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Keyword [Low magnitude]
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1. Osteoporosis Process Simulation And Experimental Study On Osteoporosis Treatment Based On High-frequency Low-Magnitude Vibration
2. Effects And Mechanisms Of Low Magnitude High Frequency Vibration On Characteristics Of Osteoblasts In Vitro
3. Animal Experimental Study And Development Of Equipment For Osteoporosis Treatment Based On High-Frequency, Low-Magnitude Vibration
4. Experimental Study On Different Cycles Of Vibration Treatment To Osteoporosis Of Suspended Rats
5. The Experimental Study Of Ovariectomized Rats For Osteoporosis Based On High-Frequency Low-Magnitude Vibration Of Different Cycles
6. Effects And Mechanism Of Low-magnitude, High-frequency Compound Vibration On Osteoclast Differentiation
7. The Animal Research Of High-frequency And Low-magnitude Mechanical Vibration With Intermittent Intervals In Treating Osteoporosis And Short Clinical Trials
8. A Clinical Trial Of High-frequency Low-magnitude Mechanical Vibration As A Countermeasure Against Osteoporosis
9. Effect Of Low-magnitude Whole-body Vibration Combined With Alendronate In Ovariectomized Rats:A Random Controlled Osteoporosis Prevention Study
10. The Effect Of Low-magnitude And High-frequency Vibraion On Human Skin Fibroblast: In Vitro Study
11. Experimental Study Of Continuous Or Intermittent Low-magnitude Mechanical Loading In Proliferation And Differentiation Potency Of Osteoblast
12. Experimental Study On The Effects Of Continuous And Intermittent Mechanical Vibrations On Bone Fracture Healing
13. Nano-level Mechanical And Morphological Study Of Low-magnitude Vibration In Bone Healing
14. An Experiment For Selecting The Optimum Period Concerning The Effect Of Low-Magnitude Mechanical Vibration On Fracture Healing
15. The Effects Of Additional Weight Bearing In Combination With Low-Magnitude High-Frequency Vibration On Bone Mechanical Properties Of Rats
16. The Role And Mechanism Of Primary Cilia/PGE2-related Signal Pathway In Low-magnitude High-frequency Vibration-induced Effects In Osteoblasts
17. Experimental Study On The Mechanism Of Osteogenic Differentiation Of Osteoblasts Induced By Intermittent Low-magnitude High-frequency Mechanical Vibration
18. Effect of low-magnitude high-frequency vibration on fracture healing in normal and osteoporotic bones
19. Evaluating the Potential of Low Magnitude Mechanical Signals as a Means of Preserving Postural Control in the Aged and Disabled
20. Effects of Low Magnitude High Frequency Vibration on Blood Flow and Angiogenesis during Fracture Healing in Normal and Osteoporotic Bones
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