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Keyword [osteocyte]
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21. The Role Of ClC-5 In Bone Loss Under Simulated Weightlessness And It’s Preliminary Study Of The Mechanism
22. The Study Of The Correlation Between Phosphorus Metabolic Abnormalities And Alveolar Bone Loss Under The Conditions Of Simulated Weightlessness
23. Effect And Mechanism Of Metformin On High Glucose Damaged-osteocytes Under Fluid Shear Stress
24. The Study Of Curcumol On Proliferation And Apoptosis Of Multiple Myeloma Cells
25. Role Of PTH And Its Receptor Signaling Pathway In The Mechanism Of Skeletal Fluorosis Based On Osteocytes
26. Theranostic System With Combination Of Plumbagin And Zoledronic Acid To Attenuate Breast Cancer Bone Metastasis
27. Effect Of FNDC5/Irisin And Its Homologue FNDC4 In Bone Metabolism
28. Effects Of High Glucose On The Expression And Channel Function Of Connexin43 In Osteocytes And Its Mechanism Research
29. Effect Of Osteocytic Wnt/Beta-Catenin Signaling Pathway On Osteoblastic Differentiation Of BMSCs
30. Preliminary Experimental Research On The Effects And Mechanisms Of NFAT On Mechanical Signal Transduction In Osteocyte
31. Bone-protective Property And Mechanisms Of Metformin On UHMWPE Particle-induced Osteolysis Via Mature Osteocytes
32. Action Of Parathyroid Hormone In Effect Of Fluoride On Osteocyte-Modulated Osteoclastic Differentiation
33. Study Of Osteocytic Smad4 Mechanism In Bone Development
34. Study On The Effects Of Different Stress States At Implant-bone Interface On Surrounding Bone
35. The Effect And Mechanism On Bone Formation Of Bone Marrow Stromal Cell When Activating Wnt Signaling In The Osteocyte Of Aged Mice
36. The Efficacy Study Of Herbal Pair Radix Achyranthis Bidentatae And Eucommia Ulmoides Oliv. For Preventing Glucocorticoid Induced Osteoporosis By Uniform Design
37. Regulation of connexin 43 hemichannels by mechanical loading, integrins and activated kinases in bone osteocytes
38. Roles of integrins in flow induced mechanotransduction in osteocytes
39. The effects of strain and perilacunar environment on the mechanotransduction of osteocyte
40. Application of a Novel Quasi-3D Microscopy Technique to Investigate Early Osteocyte Mechanotransduction Events
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