机译:LXR调节剂可阻断前列腺素E_2的产生和软骨中基质的降解,并减轻大鼠骨关节炎模型的疼痛
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
Global BioTherapeutics Technologies, Cambridge, MA 02140;
Global BioTherapeutics Technologies, Cambridge, MA 02140;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Collegeville, PA 19426;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Collegeville, PA 19426;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Collegeville, PA 19426;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
Tissue Repair Research Unit, Pfizer BioTherapeutics Research, Cambridge, MA 02140;
cartilage; pain; prostaglandin E2;
机译:电针缓解了软骨降解:通过膝关节骨关节炎兔模型中的疼痛缓解和肌肉功能的痛苦改善了软骨生物力学
机译:软骨降解生物标志物预测新型高选择性基质金属蛋白酶13抑制剂在骨关节炎狗模型中的功效:通过多变量分析证实II型胶原蛋白和聚集蛋白聚糖降解肽的调节与病理变化平行
机译:软骨降解生物标志物预测新型高选择性基质金属蛋白酶13抑制剂在骨关节炎狗模型中的功效:通过多变量分析证实II型胶原蛋白和聚集蛋白聚糖降解肽的调节与病理变化平行
机译:实验诱发的基质降解以模拟早期骨关节炎后,人和牛关节软骨在30 MHz处的声学参数变化
机译:创伤后骨关节炎模型的开发,以评估撞击速度和最大应变对关节软骨细胞生存力,基质生物标志物和材料特性的影响。
机译:LXR调节剂可阻断前列腺素E2的产生和软骨中基质的降解并减轻大鼠骨关节炎模型的疼痛
机译:LXR调节剂可阻断前列腺素E2的产生和软骨中基质的降解,并减轻大鼠骨关节炎模型的疼痛