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公开(公告)号:US20120316648A1
公开(公告)日:2012-12-13
申请号:US13371247
申请日:2012-02-10
申请人: Gregory H. Lambrecht , Robert Kevin Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
发明人: Gregory H. Lambrecht , Robert Kevin Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
IPC分类号: A61F2/44
CPC分类号: A61B17/320708 , A61B17/0057 , A61B17/0401 , A61B17/0487 , A61B2017/00261 , A61B2017/00659 , A61B2017/00663 , A61B2017/0404 , A61B2017/0414 , A61B2017/0417 , A61B2017/044 , A61B2017/0496 , A61B2017/22077 , A61B2017/320044 , A61B2017/3445 , A61B2090/061 , A61B2090/062 , A61F2/2846 , A61F2/30723 , A61F2/30907 , A61F2/441 , A61F2/442 , A61F2/4601 , A61F2/4611 , A61F2/4657 , A61F2002/2817 , A61F2002/30014 , A61F2002/30062 , A61F2002/30075 , A61F2002/30092 , A61F2002/30131 , A61F2002/30136 , A61F2002/30166 , A61F2002/30172 , A61F2002/30177 , A61F2002/30187 , A61F2002/302 , A61F2002/30224 , A61F2002/30228 , A61F2002/30261 , A61F2002/30289 , A61F2002/30291 , A61F2002/30462 , A61F2002/30566 , A61F2002/30571 , A61F2002/30576 , A61F2002/30583 , A61F2002/30589 , A61F2002/30601 , A61F2002/30677 , A61F2002/30777 , A61F2002/30785 , A61F2002/30841 , A61F2002/30909 , A61F2002/30971 , A61F2002/4435 , A61F2002/444 , A61F2002/448 , A61F2002/4627 , A61F2002/4635 , A61F2002/4658 , A61F2002/4661 , A61F2002/4662 , A61F2210/0004 , A61F2210/0014 , A61F2210/0061 , A61F2210/0085 , A61F2220/0075 , A61F2230/0004 , A61F2230/0013 , A61F2230/0028 , A61F2230/0034 , A61F2230/0052 , A61F2230/0056 , A61F2230/0065 , A61F2230/0069 , A61F2230/0082 , A61F2230/0091 , A61F2250/0018 , A61F2310/00017 , A61F2310/00023 , A61F2310/00029 , A61F2310/00161 , A61F2310/00293 , A61F2310/00365 , A61F2310/0097 , A61F2310/00976
摘要: An implant system for reinforcing an intervertebral disc and opposing endplate is provided wherein a flexible blocking member for blocking a defect is coupled to a first endplate anchor. An opposing endplate reinforcement member is coupled to a second endplate anchor and implanted in the opposing endplate.
摘要翻译: 提供了一种用于加强椎间盘和相对端板的植入系统,其中用于阻挡缺陷的柔性阻挡构件联接到第一端板锚。 相对的端板加强构件联接到第二端板锚固件并且植入在相对的端板中。
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公开(公告)号:US20110264227A1
公开(公告)日:2011-10-27
申请号:US13175278
申请日:2011-07-01
申请人: Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Gregory Lambrecht , Sean Kavanaugh
发明人: Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Gregory Lambrecht , Sean Kavanaugh
IPC分类号: A61F2/44
CPC分类号: A61B17/7056 , A61B17/0401 , A61B17/0642 , A61B17/0682 , A61B17/68 , A61B17/8085 , A61B2017/0409 , A61B2017/0414 , A61B2017/0647 , A61B2017/0649 , A61F2/442 , A61F2002/4435
摘要: Embodiments of the invention relate generally to tissue anchors and methods of delivering same to the intervertebral disc or other sites within the body. In some embodiments, the anchors provide pull-out resistance, stability and/or maximize contact with tissue involving a minimum amount of penetration. In some embodiments, delivery methods are minimally invasive and include linear, lateral, and off-angle implantation or driving of anchors along, against or within tissue surfaces.
