1. |
2012/09 |
Beta-adrenergic signaling directly stimulates osteoclastogenesis via reactive oxygen species.(The 1st Asia-Pacific Bone and Mineral Research Meeting with the ANZBMS 22nd Annual Scientific Meeting.) |
2. |
2012/09 |
Comparison of beta-adrenergic and glucocorticoid signaling on clock gene and osteoblast-related gene expressions in human osteoblast and osteosarcoma cell.(The 1st Asia-Pacific Bone and Mineral Research Meeting with the ANZBMS 22nd Annual Scientific Meeting.) |
3. |
2012/09 |
Experimental tooth movement-induced osteoclast activation is regulated by sympathetic signaling.(The 1st Asia-Pacific Bone and Mineral Research Meeting with the ANZBMS 22nd Annual Scientific Meeting.) |
4. |
2012/09 |
Generation of osteoclast circadian rhythm by glucocorticoid.(The 1st Asia-Pacific Bone and Mineral Research Meeting with the ANZBMS 22nd Annual Scientific Meeting.) |
5. |
2012/09 |
Involvement of sympathetic nervous sytem on experimental tooth mobement. |
6. |
2012/07 |
Glucocorticoids generate osteoclast circadian rythm.(第30回日本骨代謝学会) |
7. |
2012/06 |
Experimental tooth movement regulated by sympathetic nervous system.(第47回 骨カルシウム研究会) |
8. |
2012/06 |
Sympathetic signaling accelerate osteoclastogenesis through bone oxidative damage via Apoptosisi signal Regjlating Kinase(第32回日本歯科薬物療法学会) |
9. |
2011/12 |
Alpha-lipoic acid prevents beta-adrenergic receptor agonist-induced osteoporosis. |
10. |
2011/11 |
Sympathetic and glucocorticoids regulate clock gene on human osteoblast.(第50回小児歯科学会) |
11. |
2011/10 |
Sympathetic signaling contributes to the experimental tooth movement.(第53回歯科基礎医学会) |
12. |
2011/07 |
The effect of α-lipoic acid on β-adrenergic receptor agonist-induced osteoporosis.(第29回日本骨代謝学会29th) |
13. |
2010/09 |
The role of CLOCK GENES expression in human osteoblasts (SaM-1 cells).(第52回歯科基礎医学会) |
14. |
2010/07 |
Continuous treatment with a low-dose β-agonist reduces bone mass by increasing bone resorption without suppressing bone formation.(第28回日本骨代謝学会) |
15. |
2010/06 |
Sympathetic nervous signal accelerate osteoclastogenesis via the reactive oxygen species.(第45回骨カルシウム研究会) |
16. |
2009/12 |
Sympathetic nervous signal accelerate osteoclastogenesis through the reactive oxygen species.(第46回口腔組織培養学会) |
17. |
2009/09 |
Comparison of bone mechanical properties in rats with chemical sympathectomy and sensory nerve ablation.(第51回歯科基礎医学会) |
18. |
2009/09 |
Sympathetic signal accelerate osteoclastogenesis through the reactive oxygen species.(The 31nd American Society for Bone and Mineral Research.) |
19. |
2009/07 |
Sympathetic nervous signal accelerate osteoclastogenesis through the reactive oxygen species.(The 27th Japanese Society for Bone and Mineral Research.) |
20. |
2008/06 |
The Effects of spaceflight during Foton M3 on gamma radiosensitivity of bone and cartilage tissues(Life in Space for Life on Earth.) |
21. |
2008 |
Direct neurite-osteoblastic cell communication, as demonstrated by use of an in vitro co-culture system.(第26回日本骨代謝学会) |
22. |
2007/09 |
Increased active osteoclasts are associated with acute cancellous bone loss in adult mice exposed to ionizing radiation and musculoskeletal disuse.(28th American Society for Bone and Mineral Research.) |
23. |
2007/08 |
Changes in osteoblastogensis and osteoclastogenesis induced by irradiation and/or hidlimb unloading.(1th NASA Radiation Research) |
24. |
2007/08 |
Effects of radiation on MDA levels in bone.(11th Ames Summer Science Day.) |
25. |
2007/07 |
A single dose of gamma or proton radiation rapidly compromises skeletal structure of adult mice(13th International Congress of Radiation Research) |
26. |
2007/07 |
A single dose of gamma or proton radiation rapidly compromises skeletal structure of adult mice.(13th International Congress Radiation Research.) |
27. |
2007/07 |
Cellular Mechanisms for Acute Cancellous Bone Loss in Adults Caused by Radiation and Simulated Weightlessness.(18th Annual NASA Space Radiation Investigators' Workshop.) |
28. |
2006/11 |
Hypergravity increases osteoblastogenesis and osteoclastogenesis by bone marrow cells in culture.(American Society for gravitational and space biology) |
29. |
2006/10 |
Radiation and hypergravity both stimulate production of reactive oxygen species by bone marrow cells, and affect cell growth and differentiation.(27th American Society for Bone and Mineral Research.) |
30. |
2006/08 |
Mechanical stress and the nitric oxide pathway in bone marrow stromal cells.(10th Ames Summer Science Day) |
31. |
2006 |
Investigations of effects of hypergravity and radiation on proliferation of ROS cells.(10th Ames Summer Science Day) |
32. |
2006 |
Shared oxidative pathway in response to gravity-dependent loading and gamma irradiation of bone marrow-derived skeletal cell progenitors.(4th Annual International Workshop on Space Radiation Research and 17th Annual NASA Space Radiation Investigators' Workshop.) |
33. |
2005/09 |
Identification of transient receptor protential vanilloid 4 (TRPV4) to be mechanosensitive channel that mediates bone loss due to unloading.(27th American Society for Mineral Research) |
34. |
2005/09 |
MuRF1, which induces denervation-dependent protein degradation in muscle is incolned in unloading-induced bone loss.(27th American Society for Mineral Research) |
35. |
2005/08 |
Sympathetic nervous system is involved in both unloading -induced suppression of bone formation rate and unloading-induced enhancement in osteoclast surface in vivo(第23回日本骨代謝学会) |
36. |
2005/06 |
Sympathetic Regulation of Uncoupling in Osteoporosis.(The1st Bone Loss during Space Flight Conference.) |
37. |
2004/12 |
Sympathetic Nervous System is Involved in Unloading-Induced Bone Loss(第27回日本分子生物学会) |
38. |
2004/10 |
Sympathetic nervous system is involved in both unloading -induced suppression of bone formation rate and unloading-induced enhancement in osteoclast surface in vivo.(The 26th American Society for Mineral Research.) |
39. |
2003/10 |
Unloading-induced bone loss occurs though the central control via sympathetic system.(25th American Society for Mineral Research.) |
40. |
2003/08 |
Apoptosis signal-regulating kinase 1 (ASK1) knockout mice revealed tail suspension-induced bone loss in C57B6 background.(第20回日本骨代謝学会) |
41. |
2002/09 |
Apoptosis signal-regulating kinas 1 (ASK1) knockout mice revealed tail suspension-induced bone Loss in C57B6 background and reduced expression of osterix gene.(The 24 th American Society for Mineral Research) |
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