负重可能是纤维环细胞凋亡增加的关键因素。
Weight-bearing is probably a key factor in the increase of annulus fibrosus cells apoptosis.
除衰老外,负重可能是纤维环细胞凋亡增加的关键因素。
Besides aging, weight bearing is probably a key factor of the increase of anulus fibrosus cells apoptosis.
对照组保持纤维环完整。
椎间盘的应力从纤维环右侧缘向左侧递减。
The stress was descended from right side of the lateral border to left side.
目的:探讨阔筋膜修复腰椎间盘纤维环的可行性。
Objective: To investigate the feasibility of fascia lata on repairing intervertebral disc annulus.
目的:观察腰椎纤维环经板层网桥的大体和显微结构。
Objective. To reveal the macro and micro structure of the translamellar bridging network in the lumbar annulus.
数据信息概要:裂隙是包括纤维环在内结构失效的证据。
Summary of Background Data. Tears are evidence of structural failure involving the anulus .
损伤的进展看似由纤维环最内第一层产生的小裂口开始。
The progressive damage appears to develop with a small cleft inside the first inner layer of the anulus.
结果:最常见的椎间盘破坏方式是凝胶剂自纤维环后方挤出。
Results. Gel extrusion from the posterior annulus was the most common mode of disc failure.
证实此模型并预测组织工程纤维环在生理负荷条件下的反应。
Validate the model and predict the response of engineered constructs to physiologic loading scenarios.
与其他方向的纤维环壁不同,纤维环后方附近不能分担静水压。
Unlike other aspects of the annular wall, the posterior region was unable to distribute hydrostatic pressures circumferentially.
依手术及病理发现探讨髓核突出增强原理及纤维环破裂的依据。
Judging by operative and pathological findings to discuss the Gd-DTPA enhancement of the fragment herniation and the signs of disrupted anulus fibrosis.
采用显微CT扫描和微分干涉差显微镜进行纤维环破裂的研究。
Investigation of the resulting annular disruption was carried out using microcomputed tomography and differential interference contrast microscopy.
分化细胞从纤维环的外缘迁移被认为是这些组织形成的可能机制。
Migration of differentiated cells from outside the intervertebral disc has been hypothesized as a possible mechanism for the formation of these tissues.
结论:本研究表明椎间盘纤维环板层间结构较以往认识复杂得多。
Conclusion. This study demonstrates a far greater complexity to the interlamellar architecture of the disc annulus than has previously been recognized.
而大的纤维环缺陷需要较长的闭合时间,可能延长椎间盘功能受损的时间。
Larger defects appear to require longer wound closure times, and may prolong the duration of impaired disc function.
典型的退变性椎间盘疾病从椎间盘壁小的撕裂开始。椎间盘壁称为纤维环。
Degenerative disc disease typically begins when small tears appear in the disc wall, called the annulus.
方法结合酶消化法和组织块培养法,体外单层培养人退变纤维环原代细胞。
Method:Primary cells of human degenerative AF were obtained through in vitro monolayer culture combined with enzyme digestion method and tissue pieces culture method.
可见纤维环细胞渗透到支架中并增殖、大量的s-GAG沉积和线性胶原形成。
Infiltration and proliferation of AF cells into the scaffold and abundant deposition of s-GAG and aligned collagen was observed.
当新的肌肉纤维环包在这些“钛骨”上时,这些钛骨就开始维系着人体的正常活动!
When the new muscle fibrous ring wrapped in these "Ti-bone" when they began to titanium bone sustains the body's normal activity!
鼻翼软骨纤维环和鼻翼软骨肌肉环是维持外鼻下端形态和鼻孔对称的重要解剖结构。
Alar cartilaginous fibrous ring and alar cartilaginous muscular ring are very important anatomic structures to maintain the shape of the lower part of the nose.
木文对25例腰椎间盘纤维环破裂症患者,从治疗时间上分为两组,进行疗效观察。
This paper reported 25 cases of lumber disc hernia, According to therapeutic time, these patients were divided into two groups and the curative effect was observed.
目的:应用超弹性定制模型,通过调节模型标量参数记录组织工程纤维环的演变特征。
Objective. Apply a hyperelastic constitutive model to characterize the evolution of engineered AF via scalar model parameters.
同时对偶接了LY 12CZ铝合金的炭纤维环氧复合材料也进行了腐蚀浸泡对比试验。
The corrosion behavior of GECM coupled with the LY12CZ aluminum alloy was also observed in immersion test.
结论:除增龄外,负重是增加纤维环细胞凋亡、加重椎间盘纤维环破损和退变的重要因素。
Conclusions: Besides aging, weight bearing is probably a key factor of the increase of anulus fibrosus cells apoptosis and the degeneration of annulus fibrosus of intervertebral disc.
纤维环外层的后侧板层间连接力量弱可以解释大部分椎间盘突出、脱出发生在纤维环壁外层。
Weak interlamellar cohesion of the outer posterior lamellae may explain why the majority of herniations remain contained as protrusions within the outer annular wall.
结论:纤维环细胞种植到有组织的、各异向性的类似纤维环样的支架上产生很好的力学特性。
Conclusion. AF cells seeded on nanofibrous scaffolds elaborated an organized, anisotropic AF-like extracellular matrix, resulting in improved mechanical properties.
目的:本实验旨在研究伸展或联合伸展及侧方屈曲是否能使纤维环的突出部分向髓核方向移动。
Objective. This study investigated whether extension or combined extension and side flexion could move the displaced portion of nucleus from the anulus towards the nucleus.
模型成功地被证实并使用于模仿在剪切和双轴向负荷下反应程度依时间变化的组织工程纤维环。
The model was successfully validated and used to simulate time-varying responses of engineered AF under shear and biaxial loading.
模型成功地被证实并使用于模仿在剪切和双轴向负荷下反应程度依时间变化的组织工程纤维环。
The model was successfully validated and used to simulate time-varying responses of engineered AF under shear and biaxial loading.
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