摘要翻译: 本发明的实施例一般涉及组织锚和将其递送到椎间盘或体内其他部位的方法。 在一些实施例中,锚固件提供拉拔阻力,稳定性和/或最大限度地与涉及最小穿透量的组织接触。 在一些实施例中,递送方法是微创的,并且包括沿组织表面,靠近或在组织表面内的锚固件的线性,侧向和偏角植入或驱动。
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公开(公告)号:US20110196492A1
公开(公告)日:2011-08-11
申请号:US12524334
申请日:2008-09-05
申请人: Gregory Lambrecht , Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Sean Kavanaugh
发明人: Gregory Lambrecht , Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Sean Kavanaugh
IPC分类号: A61F2/44
CPC分类号: A61F2/442 , A61B17/0401 , A61B17/0642 , A61B17/0682 , A61B2017/0409 , A61B2017/0412 , A61B2017/0414 , A61B2017/0437 , A61B2017/044 , A61B2017/0464 , A61B2090/036 , A61F2/0811 , A61F2/30965 , A61F2/4455 , A61F2002/2835 , A61F2002/30062 , A61F2002/30457 , A61F2002/30462 , A61F2002/30471 , A61F2002/30481 , A61F2002/30492 , A61F2002/305 , A61F2002/3082 , A61F2002/30841 , A61F2002/30884 , A61F2002/30899 , A61F2002/30904 , A61F2002/4435 , A61F2210/0004 , A61F2220/0025 , A61F2220/0058 , A61F2220/0075 , A61F2220/0091 , A61F2310/00017 , A61F2310/00023 , A61F2310/00029 , A61F2310/00293
摘要: Embodiments relate generally to tissue anchors and methods of deliveπng same to the intervertebral disc or other sites within the body. In some embodiments, the anchors provide increased pull-out resistance, stability and/or contact with tissue involving a reduced amount of penetration. In some embodiments, delivery methods are minimally invasive and can include linear, lateral, and off-angle implantation or driving of anchors along, against or within tissue surfaces. Several embodiments disclose anchors and anchoπng systems that effectively reconstruct or augment vertebral endplate surfaces.
摘要翻译: 实施例通常涉及组织锚和与身体内椎间盘或其他部位相同的方式。 在一些实施例中,锚固件提供增加的拉出阻力,稳定性和/或与组织的接触,涉及减少穿透量。 在一些实施例中,递送方法是微创的,并且可以包括沿组织表面,靠近或在组织表面内的锚固件的线性,侧向和偏角植入或驱动。 几个实施例公开了有效地重建或增加椎骨终板表面的锚和肛门和系统。
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公开(公告)号:US20100004664A1
公开(公告)日:2010-01-07
申请号:US12545003
申请日:2009-08-20
申请人: Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Gregory Lambrecht , Sean Kavanaugh
发明人: Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Gregory Lambrecht , Sean Kavanaugh
IPC分类号: A61B17/10
CPC分类号: A61B17/7056 , A61B17/0401 , A61B17/0642 , A61B17/0682 , A61B17/68 , A61B17/8085 , A61B2017/0409 , A61B2017/0414 , A61B2017/0647 , A61B2017/0649 , A61F2/442 , A61F2002/4435
摘要: Embodiments of the invention relate generally to tissue anchors and methods of delivering same to the intervertebral disc or other sites within the body. In some embodiments, the anchors provide pull-out resistance, stability and/or maximize contact with tissue involving a minimum amount of penetration. In some embodiments, delivery methods are minimally invasive and include linear, lateral, and off-angle implantation or driving of anchors along, against or within tissue surfaces.
摘要翻译: 本发明的实施例一般涉及组织锚和将其递送到椎间盘或体内其他部位的方法。 在一些实施例中,锚固件提供拉拔阻力,稳定性和/或最大限度地与涉及最小穿透量的组织接触。 在一些实施例中,递送方法是微创的,并且包括沿组织表面,靠近或在组织表面内的锚固件的线性,侧向和偏角植入或驱动。
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公开(公告)号:US20070260249A1
公开(公告)日:2007-11-08
申请号:US11641253
申请日:2006-12-19
申请人: Thomas Boyajian , Almir Velagic , Robert Moore , Christopher Tarapata , Jacob Einhorn , Gregory Lambrecht , Sean Kavanaugh
发明人: Thomas Boyajian , Almir Velagic , Robert Moore , Christopher Tarapata , Jacob Einhorn , Gregory Lambrecht , Sean Kavanaugh
IPC分类号: A61B17/84
CPC分类号: A61B17/7056 , A61B17/0401 , A61B17/0642 , A61B17/0682 , A61B17/68 , A61B17/8085 , A61B2017/0409 , A61B2017/0414 , A61B2017/0647 , A61B2017/0649 , A61F2/442 , A61F2002/4435
摘要: Embodiments of the invention relate generally to tissue anchors and methods of delivering same to the intervertebral disc or other sites within the body. In some embodiments, the anchors provide pull-out resistance, stability and/or maximize contact with tissue involving a minimum amount of penetration. In some embodiments, delivery methods are minimally invasive and include linear, lateral, and off-angle implantation or driving of anchors along, against or within tissue surfaces.
