146 resultados para coracoclavicular ligaments


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This study investigates the impact of polystyrene sodium sulfonate (PolyNaSS) grafting onto the osseo-integration of a polyethylene terephthalate artificial ligament (Ligament Advanced Reinforcement System, LARS™) used for Anterior Cruciate Ligament (ACL). The performance of grafted and non-grafted ligaments was assessed in vitro by culturing human osteoblasts under osteogenic induction and this demonstrated that the surface modification was capable of up-regulating the secretion of ALP and induced higher level of mineralisation as measured 6 weeks post-seeding by Micro-Computed Tomography. Grafted and non-grafted LARS™ were subsequently implanted in an ovine model for ACL reconstruction and the ligament-to-bone interface was evaluated by histology and biomechanical testings 3 and 12 months post-implantation. The grafted ligaments exhibited more frequent direct ligament-to-bone contact and bone formation in the core of the ligament at the later time point than the non-grafted specimens, the grafting also significantly reduced the fibrous encapsulation of the ligament 12 months post-implantation. However, this improved osseo-integration was not translated into a significant increase in the biomechanical pull-out loads. These results provide evidences that PolyNaSS grafting improved the osseo-integration of the artificial ligament within the bone tunnels. This might positively influence the outcome of the surgical reconstructions, as higher ligament stability is believed to limit micro-movement and therefore permits earlier and enhanced healing.

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The relationship between coronal knee laxity and the restraining properties of the collateral ligaments remains unknown. This study investigated correlations between the structural properties of the collateral ligaments and stress angles used in computer-assisted total knee arthroplasty (TKA), measured with an optically based navigation system. Ten fresh-frozen cadaveric knees (mean age: 81 ± 11 years) were dissected to leave the menisci, cruciate ligaments, posterior joint capsule and collateral ligaments. The resected femur and tibia were rigidly secured within a test system which permitted kinematic registration of the knee using a commercially available image-free navigation system. Frontal plane knee alignment and varus-valgus stress angles were acquired. The force applied during varus-valgus testing was quantified. Medial and lateral bone-collateral ligament-bone specimens were then prepared, mounted within a uni-axial materials testing machine, and extended to failure. Force and displacement data were used to calculate the principal structural properties of the ligaments. The mean varus laxity was 4 ± 1° and the mean valgus laxity was 4 ± 2°. The corresponding mean manual force applied was 10 ± 3 N and 11 ± 4 N, respectively. While measures of knee laxity were independent of the ultimate tensile strength and stiffness of the collateral ligaments, there was a significant correlation between the force applied during stress testing and the instantaneous stiffness of the medial (r = 0.91, p = 0.001) and lateral (r = 0.68, p = 0.04) collateral ligaments. These findings suggest that clinicians may perceive a rate of change of ligament stiffness as the end-point during assessment of collateral knee laxity.

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The deep transverse metatarsal ligaments play an important role in stabilizing the metatarsal bones and manipulating foot transverse arch deformation. However, the biomechanical research about transverse metatarsal ligaments in the foot maneuver is quite few. Due to the difficulties and lack of better measurement technology for these ligaments experimental monitor, the load transfer mechanism and internal stress state also hadn't been well addressed. The purpose of this study was to develop a detailing foot finite element model including transverse metatarsal ligaments tissues, to investigate the mechanical response of transverse metatarsal ligaments during the landing condition. The transverse metatarsal ligaments were considered as hyperelastic material model was used to represent the nonlinear and nearly incompressible nature of the ligament tissue. From the simulation results, it is clearly to find that the peak maiximal principal stress of transverse metatarsal ligaments was between the third and fourth metatarsals. Meanwhile, it seems the transverse metatarsal ligaments in the middle position experienced higher tension than the sides transverse metatarsal ligaments.

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The deep transverse metatarsal ligaments (DTML) play an important role in stabilizing the metatarsal bones and manipulating foot transverse arch deformation. However, the biomechanical research about DTML in the foot maneuver is quite few. Due to the difficulties and lack of better measurement technology for these ligaments experimental monitor, the load transfer mechanism and internal stress state also hadn't been well addressed. The purpose of this study was to develop a detailing foot finite element model including DTML tissues, to investigate the mechanical response of DTML during the landing condition. The DTML was considered as hyperelastic material model was used to represent the nonlinear and nearly incompressible nature of the ligament tissue. From the simulation results, it is clearly to find that the peak maiximal principal stress of DTML was between the third and fourth metatarsals. Meanwhile, it seems the DTML in the middle position experienced higher tension than the sides DTML.

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A droplet residing on a vibrating surface and in the pressure antinode of an asymmetric standing wave can spread radially outward and atomize. In this work, proper orthogonal decomposition through high speed imaging is shown to predict the likelihood of atomization for various viscous fluids based on prior information in the droplet spreading phase. Capillary instabilities are seen to affect ligament rupture. Viscous dissipation plays an important role in determining the wavelength of the most unstable mode during the inception phase of the ligaments. However, the highest ligament capillary number achieved was less than 1, and the influence of viscosity in the ligament growth and breakup phases is quite minimal. It is inferred from the data that the growth of a typical ligament is governed by a balance between the inertial force obtained from the inception phase and capillary forces. By including the effect of acoustic pressure field around the droplet, the dynamics of the ligament growth phase is revealed and the ligament growth profiles for different fluids are shown to collapse on a straight line using a new characteristic time scale.

