关节镜下多种移植物联合重建膝关节前、后交叉韧带

目的：评估关节镜下膝关节前交叉韧带（ACL）与后交叉韧带（PCL）同时重建的技术和临床效果。方法：自2003年6月～2009年10月,27例病人（28膝）经MRJ检查及关节镜检查证实ACL和PCL均断裂,其中9膝伴内侧副韧带损伤（MCL）,8膝伴后外侧角损伤（PLC）,5膝伴内侧半月板破裂,4膝伴外侧半月板损伤。27例患者于伤后3～10周在关节镜下行膝关节前、后交叉韧带联合重建。结果：本组术后早期均未发生严重并发症。术后随访12-88个月,平均（42．67±3．34）个月,Lysholm膝关节功能评分为78-93分,平均（86．67±5．21）分。国际膝关节文件编制委员会（mDC）综合评定由术前显著异常（D级）28膝,改进为随访时正常（A级）9膝、接近正常（B级）16膝、异常（C级）3膝。结论：关节镜下膝关节前交叉韧带（ACL）与后交叉韧带（PCL）同时重建创伤小、手术操作精细,术后膝关节功能恢复满意。     

关节镜下应用带跟骨异体跟腱联合重建前交叉韧带及内侧副韧带

目的:探讨关节镜下应用带跟骨异体跟腱联合重建前交叉韧带(anterior cruciate ligament,ACL)及内侧副韧带(medial col-ateml ligament,MCL)和恢复膝关节前内侧稳定性的效果.方法:选择2007年1月至2010年1月收治符合纳入标准的27例A CL合并MCL损伤患者.其中男18例,女9例;年龄16～48岁,平均32.5岁;右膝15例,左膝12例.患者在排除手术禁忌后,均在关节镜下采用带跟骨异体跟腱一期联合重建ACL和MCL.患者受伤至手术时间7～14天,平均10天.结果:术后2周所有患者切口均Ⅰ期愈合.所有病例获得长期随访,随访时间24～32个月,平均26个月.术后24个月,Lysholm评分由术前的32.10±4.35升至86.25±4.12分,国际膝关节文献委员会(IKDC)评分由术前的33.27±4.25分,升至82.46± 4.13分,术前与术后Lysholm评分及I KDC评分均有显著差别(P＜0.05).结论:关节镜下应用带跟骨异体跟腱一期联合重建治疗膝关节脱位能够较好的恢复患者膝关节前内侧稳定行,近期效果良好.     

应用无内固定装置技术双束双隧道重建前交叉韧带疗效分析

目的:探讨应用无内固定装置技术双束双隧道重建前交叉韧带(ACL)的治疗效果.方法:2006年1月至2008年1月,我科应用无内固定装置技术双束重建ACL损伤患者33例,男31例,女2例.患者排除手术禁忌后,分别在关节镜下采用双股半腱肌腱重建前内侧束,双股股薄肌腱重建后外侧束.韧带采用无内固定装置固定,股骨端行悬吊固定,胫骨端行拴桩固定.术后1～3周内指导患者在支具保护下进行康复训练,并逐渐提高训练强度.结果:术后切口均一期愈合,无并发症.病例随访时间24～48个月,平均36个月.术后12月时:Lysholm评分由术前的52.2±2.5,升至96.4±7.2分,IKDC评分55.3±3.7分,升至94.1±5.3分,其中A级19例,B级:11例.术前与术后Lysholm评分及IKDC评分有显著差别(P＞0.05).结论:采用无内固定装置双束ACL重建方法能够较好的平衡患者前内侧束和后外侧束张力,并有利于保留ACL韧带残余结构、节约经费,具有令人满意的临床效果.     

双侧自体腘绳肌腱一期重建前后交叉韧带损伤的临床疗效

目的:探讨关节镜辅助下使用双侧自体腘绳肌腱一期修复膝关节前后交叉韧带损伤的方法和临床疗效。方法:内窥镜微创双侧自体腘绳肌腱修复膝关节内韧带,术后用IKDC分级、影像学IKDC分级、Lysholm功能评分和KT2000TM测量进行关节机能打分。结果:11例患者获得3-5年随访,平均随访3.8年。术前Lysholm功能评分平均(46.8±5.7)分,终末随访时平均(81.3±10.5)分,差异有显著性(P<0.05)。术后关节稳定性测量,在20磅时、30磅和最大拉力时健膝和患膝分别是:6.1±0.3和6.8±0.8;6.3±0.5和7.7±1.3;7.5±0.6和9.6±2.4,统计学上差异无显著性(P>0.05)。主观IKDC分级:A级4例,B级6例,C级1例;影像学IKDC分级:A级8例,B级2例,C级1例。结论:关节镜辅助下使用双侧自体腘绳肌腱一期修复膝关节前后交叉韧带损伤是重建膝关节稳定性的良好有效方法。     

