参考文献/References:
[1] RAVINDRA V M,SENGLAUB S S,RATTANI A,et al.Degenerative lumbar spine disease:estimating global incidence and worldwide volume[J].Global Spine J,2018,8(8):784-794.
[2] 彭齐峰,付洋,江恒,等.筋骨平衡理论在常见筋伤疾病中的应用探析[J].中国中医急症,2022,31(6):1025-1028.
[3] 王书勤,林远方.浅析“筋为肉之力”[J].按摩与康复医学,2022,13(11):33-35.
[4] 薛纯纯,刘爽,陈林,等.从肾脏调控骨的物质基础阐释“肾主骨”的科学内涵[J].中华中医药杂志,2022,37(3):1574-1578.
[5] 黄子津,江焕钊,孙瑞,等.“肝主筋”古今研究撷华[J].中医药导报,2022,28(6):112-115.
[6] 宋敏,王凯,文皓楠,等.基于“脾主肉,肾主骨”理论探讨OPG/RANK/RANKL信号通路与老年性骨质疏松的相关性[J].中国中医药信息杂志,2020,27(5):1-4.
[7] PANJABI M M.The stabilizing system of the spine part II neutral zone and instability hypothesis[J].J Spinal Disord,1992,5(4):390-396.
[8] SUO M,ZHANG J,SUN T,et al.The association between morphological characteristics of paraspinal muscle and spinal disorders[J].Ann Med,2023,55(2):2258922.
[9] SON Y H,KIM W J,SHIN Y J,et al.Human primary myoblasts derived from paraspinal muscle reflect donor age as an experimental model of sarcopenia[J].Exp Gerontol,2023,181:112273.
[10] YAZICI A,YERLIKAYA T.The relationship between the degeneration and asymmetry of the lumbar multifidus and erector spinae muscles in patients with lumbar disc herniation with and without root compression[J].J Orthop Surg Res,2022,17(1):541.
[11] GOUBERT D,DE PAUW R,MEEUS M,et al.Lumbar mu-scle structure and function in chronic versus recurrent low back pain:a cross-sectional study[J].Spine J,2017,17(9):1285-1296.
[12] ZHAO X,LIANG H,HUA Z,et al.The morphological cha-racteristics of paraspinal muscles in young patients with unilateral neurological symptoms of lumbar disc herniation[J].BMC Musculoskelet Disord,2022,23(1):994.
[13] CHEN C,YANG S,TANG Y,et al.Correlation between strength/endurance of paraspinal muscles and sagittal parameters in patients with degenerative spinal deformity[J].BMC Musculoskelet Disord,2023,24(1):643.
[14] NAGHDI N,MOHSENI-BANDPEI M A,TAGHIPOUR M,et al.Lumbar multifidus muscle morphology changes in patient with different degrees of lumbar disc herniation:an ultrasonographic study[J].Medicina(Kaunas),2021,57(7):699-709.
[15] BILTZ N K,COLLINS K H,SHEN K C,et al.Infiltration of intramuscular adipose tissue impairs skeletal muscle contraction[J].J Physiol,2020,598(13):2669-2683.
[16] WANG X,JIA R,LI J,et al.Research progress on the mechanism of lumbarmultifidus injury and degeneration[J].Oxid Med Cell Longev,2021,2021:6629037.
[17] MOREILLON M,CONDE ALONSO S,BROSKEY N T,et al.Hybrid fiber alterations in exercising seniors suggest contribution to fast-to-slow muscle fiber shift[J].J Cachexia Sarcopenia Muscle,2019,10(3):687-695.
[18] CAGNIE B,DHOOGE F,SCHUMACHER C,et al.Fiber typing of the erector spinae and multifidus muscles in healthy controls and back pain patients:a systematic literature review[J].J Manipulative Physiol Ther,2015,38(9):653-663.
[19] MANNION A F,WEBER B R,DVORAK J,et al.Fibre type characteristics of the lumbar paraspinal muscles in normal healthy subjects and in patients with low back pain[J].J Orthop Res,1997,15(6):881-887.
[20] JAMES G,MILLECAMPS M,STONE L S,et al.Dysregulation of the inflammatory mediators in the multifidus muscle after spontaneous intervertebral disc degeneration sparc-null mice is ameliorated by physical activity[J].Spine(Phila Pa),2018,43(20):1184-1194.
[21] JAMES G,SLUKA K A,BLOMSTER L,et al.Macrophage polarization contributes to local inflammation and structural change in the multifidus muscle after intervertebral disc injury[J].Eur Spine J,2018,27(8):1744-1756.