摘要翻译: 本发明的实施例一般涉及组织锚和将其递送到椎间盘或体内其它部位的方法。 在一些实施例中,锚固件提供拉拔阻力,稳定性和/或最大限度地与涉及最小穿透量的组织接触。 在一些实施例中,递送方法是微创的,并且包括沿组织表面,靠近或在组织表面内的锚固件的线性,侧向和偏角植入或驱动。
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公开(公告)号:US20100049259A1
公开(公告)日:2010-02-25
申请号:US12545020
申请日:2009-08-20
申请人: Gregory Lambrecht , Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Sean Kavanaugh
发明人: Gregory Lambrecht , Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Sean Kavanaugh
IPC分类号: A61B17/58
CPC分类号: A61F2/442 , A61B17/0401 , A61B17/0642 , A61B17/0682 , A61B2017/0409 , A61B2017/0412 , A61B2017/0414 , A61B2017/0437 , A61B2017/044 , A61B2017/0464 , A61B2090/036 , A61F2/0811 , A61F2/30965 , A61F2/4455 , A61F2002/2835 , A61F2002/30062 , A61F2002/30457 , A61F2002/30462 , A61F2002/30471 , A61F2002/30481 , A61F2002/30492 , A61F2002/305 , A61F2002/3082 , A61F2002/30841 , A61F2002/30884 , A61F2002/30899 , A61F2002/30904 , A61F2002/4435 , A61F2210/0004 , A61F2220/0025 , A61F2220/0058 , A61F2220/0075 , A61F2220/0091 , A61F2310/00017 , A61F2310/00023 , A61F2310/00029 , A61F2310/00293
摘要: Embodiments relate generally to tissue anchors and methods of delivering same to the intervertebral disc or other sites within the body. In some embodiments, the anchors provide increased pull-out resistance, stability and/or contact with tissue involving a reduced amount of penetration. In some embodiments, delivery methods are minimally invasive and can include linear, lateral, and off-angle implantation or driving of anchors along, against or within tissue surfaces. Several embodiments disclose anchors and anchoring systems that effectively reconstruct or augment vertebral endplate surfaces.
摘要翻译: 实施例通常涉及组织锚和将其递送到椎间盘或体内其它部位的方法。 在一些实施例中,锚固件提供增加的拉出阻力,稳定性和/或与组织的接触,涉及减少穿透量。 在一些实施例中,递送方法是微创的,并且可以包括沿组织表面,靠近或在组织表面内的锚固件的线性,侧向和偏角植入或驱动。 几个实施例公开了有效地重建或增加椎骨终板表面的锚和锚定系统。
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公开(公告)号:US07553329B2
公开(公告)日:2009-06-30
申请号:US10970589
申请日:2004-10-21
申请人: Gregory H. Lambrecht , Robert Kevin Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
发明人: Gregory H. Lambrecht , Robert Kevin Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
IPC分类号: A61F2/44
CPC分类号: A61B5/1076 , A61B5/4514 , A61B17/320708 , A61B2017/00261 , A61B2017/22077 , A61B2017/320044 , A61B2017/3445 , A61B2090/061 , A61B2090/062 , A61F2/2846 , A61F2/30723 , A61F2/30907 , A61F2/441 , A61F2/442 , A61F2/4601 , A61F2/4611 , A61F2/4657 , A61F2002/2817 , A61F2002/30014 , A61F2002/30062 , A61F2002/30075 , A61F2002/30092 , A61F2002/30131 , A61F2002/30136 , A61F2002/30166 , A61F2002/30172 , A61F2002/30177 , A61F2002/30187 , A61F2002/302 , A61F2002/30224 , A61F2002/30228 , A61F2002/30261 , A61F2002/30289 , A61F2002/30291 , A61F2002/30462 , A61F2002/30566 , A61F2002/30571 , A61F2002/30576 , A61F2002/30583 , A61F2002/30589 , A61F2002/30601 , A61F2002/30677 , A61F2002/30777 , A61F2002/30785 , A61F2002/30909 , A61F2002/30971 , A61F2002/4435 , A61F2002/444 , A61F2002/448 , A61F2002/4627 , A61F2002/4635 , A61F2002/4658 , A61F2002/4661 , A61F2002/4662 , A61F2210/0004 , A61F2210/0014 , A61F2210/0061 , A61F2210/0085 , A61F2220/0075 , A61F2230/0004 , A61F2230/0013 , A61F2230/0028 , A61F2230/0034 , A61F2230/0052 , A61F2230/0056 , A61F2230/0065 , A61F2230/0069 , A61F2230/0082 , A61F2230/0091 , A61F2250/0018 , A61F2310/00017 , A61F2310/00023 , A61F2310/00029 , A61F2310/00161 , A61F2310/00293 , A61F2310/00365 , A61F2310/0097 , A61F2310/00976
摘要: Presented are new resilient sheet-like surgical meshes that may be compressed for minimally invasive delivery in the intervertebral discs. According to one or more embodiments, the surgical mesh can be robust, fatigue resistant, stable and capable of withstanding the dynamic environment generic to intervertebral discs.
摘要翻译: 呈现的是可以被压缩以在椎间盘中进行微创输送的新的弹性片状外科网孔。 根据一个或多个实施例,外科手术网可以是鲁棒的,抗疲劳的,稳定的并且能够承受椎间盘通用的动态环境。
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公开(公告)号:US20050234557A1
公开(公告)日:2005-10-20
申请号:US10970589
申请日:2004-10-21
申请人: Gregory Lambrecht , Robert Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
发明人: Gregory Lambrecht , Robert Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
IPC分类号: A61B5/107 , A61B17/00 , A61B17/22 , A61B17/32 , A61B17/34 , A61B17/70 , A61B19/00 , A61F2/00 , A61F2/02 , A61F2/28 , A61F2/30 , A61F2/44 , A61F2/46
CPC分类号: A61B5/1076 , A61B5/4514 , A61B17/320708 , A61B2017/00261 , A61B2017/22077 , A61B2017/320044 , A61B2017/3445 , A61B2090/061 , A61B2090/062 , A61F2/2846 , A61F2/30723 , A61F2/30907 , A61F2/441 , A61F2/442 , A61F2/4601 , A61F2/4611 , A61F2/4657 , A61F2002/2817 , A61F2002/30014 , A61F2002/30062 , A61F2002/30075 , A61F2002/30092 , A61F2002/30131 , A61F2002/30136 , A61F2002/30166 , A61F2002/30172 , A61F2002/30177 , A61F2002/30187 , A61F2002/302 , A61F2002/30224 , A61F2002/30228 , A61F2002/30261 , A61F2002/30289 , A61F2002/30291 , A61F2002/30462 , A61F2002/30566 , A61F2002/30571 , A61F2002/30576 , A61F2002/30583 , A61F2002/30589 , A61F2002/30601 , A61F2002/30677 , A61F2002/30777 , A61F2002/30785 , A61F2002/30909 , A61F2002/30971 , A61F2002/4435 , A61F2002/444 , A61F2002/448 , A61F2002/4627 , A61F2002/4635 , A61F2002/4658 , A61F2002/4661 , A61F2002/4662 , A61F2210/0004 , A61F2210/0014 , A61F2210/0061 , A61F2210/0085 , A61F2220/0075 , A61F2230/0004 , A61F2230/0013 , A61F2230/0028 , A61F2230/0034 , A61F2230/0052 , A61F2230/0056 , A61F2230/0065 , A61F2230/0069 , A61F2230/0082 , A61F2230/0091 , A61F2250/0018 , A61F2310/00017 , A61F2310/00023 , A61F2310/00029 , A61F2310/00161 , A61F2310/00293 , A61F2310/00365 , A61F2310/0097 , A61F2310/00976
摘要: Presented are new resilient sheet-like surgical meshes that may be compressed for minimally invasive delivery in the intervertebral discs. According to one or more embodiments, the surgical mesh can be robust, fatigue resistant, stable and capable of withstanding the dynamic environment generic to intervertebral discs.