膝关节镜下自体中1/3骨-髌韧带-骨重建前交叉韧带手术配合

前交叉韧带 ( ACL)的撕裂是膝关节损伤中最常见的严重的韧带损伤 ,ACL损伤后严重影响膝关节功能 ,继发关节软骨、半月板等主要结构损伤 ,导致关节退变和骨关节病的早期发生。由于关节镜技术具有创伤小、操作精细、康复快的优点 ,用来修复 ACL明显提高了 ACL损伤的治愈率。关节镜内自体中 1 /3骨 -髌韧带 -骨 ( B- PT- B)重建 ACL是近几年标准的重建 ACL手术 [1] ,我院自2 0 0 2年 8月至 2 0 0 3年 3月共开展此类手术 5例 ,疗效确切 ,现将手术配合报道如下。1　临床资料　　本组共 5例患者 ,男 4例 ,女 1例 ,年龄最大46岁 ,最小 2 6…     

关节镜下应用带跟骨异体跟腱一期联合治疗膝关节脱位合并不稳定

目的：探讨关节镜下应用带跟骨异体跟腱一期联合重建治疗膝关节脱位合并不稳定的治疗效果。方法：2008年1月至2010年1月,我们于关节镜下应用带跟骨异体跟腱一期联合重建治疗膝关节脱位合并不稳定患者11例,男9例,女2例;年龄17～45岁,平均22.3岁;右膝6例,左膝5例。患者在排除手术禁忌后,分别在关节镜下采用带跟骨异体跟腱一期联合重建后交叉韧带（PCL）、内侧副韧带（MCL）、前交叉韧带（ACL）和外侧副韧带（LCL）。结果：术后所有切口均于2周后I期愈合。10例获得随访,随访时间24～36个月,平均30个月。术后24个月,Lysholm评分由术前的42.2±3.5,升至84.5±6.2分,其中A级9例,B级1例,C级0例;国际膝关节文献委员会（IKDC）评分有术前的41.7±6.5分,升至82.3±10.3分。术前与术后Lysholm评分及IKDC评分有显著差别（P〈0.05）。术后膝关节活动范围,与术前相比具有显著性差异（P〈0.05）。结论：关节镜下应用带跟骨异体跟腱一期联合重建治疗膝关节脱位能够较好的恢复患者膝关节稳定和活动范围,具有令人满意的临床效果。     

应用无内固定装置技术双束双隧道重建前交叉韧带疗效分析

目的：探讨应用无内固定装置技术双束双隧道重建前交叉韧带（ACL）的治疗效果。方法：2006年1月至2008年1月,我科应用无内固定装置技术双束重建ACL损伤患者33例,男31例,女2例。患者排除手术禁忌后,分别在关节镜下采用双股半腱肌腱重建前内侧束,双股股薄肌腱重建后外侧束。韧带采用无内固定装置固定,股骨端行悬吊固定,胫骨端行拴桩固定。术后1~3周内指导患者在支具保护下进行康复训练,并逐渐提高训练强度。结果：术后切口均一期愈合,无并发症。病例随访时间24~48个月,平均36个月。术后12月时：Lysholm评分由术前的52.2±2.5,升至96.4±7.2分,IKDC评分55.3±3.7分,升至94.1±5.3分,其中A级19例,B级：11例。术前与术后Lysholm评分及IKDC评分有显著差别（P〉0.05）。结论：采用无内固定装置双束ACL重建方法能够较好的平衡患者前内侧束和后外侧束张力,并有利于保留ACL韧带残余结构、节约经费,具有令人满意的临床效果。     

