青春期大鼠髁突软骨内润滑素的表达研究

目的研究无干预措施下青春期大鼠髁突软骨内润滑素的表达情况。方法选取5组5周龄的雌性SD大鼠(每组5只),软食喂养下分别于3、7、14、21和30 d处死,下颌骨髁突制作切片,行苏木素-伊红(HE)染色及Envision二步法进行免疫组织化学染色检查,应用倒置相差光学显微镜、光学显微照相系统观察和拍摄图片,测量润滑素阳性区域的累积光密度值,比较不同实验时点润滑素的表达情况。结果大鼠髁突软骨细胞具有独特的层域化分带;髁突全层均有润滑素的表达,其中静止层仅见少量润滑素表达;纤维层中,润滑素聚集在最表层细胞的细胞浆中;增殖层中,润滑素分布于整个软骨细胞中;肥大层中,润滑素分布于肥大的软骨陷窝内细胞质中,浅肥大层表达较强,靠近深肥大层逐渐减弱。在相同时点,髁突后部软骨增殖层润滑素阳性区域的累积光密度值均高于肥大层润滑素的累积光密度值(P均<0.05);在不同时点,髁突后部增殖层和肥大层润滑素阳性区域的平均累积光密度均无明显变化(P均>0.05)。结论在青春期SD大鼠髁突软骨中,润滑素表达水平呈现一定的连续性和稳定性,这为髁突生理性改建、下颌骨正常发育提供了良好的内环境。

1α,25(OH)_2D_3对大鼠关节软骨细胞润滑素表达的影响

目的在细胞水平,探讨1α,25(OH)2D3对软骨细胞润滑素合成和分泌的影响。方法使用炎性因子TNF-α对大鼠关节软骨细胞进行炎症干预,分别添加不同剂量1α,25(OH)2D3至正常及炎症状态下的软骨细胞,使用ELISA及Western Blot方法分别检测细胞上清中和细胞内润滑素分泌表达的变化,从而评估1α,25(OH)2D3对大鼠关节软骨细胞润滑素的调节作用。结果 TNF-α可以明显降低细胞活性,以及细胞内和细胞上清液中润滑素的表达分泌。1α,25(OH)2D3可以升高正常软骨细胞以及炎症状态下软骨细胞的活性,但是不能调节正常软骨细胞上清和胞内润滑素的分泌和表达。对于炎症状态的软骨细胞,1α,25(OH)2D3可以明显提高润滑素在细胞上清及细胞内的分泌表达,并有一定剂量依赖性。结论 1α,25(OH)2D3能够促进炎症状态下的软骨细胞润滑素的表达分泌,从而更好的保护软骨表面。

润滑素在肌骨系统损伤修复中的作用

润滑素在肌骨系统各组织如关节软骨、肌腱、滑膜等中广泛表达,其表达与肌骨系统组织结构以及病理状态紧密相关。润滑素在肌骨系统中表现出生物润滑、防止黏连、抑制滑膜细胞增殖和调节炎症等重要功能,对组织损伤修复有重要作用。总结润滑素的表达、调控、结构及其在肌骨系统损伤修复中的作用,为进一步探究润滑素在肌骨系统中的功能和机理以及为肌骨系统损伤的临床治疗提供理论依据。

人颞下颌关节骨关节炎滑膜成纤维细胞中血管生成及润滑相关因子的表达

目的:探究血管生成相关因子及润滑相关因子在颞下颌关节骨关节炎滑膜中的表达。方法:分离人颞下颌关节滑膜组织,组织块法进行滑膜成纤维细胞的原代及传代培养。流式细胞仪检测细胞中CD34及CD44的表达,Western blotting和荧光定量PCR分别用于检测VEGF和TSP1蛋白,PRG4,HAS2和HAS3基因的表达。结果:骨关节炎滑膜细胞中VEGF、CD34和HAS3的表达显著高于对照组,但TSP1蛋白、PRG4和HAS2基因的表达低于对照组。结论:在颞下颌关节骨关节炎滑膜成纤维细胞中,血管生成相关因子高表达,而提高润滑作用的基因表达降低,该现象可能与该病的疾病发展有关。

Investigation on tribological behaviors of neodymium dialkyldithiophosphate

Neodymium dialkylthiophosphate （NdDDP） with alkyls of isopropyl and isooctyl were synthesized by exchanged reaction respectively. The structures of the two NdDDPs were determined using IR and XRD. Properties of anti-wear and friction-reducing of the two additives were investigated with four ball experiment and the commercial anti-wear additive ZDDP was selected as control. The elemental analysis of the wear scars after 10 s friction at low stress were investigated by EDXA （Energy Dispersion Analysis of X-ray）. Primary results showed that the NdDDPs possess better lubrication ability than ZDDP. This might mainly be contributed to the formation of a boundary film containing Nd2O3, FeS and sulphate, phosphate, organo-sulfide, etc., and a neodymium-rich diffused layer which changes the crystal structure of the surface of friction materials.

专业操作，最优效益——杜邦Krytox^R高性能的氟素润滑产品

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Study on Preparation and Engine Bench Test of Friction-Reducing and Repairing Additive to Lubricating Oils

A new kind of friction-reducing and repairing additive containing nano-scale copper and rare earth compounds were prepared by means of synthesis and compounding methods. The performance of the said additive was investigated by engine bench test, and was compared to the performance of similar domestic and imported additives. The deterioration of lube oils containing additives over different time intervals was studied by means of plasma spectrometry and mass spectrometry, and the effect of additive package on engine power was also studied. Test results have revealed that the synthetic additive package can provide good anti-wear performance to the tribo-pairs. In particular, after 300 hour application of the said additive package the connection rod shaft and copper sleeve showed 'zero wear' to achieve the in situ dynamic repairing of tribo-pairs. Application of the said synthetic additive can effectively improve the engine power performance and extend the engine service life.

蛋白聚糖4在骨关节炎中的作用研究进展

蛋白聚糖4(proteoglycan 4, PRG4)是滑膜关节分泌的一种表面活性粘液糖蛋白,在维持关节软骨完整性中起着重要作用。在关节损伤、炎性关节疾病或蛋白聚糖4先天缺陷的患者中,由于其蛋白聚糖4不足,无法起到保护关节软骨的作用。研究表明,PRG4正作为一种新的生物治疗蛋白,用于骨关节炎的治疗研究,并在防止软骨表面损伤和保护软骨细胞方面发挥了重要作用。本文就蛋白聚糖4的结构和功能,以及其在骨关节炎治疗中的作用做一综述,为骨关节炎的治疗提供新思路。