[22] THERET M,MOUNIER R,ROSSI F.The origins and non-canonical functions of macrophages in development and regeneration[J].Development,2019,146(9):156-169.
[23] LECHADO I T A,VITADELLO M,TRAINI L,et al.Sarcolemmal loss of active nNOS(Nos1)is an oxidative stress-dependent,early event driving disuse atrophy[J].J Pathol,2018,246(4):433-446.
[24] SHAHIDI B,GIBBONS M C,ESPARZA M,et al.Cell populations and muscle fiber morphology associated with acute and chronic muscle degeneration in lumbar spine patho-logy[J].JOR spine,2020,3(2):1087-1096.
[25] SHAHIDI B,FISCH K M,GIBBONS M C,et al.Increased fibrogenic gene expression in multifidus muscles of patients with chronic versus acute lumbar spine pathology[J].Spine(Phila Pa),2020,45(4):189-195.
[26] HODGES P W,GALEA M P,HOLM S,et al.Corticomotor excitability of back muscles is affected by intervertebral disc lesion in pigs[J].Eur J Neurosci,2009,29(7):1490-1500.
[27] HODGES P,HOLM A K,HANSSON T,et al.Rapid atrophy of the lumbar multifidus follows experimental disc or nerve root injury[J].Spine(Phila Pa 1976),2006,31(25):2926-2933.
[28] CHO T G,PARK S W,KIM Y B.Chronic paraspinal muscle injury model in rat [J].J Korean Neurosurg Soc,2016,59(5):430-436.
[29] REDERSTORFF M,CASTETS P,ARBOGAST S,et al.Increased muscle stress-sensitivity induced by selenoprotein N inactivation in mouse:a mammalian model for SEPN1-related myopathy[J].PloS One,2011,6(8):23094.
[30] ALMALKI F A,CORTES D H.Multifidus denervation after radiofrequency ablation of the medial nerve alters the biomechanics of the spine-a computational study[J].J Appl Biomech,2023,39(6):414-420.
[31] SMUCK M,CRISOSTOMO R A,DEMIRJIAN R,et al.Morphologic changes in the lumbar spine after lumbar medial branch radiofrequency neurotomy:a quantitative radiological study[J].Spine J,2015,15(6):1415-1421.
[32] TAKAYAMA K,KITA T,NAKAMURA H,et al.New predictive index for lumbar paraspinal muscle degeneration associated with aging[J].Spine(Phila Pa 1976),2016,41(2):84-90.
[33] FORTIN M,RYE M,ROUSSAC A,et al.The effects of combined motor control and isolated extensor strengthening versus general exercise on paraspinal muscle morphology,composition,and function in patients with chronic low back pain:a randomized controlled trial[J].J Clin Med,2023,12(18):5920.
[34] ANTHIERENS A,OLIVIER N,THEVENON A,et al.Benefits of a four-week functional restoration program in chronic low back pain patients and three-month follow-up:focus on paraspinal muscle aerobic metabolism responses to exercise[J].J Sports Med Phys Fitness,2020,60(12):1558-1566.
[35] WESSELINK E O,POOL J J M,MOLLEMA J,et al.Is fatty infiltration in paraspinal muscles reversible with exercise in people with low back pain?A systematic review[J].Eur Spine J,2023,32(3):787-796.
[36] JAMES G,KLYNE D M,MILLECAMPS M,et al.ISSLS Prize in basic science 2019:physical activity attenuates fibrotic alterations to the multifidus muscle associated with intervertebral disc degeneration[J].Eur Spine J,2019,28(5):893-904.
[37] 韩磊,赵平,李艺,等.脊柱整复手法治疗对腰椎间盘突出症患侧多裂肌硬度的力学影响观察[J].人民军医,2019,62(1):65-67.
[38] 邱兆熊.点揉委中配合躯干运动缓解腰部竖脊肌、多裂肌疲劳的表面肌电研究[D].北京:北京中医药大学,2017.
[39] 刘景良,翁泽鹏,廖莹盈.电针刺激多裂肌治疗腰椎间盘突出症的临床疗效观察[J].中国民族医药杂志,2023,29(5):22-24.
[40] 鲁曼.电针委中穴对大鼠腰多裂肌损伤后TGF-β1、CTGF、Vimentin表达的影响[D].北京:北京中医药大学,2020.
[41] 陈莉.电针“委中”穴对腰多裂肌损伤大鼠PDGF-CC、PDGFR-α、MMP-1表达的影响[D].北京:北京中医药大学,2021.
[42] 胡天红.独活寄生汤联合指导腰背肌锻炼对腰椎融合术后多裂肌损伤的疗效研究[D].杭州:浙江中医药大学,2021.
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