后交叉韧带断裂对外侧半月板生物力学的影响

目的:探讨后交叉韧带(Posterior cruciate ligament,PCL)损伤后对外侧半月板各部位生物力学特性的影响,为PCL断裂后外侧半月板损伤的防治避免骨性关节炎提供力学理论依据.方法:自愿捐献新鲜成年男性正常膝关节标本共10具,年龄21～36岁,平均32.3岁,为非对称性,左、右膝关节各5具.置于自制运动夹具上并通过电子试验机连续轴向加载0～800N负荷模拟膝关节的受力,采用压力感受器分别测定PCL完整组及PCL断裂组外侧半月板前角体部和后角于屈膝0、30、60及90°时应变值.结果:膝关节0°位,在PCL完整时,前角、体部和后角的应变均为负值,为压应变,当PCL完全切断时,前角、体部应变在各种载荷下较完整时均出现负向减小,而后角的应变却出现负向增大.膝关节30°、60°、90°位,PCL完整时前角、体部的应变为正值,是拉应变,且随载荷和角度的增大而增大,后角的应变是负值,为压应变,且随载荷和角度的增大而负向增大,PCL断裂组应变值明显大于完整组.不同角度不同载荷下两组差异均有统计学意义(P＜0.05).结论:PCL断裂会对外侧半月板产生显著的生物力学影响,这也为伤后避免膝关节屈曲负重和早期重建PCL保护半月板功能避免骨性关节炎提供了力学理论依据.     

关节镜下胫骨嵌入术治疗膝关节后交叉韧带损伤的临床效果及安全性分析

目的：探讨关节镜下胫骨嵌入术治疗膝关节后交叉韧带损伤患者的临床疗效及安全性。方法：回顾性分析2013 年2 月至 2014 年2 月在我院接受关节镜下胫骨嵌入术治疗的膝关节膝关节后交叉韧带损伤患者36 例的临床资料，比较手术前后 Lysholm 膝关节评分、KT-2000 关节测量值、后抽屉试验与Lachman 征的差异。结果：与手术前比较，手术后6 个月患膝Lysholm 膝关节评分、KT-2000 关节测量值及物理检查(后抽屉试验试验与Lachman 征)均明显改善，差异具有统计学意义(P<0.05)。全部患 者术后无韧带断裂、免疫排斥反应等现象。结论：关节镜下胫骨Inlay技术对膝关节PCL损伤患者的临床疗效显著，安全性高，值 得临床推广应用。     

关节镜下前交叉韧带重建中保留残端对膝关节功能及本体感觉恢复的影响研究

目的:探讨关节镜下前交叉韧带(ACL)重建术中保留韧带残端对ACL损伤患者膝关节功能及本体感觉恢复的影响。方法:回顾性分析2010年1月~2016年3月解放军第174医院收治的ACL损伤患者266例,所有患者均行关节镜下ACL重建,其中保留韧带残端的163例为保留残端组,术中完全清理韧带残端的103例为非保留残端组,所有患者术后随访12个月以上,评价两组患者的膝关节功能及本体感觉恢复情况。结果:术前、术后9个月、术后12个月两组膝关节患侧Lysholm评分、国际膝关节文献委员会膝关节评估表(IKDC)评分、被动活动察觉阀值、被动角度再生试验结果比较差异无统计学意义(P0.05);两组术后各检测时间点的Lysholm评分、IKDC评分较术前均显著提高,被动活动察觉阀值、被动角度再生试验结果较术前明显降低(P0.05);保留残端组术后3个月、6个月的Lysholm评分、IKDC评分高于非保留残端组,被动活动察觉阀值、被动角度再生试验结果低于非保留残端组,差异有统计学意义(P0.05)。结论:关节镜下ACL重建中保留残端可加快膝关节功能及本体感觉恢复速度,获得满意的临床疗效,值得推广应用。     

双源CT三维重建前交叉韧带移植物新技术

目的:探讨双源CT(DSCT)三维重建前交叉韧带(anterior cruciate ligament,ACL)重建术后移植物的技术方法。方法:对30例ACL损伤后移植重建术后患者进行DSCT扫描,利用软件三维重建ACL移植物的三维图像,对图像效果进行分析。结果:采用设定的参数和方法,30例患者的ACL移植物均获得三维重现,其中24例获得清晰的移植物图像,6例移植物图像略模糊。结论:DSCT可以重建出移植术后ACL移植物的三维图像,对临床检验、评估重建技术、修正重建方法、实现解剖重建有重大价值。     

