18(7):32-33.
[26]牛耀杰,李博,蔺鹏飞,等.针刀疗法配合牵引、手法治疗1000例腰椎间盘突出症体会[J].内蒙古中医药,2007,5:29-30.
[27]朱汉章.针刀医学体系概论.中国工程科学,2006,8(7):4-5.
[28]朱汉章.小针刀疗法[M].北京:中国中医药出版社,1992.185.