Zirconia陶瓷头-聚乙烯全髋关节的长期随访

目的: 通过对 28例 (30髋) zirconia-聚乙烯全髋关节的长期随访, 了解Zirconia陶瓷头的实际临床使用效果。方法: 用Harris评分分别评价术前和最后一次随访时髋关节功能。比较术后 1年及最后随访时的X线片, 记录假体松动、假体周围骨溶解、透亮线、及股骨矩吸收情况。根据Liv ermore的方法测量聚乙烯杯的磨损率。比较有骨溶解发生的髋关节与无骨溶解发生的髋关节的聚乙烯磨损率有无差别。结果: 共有 24例 (26髋) 获长期随访, 平均随访 9年 ( 6 ~13年 )。术前平均Harris评分 46分 ( 20 ~78分 ),最后随访时平均Harris评分 86分 (48~98分)。13髋 (50% ) 有假体周围的骨溶解发生。有 10髋 (38% ) 因髋臼假体的松动或髋臼周围骨溶解而接受翻修手术。平均聚乙烯髋臼磨损率为 0. 118mm/年。结论: 在本组研究病例中, 其髋臼磨损率并不比文献报道的传统的金属头低。而临床平均 9年翻修率更达 38%。其临床实际效果有待更深入的研究。     

不同持续时间的周期性压力对构建组织工程软骨的影响

Objective To determine the best duration for exerting the cyclic pressure under which the tissue-engineered cartilage is constructed. Methods Free chondrocytes isolated from rabbit articular cartilage were seeded into polylactic acid-co-glycolic acid(PLGA) scaffolds after expansion in vitro, and ran-domized into 4 groups. In Groups 1 to 3, chondrocytes were cultured under daily cyclic pressure (0 ～ 200 kPa, 0.1Hz) for 4 hours, 8 hours, 12 hours respectively; Group 4 was a control in which no pressure was exerted. In each group, after 2 weeks of culture, the tissue engineered cartilages were observed in vitro and assessed by his-tological staining of liE. Next, the content of DNA and the secretion of type Ⅱ collagen and GAG in cartilages were detected quantitatively. Results Under the daily cyclic pressure (0 ～200 kPa, 0.1 Hz), the scaf-fold-chondrocytes complex in the group of 8 hours got the largest volume, smooth, lucidus, and elastic surface, the most queuing chondrocytes, and the highest content of type Ⅱ collagen and GAG (P < 0.01). Conclusions Since chondrecytes are baro-senstive, the metabolism of chondrocytes can be affected by the time of cyclic pressure. Under the effect of 0 ～200 kPa, 0.1Hz, the daily cyclic pressure of 8 hours may be optimal for chondrocytes to multiply and synthesize extracellular matrixes such as type Ⅱ collagen and GAG.     

不同持续时间的周期性压力对构建组织工程软骨的影响

Objective To determine the best duration for exerting the cyclic pressure under which the tissue-engineered cartilage is constructed. Methods Free chondrocytes isolated from rabbit articular cartilage were seeded into polylactic acid-co-glycolic acid(PLGA) scaffolds after expansion in vitro, and ran-domized into 4 groups. In Groups 1 to 3, chondrocytes were cultured under daily cyclic pressure (0 ～ 200 kPa, 0.1Hz) for 4 hours, 8 hours, 12 hours respectively; Group 4 was a control in which no pressure was exerted. In each group, after 2 weeks of culture, the tissue engineered cartilages were observed in vitro and assessed by his-tological staining of liE. Next, the content of DNA and the secretion of type Ⅱ collagen and GAG in cartilages were detected quantitatively. Results Under the daily cyclic pressure (0 ～200 kPa, 0.1 Hz), the scaf-fold-chondrocytes complex in the group of 8 hours got the largest volume, smooth, lucidus, and elastic surface, the most queuing chondrocytes, and the highest content of type Ⅱ collagen and GAG (P < 0.01). Conclusions Since chondrecytes are baro-senstive, the metabolism of chondrocytes can be affected by the time of cyclic pressure. Under the effect of 0 ～200 kPa, 0.1Hz, the daily cyclic pressure of 8 hours may be optimal for chondrocytes to multiply and synthesize extracellular matrixes such as type Ⅱ collagen and GAG.     

颈后路减压侧块螺钉固定治疗无骨折脱位型颈髓损伤

无骨折脱位型颈髓损伤是一种特殊类型的颈髓损伤,由于在普通X线片、CT和MRI未见明显骨折脱位,易被漏诊或误诊,从而延误治疗。自1999年10月～2003年10月共收治此类损伤98例,其中采用颈后路减压侧块螺钉内固定治疗34例,现报告如下。     

帕米磷酸钠和降钙素对人工关节磨损微粒引起单核细胞分泌溶骨性因子的影响

目的　探讨帕米磷酸钠和降钙素防治人工关节松动的可能性。方法　采集人体外周血 ,分离单核细胞 ,分组培养。实验分 4组 ,第 1组 :仅单核细胞 ,为对照组 ;第 2组 :单核细胞及微粒 ,为微粒组 ;第 3组 :单核细胞、微粒及帕米磷酸钠 (阿可达 ) ,为阿可达组 ;第 4组 :单核细胞、微粒及降钙素 (密钙息 ) ,为密钙息组。培养 48h后 ,检测细胞上清液中肿瘤坏死因子 (TNF) α、白细胞介素 (IL) 1和IL 6的含量。结果　微粒组的细胞上清液中溶骨性因子含量明显高于对照组 (P <0 .0 1) ;而阿可达组和密钙息组的溶骨性因子含量明显低于微粒组 (P <0 .0 1)。结论　阿可达和密钙息能有效地抑制微粒刺激单核巨噬细胞分泌溶骨性因子 ,从而间接抑制破骨细胞的活性。     