前交叉韧带方位角变化的解剖学测量研究

目的:探讨前交叉韧带(anterior cruciate ligament,ACL)在膝关节不同屈曲角度时的方位角变化,为ACL损伤诊断和重建研究提供解剖学支持。方法:成人膝关节标本10具,解剖观察ACL形态,用Photoshop软件测量膝关节不同屈曲角度下ACL方位角变化。结果:0°、30°位膝关节中ACL胫骨角大于ACL股骨角,有显著性差异(P0.01);60°、90°位膝关节中的ACL胫骨角小于股骨角,有显著性差异(P0.01)。膝关节0°、30°、60°、90°ACL胫骨角由大渐小,各角度间均有显著性差异(均P0.01)。膝关节0°和30°的ACL股骨角比60°和90°时小,有显著性差异(均P0.01),0°与30°间无显著性差异(P0.05),60°小于90°,有显著性差异(P0.01)。结论:ACL于膝关节0°和30°位时,后外侧束(posterolateral bundle,PLB)发挥主要作用,ACL诊断或重建主要参考胫骨角;60°、90°时ACL前内侧束(anteromedial bundle,AMB)发挥主要作用,ACL诊断或重建主要参考股骨角。ACL方位角可作为ACL损伤诊断和手术重建的重要参考。     

双源CT测量前交叉韧带单束重建术后隧道位置的临床研究

目的:应用双源CT(Dual-source computer tomography,DSCT)测量前交叉韧带(Anterior cruciate ligament,ACL)单束重建术后胫骨、股骨隧道位置,并对隧道位置进行评价。方法:对2013年1月至2014年6月我科收治的92例(男64例,女28例,平均年龄31.2岁)ACL单束重建患者术后膝关节进行双源CT三维重建,应用Adobe Photoshop CS6软件圈画隧道中心并采用Lorenz法测量胫骨隧道中心点相对位置百分比(Tx,Ty),采用Bernard四格表法测量股骨隧道中心点相对位置百分比(Fx,Fy)。结果:Tx平均为(54.54±3.42)%,Ty平均为(39.58±6.72)%,Fx平均为(28.98±6.51)%,Fy平均为(28.04±8.70)%。男、女性及左、右膝之间Tx、Ty、Fx、Fy的差异均无统计学意义(P0.05)。结论:双源CT能够清晰,三维显示ACL术后隧道,可以用来评估隧道位置,为改进前交叉韧带损伤后的手术方式及个体化解剖重建提供帮助。     

Pure passive hyperextension of the human cadaver knee generates simultaneous bicruciate ligament rupture

Knee hyperextension has been described as a mechanism of isolated anterior cruciate ligament (ACL) tears, but clinical and experimental studies have produced contradictory results for the ligament injuries and the injury sequence caused by the hyperextension loading mechanism. The hypothesis of this study was that bicruciate ligament injuries would occur as a result of knee hyperextension by producing high tibio-femoral (TF) compressive forces that would cause anterior translation of the tibia to rupture the ACL, while joint extension would simultaneously induce rupture of the posterior cruciate ligament (PCL). Six human knees were loaded in hyperextension until gross injury, while bending moments and motions were recorded. Pressure sensitive film documented the magnitude and location of TF compressive forces. The peak bending moment at failure was 108?N?m±46?N?m at a total extension angle of 33.6?deg±11?deg. All joints failed by simultaneous ACL and PCL damages at the time of a sudden drop in the bending moment. High compressive forces were measured in the anterior compartments of the knee and likely produced the anterior tibial subluxation, which contributed to excessive tension in the ACL. The injury to the PCL at the same time may have been due to excessive extension of the joint. These data, and the comparisons with previous experimental studies, may help explain the mechanisms of knee ligament injury during hyperextension. Knowledge of forces and constraints that occur clinically could then help diagnose primary and secondary joint injuries following hyperextension of the human knee.     

猪膝关节与人膝关节的对比及其在生物力学测试中的应用

人膝关节结构复杂,韧带较多,其中交叉韧带对维持膝关节的稳定性至为重要.后交叉韧带(posterior cruciate ligament,PCL)对于维持膝关节的后向稳定性和旋转稳定性具有至关重要的作用.PCL损伤后的主观不适症状要明显少于前交叉韧带损伤,所以过去对PCL的关注及研究要少于前交叉韧带.近年来高能量损伤致使PCL的损伤越来越多,学者们对PCL的关注度也在增加,进行了大量与PCL相关的实验,同时我们发现很多学者用动物的膝关节来代替人尸体进行体外生物力学实验,其中猪膝关节应用的最为广泛,基于这种情况,本文就猪膝关节的解剖结构与人的进行了比较,对其在体外生物力学实验中的应用进行了综述.     

