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1.发明申请FABRICATION METHOD FOR STRATIFIED AND LAYERED TISSUE TO REPAIR OSTEOCHONDRAL DEFECTS 有权分层和层状组织修复骨质疏松症的制造方法公开(公告)号:US20140242140A1
公开(公告)日:2014-08-28
申请号:US14194207
申请日:2014-02-28
Applicant: Purdue Research Foundation
Inventor: Corey P. Neu , Tyler A. Novak , Garrett Shannon
IPC: A61K38/39
CPC classification number: A61K38/39
Abstract: Fabrication method for stratified and layered tissue to repair osteochondral defects. In a method of the present disclosure, the method comprises the step of applying a first direction magnetic field to a first quantity of a first collagen solution to align collagen within the first collagen solution in a first direction relative to the first direction magnetic field, forming a first layer of collagen. In a method of generating an aligned collagen layer of the present disclosure, the method comprises applying a first magnetic field at or greater than 0.1 Tesla to a layer of a first collagen solution defining a horizontal plane, within a temperature at or between 2° C. and 45° C., to generate an aligned collagen layer.
Abstract translation: 分层和层状组织修复骨软骨缺损的制备方法。 在本公开的方法中,该方法包括以下步骤:向第一量的第一胶原溶液施加第一方向磁场,以使第一胶原溶液中的胶原相对于第一方向磁场在第一方向上,形成 第一层胶原蛋白。 在产生本公开的对准的胶原层的方法中,所述方法包括在等于或在2℃的温度下,将等于或大于0.1特斯拉的第一磁场施加到限定水平面的第一胶原溶液层 和45℃,以产生对准的胶原层。
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Patent Agency Ranking
2.发明授权AFM-coupled microscale radiofrequency probe for magnetic resonance imaging and spectroscopy 有权用于磁共振成像和光谱的AFM耦合微型射频探头公开(公告)号:US08884608B2
公开(公告)日:2014-11-11
申请号:US14351055
申请日:2012-10-10
Applicant: Purdue Research Foundation
Inventor: Corey P. Neu , Babak Ziaie , Teimour Maleki-Jafarabadi , Charilaos Mousoulis
CPC classification number: G01R33/4808 , G01N24/08 , G01Q20/04 , G01Q30/02 , G01Q60/08 , G01Q60/52 , G01Q70/16 , G01R33/341 , G01R33/46
Abstract: The present disclosure is discloses the development of a new device, system, and method that combines advantages of magnetic resonance and atomic force microscopy technologies, and the utility of the new device, system, and method for a wide range of biomedical and clinical researchers. According to one aspect of the present disclosure, a device for micro-scale spectroscopy is disclosed. The micro-scale spectroscopy device includes a beam having a distal end, a proximal end, a top surface and a bottom surface, where the beam is attached to an anchor at the proximal end and further includes a tip extending substantially perpendicular from the bottom surface at or near the distal end, and a coil having at least one turn mounted to the top surface of the beam at or near the distal end opposite the tip, where the coil is capable of both transmitting and sensing electromagnetic radiation.
Abstract translation: 本公开公开了一种结合磁共振和原子力显微技术的优点的新器件,系统和方法的开发,以及用于广泛的生物医学和临床研究者的新器件,系统和方法的实用性。 根据本公开的一个方面,公开了一种用于微尺度光谱的装置。 微型光谱装置包括具有远端,近端,顶表面和底表面的光束,其中光束附接到近端处的锚固件,并且还包括从底表面基本垂直延伸的尖端 在远端处或附近,以及具有至少一个匝的线圈,其安装到梁的顶表面处,或者与尖端相对的远端附近,其中线圈能够传输和感测电磁辐射。
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3.发明申请AFM-COUPLED MICROSCALE RADIOFREQUENCY PROBE FOR MAGNETIC RESONANCE IMAGING AND SPECTROSCOPY 有权用于磁共振成像和光谱的AFM耦合微结构无线电探头公开(公告)号:US20150067932A1
公开(公告)日:2015-03-05
申请号:US14538328
申请日:2014-11-11
Applicant: Purdue Research Foundation
Inventor: Corey P. Neu , Babak Ziaie , Teimour Maleki-Jafarabadi , Charilaos Mousoulis , Xin Xu
CPC classification number: G01Q60/38 , G01Q30/02 , G01R33/302 , G01R33/34007 , G01R33/34084 , G01R33/465 , G01R33/4808 , G01R33/5601
Abstract: A method of using a AFM/NMR probe, the method comprising the steps of injecting a sample to be analyzed with magnetic particles, introducing a probe into proximity with the sample, the probe capable of both transmitting and sensing electromagnetic radiation; generating a magnetic field via the probe, and adjusting the magnitude of the magnetic field to manipulate the magnetic particles within the sample.