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La luxation du genou, bien que très rare, demeure une blessure dévastatrice car elle entraîne de multiples complications en raison de la nature complexe du traumatisme associé à cette lésion. La luxation peut résulter d'un traumatisme à haute ou basse énergie. Les blessures sévères aux ligaments et aux structures associées donnent à la luxation du genou un potentiel élevé d'atteinte fonctionnelle. Le traitement conservateur, qui était considéré comme acceptable auparavant, est maintenant réservé à un très faible pourcentage de patients. La reconstruction chirurgicale est maintenant préconisée dans la plupart des cas, mais de nombreuses options existent et le traitement chirurgical optimal à préconiser reste controversé. Certains chirurgiens recommandent la reconstruction complète de tous les ligaments endommagés le plus tôt possible, tandis que d'autres, craignant l’établissement d’arthrofibrose, limitent l'intervention chirurgicale immédiate à la reconstruction du ligament croisé postérieur et de l'angle postéro-externe. En raison des multiples structures endommagées lors d’une luxation du genou, les chirurgiens utilisent couramment la combinaison des autogreffes et des allogreffes pour compléter la reconstruction ligamentaire. Les complications associées au prélèvement de la greffe, l'allongement de la greffe, l’affaiblissement précoce du greffon ainsi que les risques de transmission de maladies ont poussé les chirurgiens à rechercher différentes options d’intervention. L'utilisation de matériaux synthétiques pour le remplacement du ligament lésé a été proposée dans les années ´80. Après une première vague d'enthousiasme, les résultats décevants à long terme et les taux élevés d'échec ont diminué sa popularité. Depuis lors, une nouvelle génération de ligaments artificiels a vu le jour et parmi eux, le Ligament Advanced Reinforced System (LARS) a montré des résultats prometteurs. Il a été utilisé récemment dans les reconstructions isolées du ligament croisé antérieur et du ligament croisé postérieur pour lesquelles il a montré de bons résultats à court et moyen termes. Le but de cette étude rétrospective était d'évaluer la fonction et la stabilité du genou après la luxation aiguë suivant la reconstruction des ligaments croisés avec le ligament artificiel de type LARS. Cette étude a évalué 71 patients présentant une luxation du genou et qui ont subi une chirurgie de reconstruction du ligament croisé antérieur et du ligament croisé postérieur à l'aide du ligament LARS. Suite à la chirurgie le même protocole intensif de réadaptation a été suivi pour tous les patients, où la mise en charge progressive était permise après une période d’environ 6 semaines pendant laquelle la force musculaire et la stabilité dynamique se rétablissaient. Les outils d’évaluation utilisés étaient le score Lysholm, le formulaire de «l’International Knee Documentation Committee», le «Short Form-36», les tests cliniques de stabilité du genou, l'amplitude de mouvement articulaire à l’aide d’un goniomètre et la radiographie en stress Telos à 30° et 90° de flexion du genou. Le même protocole d’évaluation a été appliqué au genou controlatéral pour des fins de comparaison. Les résultats subjectifs et objectifs de cette étude sont satisfaisants et suggèrent que la réparation et la reconstruction combinées avec ligaments LARS est une alternative valable pour le traitement des luxations aiguës du genou. Ces résultats démontrent que ces interventions produisent des effets durables en termes d’amélioration de la fonction et révèlent la durabilité à long terme des ligaments artificiels LARS. Les patients sont à la fois plus autonomes et plus satisfaits avec le temps, même si la luxation du genou est considérée comme une catastrophe au moment où elle se produit. Des études prospectives randomisées sont maintenant nécessaires afin de comparer la sélection de la greffe et le délai de reconstruction chirurgicale.

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The correct radiographic identification of ossification of the pterygospinous and pterygoalar ligaments plays an important role in surgical procedures for the treatment of trigeminal neuralgia. Most of these procedures are performed through the foramen ovale, a site where these ligaments can be found to be partially or completely ossified. We studied the radiographic features of these ossified ligaments and their location in relation to the foramen ovale by the Hirtz axial technique. For this purpose, 93 dry skulls from the Discipline of Anatomy, São José dos Campos Dental School, UNESP, which presented partial or complete ossification of these ligaments, were radiographed. The pterygospinous ligament was detected on 27.97% of radiographs and was partially ossified in 19.36% of cases and completely ossified in 8.61%. The pterygoalar ligament was present in 62.35% of radiographs, being partially ossified in 49.44% and completely ossified in 12.91%. The pterygospinous ligaments was found to be partially and completely ossified on the same radiograph in 3.23% of cases, whereas the pterygoalar ligament appeared partially and completely ossified on the same radiograph in 6.45%. Furthermore, the pterygospinous ligament was thinner than the pterygoalar ligament and located more medially in relation to the foramen ovale. The pterygoalar ligament formed a large bone bar lateral to the foramen ovale, often obliterating the lumen of the latter. The Hirtz axial technique is an excellent tool for the observation of complete or partial ossification of the pterygospinous and pterygoalar ligaments in surgical procedures for the treatment of trigeminal neuralgia performed through the foramen ovale.

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One of the possible initiating factors in canine cranial cruciate ligament (CCL) rupture could be an abnormal pattern of ligament cell death. This study compared apoptotic cell death in sections of ruptured CCLs and normal controls, and examined nitric oxide (NO) production in joint tissues and correlated this to apoptosis. CCLs and cartilage from the lateral femoral condyle were harvested from 10 healthy dogs and 15 dogs with CCL rupture and ligaments were further processed to detect cleaved caspase-3 and to determine supernatant NO production in explant cultures. Apoptotic activity was greater in ruptured ligaments compared to controls. NO in ligaments showed a moderate but significant positive correlation with caspase-positive cells. The results suggest that increased apoptosis has a role in CCL rupture and that apoptosis may be influenced by local NO production.