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公开(公告)号:US20090306801A1
公开(公告)日:2009-12-10
申请号:US12472984
申请日:2009-05-27
申请人: Mark L. Sivak , Richard G. Ranky , Joseph A. DiPisa , Alyssa Leigh Caddle , Kara Lyn Gilhooly , Lauren Chiara Govoni , Seth John Sivak , Michael Lancia , Paolo Bonato , Constantinos Mavroidis
发明人: Mark L. Sivak , Richard G. Ranky , Joseph A. DiPisa , Alyssa Leigh Caddle , Kara Lyn Gilhooly , Lauren Chiara Govoni , Seth John Sivak , Michael Lancia , Paolo Bonato , Constantinos Mavroidis
IPC分类号: G06F17/50
CPC分类号: A61F5/0111 , A61F5/0113 , B33Y80/00
摘要: The unique advantages of computer-controlled fabrication of a patient-specific orthotic device using an automated fabrication machine capable of following computer instructions to create 3D surface contours and new developments in non-invasive three-dimensional (3D) scanning have made it possible to acquire digital models of freeform surfaces such as the surface anatomy of the human body and to then fabricate such a patient-specific device with high precision. Such a patient-specific device brings significant improvement in patient-specific fit, comfort, and function of medical devices (and, in particular, to orthoses that require a close fit to the wearer's body to act effectively). The combination of these two technologies is ideally suited for the development of patient-specific orthotic devices.A patient specific ankle-foot orthotic device using this technology is disclosed. This exemplary device is used to help stabilize the ankle-foot region, for example, in patients with impaired gait.
摘要翻译: 使用能够遵循计算机指令创建3D表面轮廓和非侵入性三维(3D)扫描的新开发)的自动化制造机的计算机控制制造患者特异性矫正装置的独特优点使得有可能获得 自由形状表面的数字模型,例如人体的表面解剖结构,然后以高精度制造这样的患者特异性装置。 这样的患者特异性装置显着改善了医疗装置(特别是需要与穿戴者身体紧密配合以有效地起作用的矫形器)的患者特异性配合,舒适性和功能。 这两种技术的结合非常适用于患者特异性矫正装置的开发。 公开了一种使用该技术的患者具体的脚踝矫正装置。 该示例性装置用于帮助稳定踝足部区域,例如在步态障碍患者中。
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公开(公告)号:US08838263B2
公开(公告)日:2014-09-16
申请号:US12472984
申请日:2009-05-27
申请人: Mark L. Sivak , Richard G. Ranky , Joseph A. DiPisa , Alyssa Leigh Caddle , Kara Lyn Gilhooly , Lauren Chiara Govoni , Seth John Sivak , Michael Lancia , Paolo Bonato , Constantinos Mavroidis
发明人: Mark L. Sivak , Richard G. Ranky , Joseph A. DiPisa , Alyssa Leigh Caddle , Kara Lyn Gilhooly , Lauren Chiara Govoni , Seth John Sivak , Michael Lancia , Paolo Bonato , Constantinos Mavroidis
CPC分类号: A61F5/0111 , A61F5/0113 , B33Y80/00
摘要: The unique advantages of computer-controlled fabrication of a patient-specific orthotic device using an automated fabrication machine capable of following computer instructions to create 3D surface contours and new developments in non-invasive three-dimensional (3D) scanning have made it possible to acquire digital models of freeform surfaces such as the surface anatomy of the human body and to then fabricate such a patient-specific device with high precision. Such a patient-specific device brings significant improvement in patient-specific fit, comfort, and function of medical devices (and, in particular, to orthoses that require a close fit to the wearer's body to act effectively). The combination of these two technologies is ideally suited for the development of patient-specific orthotic devices.A patient specific ankle-foot orthotic device using this technology is disclosed. This exemplary device is used to help stabilize the ankle-foot region, for example, in patients with impaired gait.
摘要翻译: 使用能够遵循计算机指令创建3D表面轮廓和非侵入性三维(3D)扫描的新开发)的自动化制造机的计算机控制制造患者特异性矫正装置的独特优点使得有可能获得 自由形状表面的数字模型,例如人体的表面解剖结构,然后以高精度制造这样的患者特异性装置。 这样的患者特异性装置显着改善了医疗装置(特别是需要与穿戴者身体紧密配合以有效地起作用的矫形器)的患者特异性配合,舒适性和功能。 这两种技术的结合非常适用于患者特异性矫正装置的开发。 公开了一种使用该技术的患者具体的脚踝矫正装置。 该示例性装置用于帮助稳定踝足部区域,例如在步态障碍患者中。
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