Abstract translation: 一种使用AFM / NMR探针的方法,所述方法包括以下步骤:用磁性颗粒注入待分析的样品,将探针引入样品附近,所述探针能够传输和感测电磁辐射; 通过探针产生磁场,并调整磁场的大小以操纵样品内的磁性颗粒。
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公开(公告)号:US09616110B2
公开(公告)日:2017-04-11
申请号:US14194207
申请日:2014-02-28
Applicant: Purdue Research Foundation
Inventor: Corey P. Neu , Tyler A. Novak , Garrett Shannon
IPC: A61K38/39
CPC classification number: A61K38/39
Abstract: Fabrication method for stratified and layered tissue to repair osteochondral defects. In a method of the present disclosure, the method comprises the step of applying a first direction magnetic field to a first quantity of a first collagen solution to align collagen within the first collagen solution in a first direction relative to the first direction magnetic field, forming a first layer of collagen. In a method of generating an aligned collagen layer of the present disclosure, the method comprises applying a first magnetic field at or greater than 0.1 Tesla to a layer of a first collagen solution defining a horizontal plane, within a temperature at or between 2° C. and 45° C., to generate an aligned collagen layer.
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5.发明申请AFM-COUPLED MICROSCALE RADIOFREQUENCY PROBE FOR MAGNETIC RESONANCE IMAGING AND SPECTROSCOPY 有权用于磁共振成像和光谱的AFM耦合微结构无线电探头公开(公告)号:US20140237690A1
公开(公告)日:2014-08-21
申请号:US14351055
申请日:2012-10-10
Applicant: PURDUE RESEARCH FOUNDATION
Inventor: Corey P. Neu , Babak Ziaie , Teimour Maleki-Jafarabadi , Charilaos Mousoulis
CPC classification number: G01R33/4808 , G01N24/08 , G01Q20/04 , G01Q30/02 , G01Q60/08 , G01Q60/52 , G01Q70/16 , G01R33/341 , G01R33/46
Abstract: The present disclosure is discloses the development of a new device, system, and method that combines advantages of magnetic resonance and atomic force microscopy technologies, and the utility of the new device, system, and method for a wide range of biomedical and clinical researchers. According to one aspect of the present disclosure, a device for micro-scale spectroscopy is disclosed. The micro-scale spectroscopy device includes a beam having a distal end, a proximal end, a top surface and a bottom surface, where the beam is attached to an anchor at the proximal end and further includes a tip extending substantially perpendicular from the bottom surface at or near the distal end, and a coil having at least one turn mounted to the top surface of the beam at or near the distal end opposite the tip, where the coil is capable of both transmitting and sensing electromagnetic radiation.
Abstract translation: 本公开公开了一种结合磁共振和原子力显微技术的优点的新器件,系统和方法的开发,以及用于广泛的生物医学和临床研究人员的新器件,系统和方法的实用性。 根据本公开的一个方面,公开了一种用于微尺度光谱的装置。 微型光谱装置包括具有远端,近端,顶表面和底表面的光束,其中光束附接到近端处的锚固件,并且还包括从底表面基本垂直延伸的尖端 在远端处或附近,以及具有至少一个匝的线圈,其安装到梁的顶表面处,或者与尖端相对的远端附近,其中线圈能够传输和感测电磁辐射。
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6.发明授权AFM-coupled microscale radiofrequency probe for magnetic resonance imaging and spectroscopy 有权用于磁共振成像和光谱的AFM耦合微型射频探头公开(公告)号:US09500671B2
公开(公告)日:2016-11-22
申请号:US14538328
申请日:2014-11-11
Applicant: Purdue Research Foundation
Inventor: Corey P. Neu , Babak Ziaie , Teimour Maleki-Jafarabadi , Charilaos Mousoulis , Xin Xu
CPC classification number: G01Q60/38 , G01Q30/02 , G01R33/302 , G01R33/34007 , G01R33/34084 , G01R33/465 , G01R33/4808 , G01R33/5601
Abstract: A method of using a AFM/NMR probe, the method comprising the steps of injecting a sample to be analyzed with magnetic particles, introducing a probe into proximity with the sample, the probe capable of both transmitting and sensing electromagnetic radiation; generating a magnetic field via the probe, and adjusting the magnitude of the magnetic field to manipulate the magnetic particles within the sample.
Abstract translation: 一种使用AFM / NMR探针的方法,所述方法包括以下步骤:用磁性颗粒注入待分析的样品,将探针引入样品附近,所述探针能够传输和感测电磁辐射; 通过探针产生磁场,并调整磁场的大小以操纵样品内的磁性颗粒。
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