纤维软骨

xiān wéi ruǎn gǔ
  • fibrocartilage
纤维软骨纤维软骨
  1. 创伤性三角纤维软骨损伤急性期的MRI诊断

    MRI diagnosis of acute traumatic lesion of triangular fibrocartilage

  2. 结果三角纤维软骨复合体(triangularfibrocartilagecomplex,TFCC)水平部分前半段切除后,DRUJ于旋后位时不稳定;

    Results After resection of anterior half segment in the horizontal part of the triangular fibrocartilage complex ( TFCC ), DRUJ was unstable in supination position .

  3. B组缺损由部分透明软骨组织及纤维软骨组织组成;

    The defect in B group was composed of hyaline chondrocyte and fibrocartilago tissues .

  4. 目的利用MRI技术显示三角纤维软骨复合体(TFCC)结构的损伤与后遗症的相关性。

    Purpose To study the correlation of the consequence and injuries of the triangular fibrocartilage complex ( TFCC ) .

  5. 目的观察体外培养半月板纤维软骨细胞的生长特点及生物学特性,研究中分子量透明质酸(HyaluronicAcid,HA)对体外培养半月板纤维软骨细胞的影响。

    Objective To observe the growth characteristics and biological properties of meniscal fibrochondrocytes cultured in vitro and to study the effects of moderate molecular weight hyaluronic acid ( HA ) on the cultured meniscal fibrochondrocytes .

  6. PAS染色可见未钙化纤维软骨区的软骨细胞内PAS阳性颗粒增多,钙化纤维软骨区的软骨细胞不含PAS阳性颗粒。

    PAS staining showed no calcification of fibrocartilage zone cartilage cells PAS-positive particles increased , calcified fibrocartilage zone of the cartilage cells not contain PAS positive granules .

  7. 目的:研究三角纤维软骨复合体(TFCC)的形态结构特点,为临床和进一步的生物力学研究提供解剖学基础。

    Objective : To provide detail anatomical information of the triangular fibrocartilage complex ( TFCC ) and anatomical foundation for clinical application and future biomechanical experiments .

  8. 研究了正常国人急性外伤致死的成人新鲜尸体10个腰间盘L3-4、L4-5纤维软骨的力学性质。

    In this paper , the biomechanical properties of ten lumbar intervertebral disc L3-4 , L4-5 fibrous cartilages got from normal Chinese fresh corpses died of impetuous trauma were investigated .

  9. 结果术后18周,软骨细胞/PDLLA复合物移植组软骨缺损区为软骨组织修复,新生软骨与正常软骨问连接好,单纯PDLLA对照组和空白对照组为纤维软骨或纤维组织修复。

    RESULTS The chondrocytes / PDLLA graft group repaired the rabbit ear defects after 18 weeks of the transplantation and the defects were repaired with cartilage tissue , but the two control groups were repaired with fibrous cartilage or fibrous tissue .

  10. 结论:1.在Ilizarov微创牵张技术适度牵拉应力下,纤维软骨先多后少,提示我们在临床中在调节速度方面可以采用先快后慢,快慢结合的方法。

    Ilizarov distraction technique in minimally invasive moderate stretch stress , less fibrous cartilage after more than before , suggesting that we are in clinical use in the regulation of speed can slow down after the first , the method of combining speed . 2 .

  11. 目的从解剖完整的腕关节入手,阐明三角纤维软骨复合体各组成部分的解剖特点,评估三角纤维软骨复合体(TFCC)对于维持远侧桡尺关节稳定的重要性。

    Objective : To describe the anatomic structure and characteristic of the component of the triangular fibrocartilage complex ( TFCC ) and evaluate the importance of the TFCC in maintaining the stability of the distal radioulnar joint ( DRUJ ) .

  12. Ⅰ型胶原半月板支架负载纤维软骨细胞体外培养

    Culture of fibrochondrocytes using type I collagen meniscal scaffold in vitro

  13. 纤维软骨细胞&纤维蛋白凝胶复合物修复半月板损伤的初步研究

    The Preliminary Study of Repairing Meniscus Lesion with Fibrochondrocyte-fibrin Glue Construct

  14. 术后18周可见具有过渡结构的纤维软骨带。

    The fibrous cartilage zones had a transition structure at18 weeks .

  15. 兔颞下颌关节盘纤维软骨细胞体外分离培养的实验研究

    Study on Isolation and Cultivation of Rabbit TMJ Disc Fibrochondrocytes

  16. 在纤维软骨区和脂肪垫区有中等强度的阳性信号;

    Some mild signal at unmineralized fibrocartilage and fat pad ;

  17. 结论电刺激可诱导裂缘纤维软骨细胞分裂增殖;

    Conclusion Direct microcurrent stimulation can induce the cellular mitosis and proliferation .

  18. 软骨原细胞随后开始产生纤维软骨。

    Chondroblasts then begin to produce a type of cartilage called fibrocartilage .

  19. 兔半月板纤维软骨细胞的培养及生物学特性研究

    In Vitro Culture and Biology Study of Rabbit Menisci Fibrochondrocytes

  20. 纤维软骨含有无数厚束胶质纤维的软骨(组织)

    Cartilage that contains numerous thick bundles of collagen fibers .

  21. 制备纤维软骨细胞与纤维蛋白凝胶复合物,在纤维蛋白中培养细胞;

    Fibrin glue was made and fibrochondrocytes were cultured in the glue .

  22. 三角纤维软骨复合体的血供及临床意义

    The blood supply of the triangular fibrocartilage complex and its clinical significance

  23. 扫描电镜下多为纤维软骨和纤维组织。

    Fibrocartilage and fibrious tissues were seen under SEM .

  24. 关节镜下治疗腕三角纤维软骨损伤患者围术期护理

    Perioperative Nursing Care for Patients with Wrist Triangular Fibrocartilage Injury Treated by Arthroscopy

  25. 兔半月板纤维软骨细胞在纤维蛋白凝胶中体外培养的生物学特性

    Study of Biology Characteristics of Rabbit Fibrochondrocytes Cultured in Fibrin Glue in vitro

  26. 半月板纤维软骨细胞与小肠黏膜下层的组织相容性

    Biocompatibility of meniscal fibrocartilage cells with small intestinal submucosa

  27. 壳聚糖聚电解质复合物再生纤维软骨的实验研究

    Experimental study on chitosan-polyelectrolyte complex as a scaffold for cartilage regeneration in vivo

  28. 纤维软骨,基质中大量的胶原纤维。

    Fibrocartilage , with wispy , broad collagenic fibers predominating in the matrix .

  29. 腕关节三角纤维软骨复合体损伤的关节镜治疗

    Arthroscopic Management of the Triangular Fibrocartilage Complex Injuries

  30. 结论:培养的细胞保持了体内纤维软骨细胞的基本特性。

    Conclusion : The culture cell conserved the characteristics of fibrochondrocytes even in vivo .