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机译:Sclareol通过抑制NF-Kappa B和MAPK / ERK信号传导途径,防止体内诱导的体内骨质损失,并抑制骨质细胞发生,并抑制骨髓细胞发生。
Wenzhou Med Univ Affiliated Hosp 2 Key Lab Orthopaed Zhejiang Prov Wenzhou Peoples R China;
Wenzhou Med Univ Affiliated Hosp 2 Key Lab Orthopaed Zhejiang Prov Wenzhou Peoples R China;
Wenzhou Med Univ Affiliated Hosp 2 Key Lab Orthopaed Zhejiang Prov Wenzhou Peoples R China;
Wenzhou Med Univ Sch Med 2 Wenzhou Peoples R China;
Wenzhou Med Univ Affiliated Hosp 1 Dept Radiol Wenzhou Peoples R China;
Guangxi Med Univ Res Ctr Regenerat Med Guangxi Peoples R China;
Univ Western Australia Sch Biomed Sci Perth WA Australia;
Univ Western Australia Sch Biomed Sci Perth WA Australia;
Wenzhou Med Univ Affiliated Hosp 2 Key Lab Orthopaed Zhejiang Prov Wenzhou Peoples R China;
Univ Western Australia Sch Biomed Sci Perth WA Australia;
Wenzhou Med Univ Affiliated Hosp 2 Key Lab Orthopaed Zhejiang Prov Wenzhou Peoples R China;
Wenzhou Med Univ Affiliated Hosp 2 Key Lab Orthopaed Zhejiang Prov Wenzhou Peoples R China;
机译:Sclareol通过抑制NF-Kappa B和MAPK / ERK信号传导途径,防止体内诱导的体内骨质损失,并抑制骨质细胞发生,并抑制骨髓细胞发生。
机译:山楂酸通过调节RANKL介导的NF-κB和MAPK信号通路来抑制破骨细胞生成并防止卵巢切除术引起的骨质流失。
机译:通过体外衰减NF-κB和MAPKs信号传导途径来抑制RANKL介导的骨酸骨髓发生,并防止脂多糖治疗小鼠的骨丢失
机译:氧化铁纳米颗粒通过调节NF-kB和MAPK信号通路抑制RANKL诱导的破骨细胞生成
机译:与成年人相比,饮酒可导致青少年ERK / MAPK信号通路的差异性神经适应。
机译:KMUP-1抑制RANKL诱导的破骨细胞生成并预防卵巢切除术诱导的骨丢失:MAPKAktNF-κB和钙/钙调神经磷酸酶/ NFATc1途径的作用
机译:唾液酸抑制骨酸溶胶发生,通过调节RANKL介导的NF-κB和MAPK信号通路来防止卵巢切除诱导的骨质损失