髋关节直接外侧切口在关节置换中的应用

应用髋关节直接外侧切口进行髋关节假体置换１１３例，其中全髋关节置换６４例，双极人工股骨头置换４９例。平均随访时间５．７个月，未见重要神经、血管损伤及早期脱位等并脱位等并发症。作通过尸解发现臀中肌后１／３纤维及其肌腱增厚，其纤维方向与股骨干纵轴一致，并位于股骨轴线后方。该切口最适合在关节置换中应用。     

交叉韧带重建手术中可吸收挤压螺钉的应用

目的探讨交叉韧带重建术中可吸收挤压螺钉的使用方法和疗效。方法总结53例交叉韧带重建病例使用可吸收挤压螺钉的情况，在术中、术后并发症、术后康复、膝关节功能状况等方面进行回顾性分析。结果三例出现韧带切割现象。两例股骨侧螺钉拧入后导引针无法拔出。一例挤压螺钉断裂。术后Lysholm评分平均92.4±4．1。结论交叉韧带重建术中使用可吸收挤压螺钉固定的方法固定牢固，术后恢复快，利于早期康复。     

不同持续时间的周期性压力对构建组织工程软骨的影响

Objective To determine the best duration for exerting the cyclic pressure under which the tissue-engineered cartilage is constructed. Methods Free chondrocytes isolated from rabbit articular cartilage were seeded into polylactic acid-co-glycolic acid(PLGA) scaffolds after expansion in vitro, and ran-domized into 4 groups. In Groups 1 to 3, chondrocytes were cultured under daily cyclic pressure (0 ～ 200 kPa, 0.1Hz) for 4 hours, 8 hours, 12 hours respectively; Group 4 was a control in which no pressure was exerted. In each group, after 2 weeks of culture, the tissue engineered cartilages were observed in vitro and assessed by his-tological staining of liE. Next, the content of DNA and the secretion of type Ⅱ collagen and GAG in cartilages were detected quantitatively. Results Under the daily cyclic pressure (0 ～200 kPa, 0.1 Hz), the scaf-fold-chondrocytes complex in the group of 8 hours got the largest volume, smooth, lucidus, and elastic surface, the most queuing chondrocytes, and the highest content of type Ⅱ collagen and GAG (P < 0.01). Conclusions Since chondrecytes are baro-senstive, the metabolism of chondrocytes can be affected by the time of cyclic pressure. Under the effect of 0 ～200 kPa, 0.1Hz, the daily cyclic pressure of 8 hours may be optimal for chondrocytes to multiply and synthesize extracellular matrixes such as type Ⅱ collagen and GAG.     

不同持续时间的周期性压力对构建组织工程软骨的影响

Objective To determine the best duration for exerting the cyclic pressure under which the tissue-engineered cartilage is constructed. Methods Free chondrocytes isolated from rabbit articular cartilage were seeded into polylactic acid-co-glycolic acid(PLGA) scaffolds after expansion in vitro, and ran-domized into 4 groups. In Groups 1 to 3, chondrocytes were cultured under daily cyclic pressure (0 ～ 200 kPa, 0.1Hz) for 4 hours, 8 hours, 12 hours respectively; Group 4 was a control in which no pressure was exerted. In each group, after 2 weeks of culture, the tissue engineered cartilages were observed in vitro and assessed by his-tological staining of liE. Next, the content of DNA and the secretion of type Ⅱ collagen and GAG in cartilages were detected quantitatively. Results Under the daily cyclic pressure (0 ～200 kPa, 0.1 Hz), the scaf-fold-chondrocytes complex in the group of 8 hours got the largest volume, smooth, lucidus, and elastic surface, the most queuing chondrocytes, and the highest content of type Ⅱ collagen and GAG (P < 0.01). Conclusions Since chondrecytes are baro-senstive, the metabolism of chondrocytes can be affected by the time of cyclic pressure. Under the effect of 0 ～200 kPa, 0.1Hz, the daily cyclic pressure of 8 hours may be optimal for chondrocytes to multiply and synthesize extracellular matrixes such as type Ⅱ collagen and GAG.     

G蛋白耦联受体激酶结合蛋白1通过调节细胞外调节激酶1/2的活性促进成骨细胞迁移

目的探索G蛋白耦联受体激酶结合蛋白1(GITI)在成骨细胞迁移中的作用,并分析其机理。方法通过Western blot方法检测GIT1蛋白在鼠的成骨细胞内的表达；用免疫荧光染色方法确定：在血小板衍生生长因子(PDGF)不刺激和刺激的条件下,GIT1和细胞外调节激酶1/2(ERK1/2)在成骨细胞内的位置；用共同免疫沉淀的方法测定GIT1和ERK1/2相互结合,并且用免疫荧光双染的方法确定这两种蛋白相互结合的位置；用包含GIT1-RNA发夹结构的腺病毒感染成骨细胞后,用免疫荧光染色方法确定磷酸化ERK1/2(pERK1/2)在成骨细胞内的位置,用划痕愈合法检测在PDGF刺激下的迁移能力。结果在成骨细胞内,PDGF刺激导致了GIT1和ERK1/2的相互结合,并且这种结合发生在成骨细胞的局部粘附内。包含GIT1-RNA发夹结构的腺病毒明显抑制了pERK1/2招募至成骨细胞局部粘附内以及PDGF所刺激的成骨细胞的迁移。结论在PDGF刺激下,GIT1招募pERK1/2至成骨细胞的局部粘附内,从而促进成骨细胞的迁移。