The periosteal expansion osteogenesis method employing an in-body embedded device with non-contacting drive which has the micromachine technology installed

采用微机械技术的非接触驱动体内嵌入装置的骨膜扩张成骨方法

• 批准号: 24659887
• 负责人: SUGIYAMA Madoka
• 金额: $ 2.33万
• 依托单位: The University of Tokyo
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for Challenging Exploratory Research
• 财政年份: 2012
• 资助国家: 日本
• 起止时间: 2012-04-01 至 2014-03-31
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/en/grant/KAKENHI-PROJECT-24659887/
• 关键词: 医用マイクロマシン; 口腔外科学

We aimed at pioneering the bone augmentation method with high precognition and safety by developing the periosteal expansion osteogenesis method with an in-body embedded type non-contacting drive device using a micro-actuator. The non-contacting detection type power sensor using quartz crystals and the non-contacting type bone extension device were developed, and the output enhancement of the non-contacting type bone extension device was considered.The validation of the actuator has been checked in an driving experiment.The improvement of the actuator performance is aimed at by conducting further experiments, and the periosteum expansion is controlled by detecting the stress produced between the bone and the periosteum.

我们旨在通过使用微实施仪使用体内嵌入式型非接触式驱动器件来开发骨膜扩张骨化方法，以高度认识和安全性开创骨增强方法。 The non-contacting detection type power sensor using quartz crystals and the non-contacting type bone extension device were developed, and the output enhancement of the non-contacting type bone extension device was considered.The validation of the actuator has been checked in an driving experiment.The improvement of the actuator performance is aimed at by conducting further experiments, and the periosteum expansion is controlled by detecting the stress produced between the bone and the骨膜。

项目成果

水晶振動子の非線形弾性率を用いた非接触力センサ

利用晶体振荡器非线性弹性模量的非接触式力传感器

• 发表时间: 2013
• 作者: Hatano H;Ogawa I;Shigeishi H;Kudo Y;Ohta K;Higashikawa K;Takechi M;Takata T;Kamata N.;杉山円,西條英人,菅野勇樹,末永英之,森良之,星和人,高戸毅;内保徹平,宇塚和夫,末永英之,森田剛
• 通讯作者: 内保徹平,宇塚和夫,末永英之,森田剛

革新的異分野技術を融合した歯科を主導とする次世代デバイス開発プロジェクト

由牙科主导的下一代设备开发项目，结合了不同领域的创新技术。

• 发表时间: 2012
• 期刊: 日本歯科医学会誌
• 作者: Suenaga H;Hoang Tran H;Liao H;Masamune K;Dohi T;Hoshi K;Mori Y;Takato T;斉藤健太郎,末永英之,杉山円,宇波雅人,大久保和美,瀬戸一郎,小笠原徹,星和人,森良之,高戸毅
• 通讯作者: 斉藤健太郎,末永英之,杉山円,宇波雅人,大久保和美,瀬戸一郎,小笠原徹,星和人,森良之,高戸毅

チタンメッシュトレーを用いた海綿骨細片(PCBM)による二次的下顎顎骨再建後にインプラントを用いて咬合回復を行なった1例

使用钛网托盘使用松质骨碎片 (PCBM) 进行二次下颌重建后使用种植体进行咬合修复的案例

• 发表时间: 2012
• 作者: Hatano H;Ogawa I;Shigeishi H;Kudo Y;Ohta K;Higashikawa K;Takechi M;Takata T;Kamata N.;杉山円,西條英人,菅野勇樹,末永英之,森良之,星和人,高戸毅;内保徹平,宇塚和夫,末永英之,森田剛;横瀬誉実,宇塚和夫,末永英之,佐々木健,森田剛;杉山円,西條英人,瀬戸一郎,末永英之,阿部雅修,星和人,森良之,高戸毅
• 通讯作者: 杉山円,西條英人,瀬戸一郎,末永英之,阿部雅修,星和人,森良之,高戸毅

Study of non-contact force sensor using quartz crystal resonator and a pair of spiral coils

使用石英晶体谐振器和一对螺旋线圈的非接触式力传感器的研究

• 发表时间: 2013
• 作者: Uchino T;Uzuka K;Suenaga H;Morita T
• 通讯作者: Morita T

再建顎に併用したチタンメッシュトレーと腸骨海綿骨移植によるin situ tissue engineeringの臨床経験

原位组织工程钛网托盘联合髂骨松质骨移植重建颌骨的临床经验

• 发表时间: 2013
• 作者: Hatano H;Ogawa I;Shigeishi H;Kudo Y;Ohta K;Higashikawa K;Takechi M;Takata T;Kamata N.;杉山円,西條英人,菅野勇樹,末永英之,森良之,星和人,高戸毅
• 通讯作者: 杉山円,西條英人,菅野勇樹,末永英之,森良之,星和人,高戸毅