New parameters describing how knee ligaments carry force in situ predict interspecimen variations in laxity during simulated clinical exams

Knee laxity, defined as the net translation or rotation of the tibia relative to the femur in a given direction in response to an applied load, is highly variable from person to person. High levels of knee laxity as assessed during routine clinical exams are associated with first-time ligament injury and graft reinjury following reconstruction. During laxity exams, ligaments carry force to resist the applied load; however, relationships between intersubject variations in knee laxity and variations in how ligaments carry force as the knee moves through its passive envelope of motion, which we refer to as ligament engagement, are not well established. Thus, the objectives of this study were, first, to define parameters describing ligament engagement and, then, to link variations in ligament engagement and variations in laxity across a group of knees. We used a robotic manipulator in a cadaveric knee model (n = 20) to quantify how important knee stabilizers, namely the anterior and posterior cruciate ligaments (ACL and PCL, respectively), as well as the medial collateral ligament (MCL) engage during respective tests of anterior, posterior, and valgus laxity. Ligament engagement was quantified using three parameters: (1) in situ slack, defined as the relative tibiofemoral motion from the neutral position of the joint to the position where the ligament began to carry force; (2) in situ stiffness, defined as the slope of the linear portion of the ligament force–tibial motion response; and (3) ligament force at the peak applied load. Knee laxity was related to parameters of ligament engagement using univariate and multivariate regression models. Variations in the in situ slack of the ACL and PCL predicted anterior and posterior laxity, while variations in both in situ slack and in situ stiffness of the MCL predicted valgus laxity. Parameters of ligament engagement may be useful to further characterize the in situ biomechanical function of ligaments and ligament grafts.     

Adapting Mechanical Characterization of a Biodegradable Polymer to Physiological Approach of Anterior Cruciate Ligament Functions

Background and objectiveOver the past decades, anterior cruciate ligament injuries have become a considerable public health issue. Due to specific physiological conditions such injuries often demand replacement surgery and can take up to two years to a complete recovery. Using biomaterials able to accelerate the healing process could represent a remarkable progress in the field. The main goal of this article is, therein, to evaluate the mechanical properties of poly(ε-caprolactone) (PCL) fibers with biological properties enhanced by poly(sodium styrene sulfonate) (PNaSS) grafting when subjected to mechanical stress in different conditions.Materials and methodsPCL fibers were thermal grafted with PNaSS. The grafting density was estimated by the toluidine blue colorimetric assay (TB). The influence of the grafting on in vitro primary ACL fibroblast behavior was evaluated by cell proliferation and fluorescence microscope images. The mechanical behavior was evaluated by tensile experiments in air and water, fatigue experiments and simulated walk efforts.ResultsThe results show that poly(ε-caprolactone) bundles have their mechanical behavior changed by the different surface treatments and nature of mechanical stress. Although, compared with the values of the natural ligament, the poly(ε-caprolactone) has shown superior mechanical properties (Young's Modulus, elastic deformation and ultimate tensile stress) in all studied scenarios. In addition, the pNaSS-grafted surfaces presented a positive influence in the cell proliferation and morphology.ConclusionThe pNaSS-grafted PCL has responded mechanical and biological requests for suitable ligament prosthesis material and could be considered as a promising alternative for ACL reconstruction.     

Biomechanics of changes in ACL and PCL material properties or prestrains in flexion under muscle force-implications in ligament reconstruction

The effects of changes in cruciate ligament material and prestrain on knee joint biomechanics following ligament reconstruction surgery by a tendon are not adequately known. A 3D nonlinear finite element model of the entire knee joint was used to investigate the joint response at different flexion angles under a quadriceps force while varying ACL and PCL initial strains or material properties. The ACL and PCL forces as well as tibiofemoral contact forces/areas substantially increased with greater ACL or PCL initial strains or stiffness. The patellofemoral contact force slightly increased whereas the tibial extensor moment slightly decreased with tenser or stiffer ACL. Reverse trends were predicted with slacker ACL. Results confirm the hypotheses that changes in the prestrain of one cruciate ligament substantially influence the force in the other cruciate ligament and the entire joint and that the use of the patellar tendon (PT) as a replacement for cruciate ligaments markedly alters the joint biomechanics with trends similar to those predicted when increasing prestrains. Forces in both ACL and PCL ligaments increased as one of them became tenser or stiffer and diminished as it became slacker. These results have important consequences in joint biomechanics following ligament injuries or replacement and tend to recommend the use of grafts with smaller prestrains (i.e. slacker than intact) when using the PT as the replacement material with stiffness greater than that of replaced ligament itself.