摘要翻译: 呈现的是可以被压缩以在椎间盘中进行微创输送的新的弹性片状外科网孔。 根据一个或多个实施例,外科手术网可以是鲁棒的,抗疲劳的,稳定的并且能够承受椎间盘通用的动态环境。
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公开(公告)号:US07658765B2
公开(公告)日:2010-02-09
申请号:US10972106
申请日:2004-10-22
申请人: Gregory H. Lambrecht , Robert Kevin Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
发明人: Gregory H. Lambrecht , Robert Kevin Moore , Jacob Einhorn , Sean Kavanaugh , Chris Tarapata , Thomas Boyajian
IPC分类号: A61F2/44
CPC分类号: A61B5/1076 , A61B5/4514 , A61B17/320708 , A61B2017/00261 , A61B2017/22077 , A61B2017/320044 , A61B2017/3445 , A61B2090/061 , A61B2090/062 , A61F2/2846 , A61F2/30723 , A61F2/30907 , A61F2/441 , A61F2/442 , A61F2/4601 , A61F2/4611 , A61F2/4657 , A61F2002/2817 , A61F2002/30014 , A61F2002/30062 , A61F2002/30075 , A61F2002/30092 , A61F2002/30131 , A61F2002/30136 , A61F2002/30166 , A61F2002/30172 , A61F2002/30177 , A61F2002/30187 , A61F2002/302 , A61F2002/30224 , A61F2002/30228 , A61F2002/30261 , A61F2002/30289 , A61F2002/30291 , A61F2002/30462 , A61F2002/30566 , A61F2002/30571 , A61F2002/30576 , A61F2002/30583 , A61F2002/30589 , A61F2002/30601 , A61F2002/30677 , A61F2002/30777 , A61F2002/30785 , A61F2002/30909 , A61F2002/30971 , A61F2002/4435 , A61F2002/444 , A61F2002/448 , A61F2002/4627 , A61F2002/4635 , A61F2002/4658 , A61F2002/4661 , A61F2002/4662 , A61F2210/0004 , A61F2210/0014 , A61F2210/0061 , A61F2210/0085 , A61F2220/0075 , A61F2230/0004 , A61F2230/0013 , A61F2230/0028 , A61F2230/0034 , A61F2230/0052 , A61F2230/0056 , A61F2230/0065 , A61F2230/0069 , A61F2230/0082 , A61F2230/0091 , A61F2250/0018 , A61F2310/00017 , A61F2310/00023 , A61F2310/00029 , A61F2310/00161 , A61F2310/00293 , A61F2310/00365 , A61F2310/0097 , A61F2310/00976
摘要: Resilient surgical meshes that, in some aspects, can be compressed or otherwise configured, for minimally invasive delivery in the intervertebral discs are provided. According to one or more embodiments, the surgical mesh can be robust, fatigue resistant, stable and capable of withstanding the dynamic environment generic to intervertebral discs.
摘要翻译: 提供了在一些方面可压缩或以其他方式构造用于在椎间盘中进行微创输送的弹性外科网。 根据一个或多个实施例,外科手术网可以是鲁棒的,抗疲劳的,稳定的并且能够承受椎间盘通用的动态环境。
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公开(公告)号:US08454612B2
公开(公告)日:2013-06-04
申请号:US12545020
申请日:2009-08-20
申请人: Gregory Lambrecht , Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Sean Kavanaugh
发明人: Gregory Lambrecht , Thomas Boyajian , Almir Velagic , Robert Kevin Moore , Christopher Tarapata , Jacob Einhorn , Sean Kavanaugh
IPC分类号: A61F2/46
CPC分类号: A61F2/442 , A61B17/0401 , A61B17/0642 , A61B17/0682 , A61B2017/0409 , A61B2017/0412 , A61B2017/0414 , A61B2017/0437 , A61B2017/044 , A61B2017/0464 , A61B2090/036 , A61F2/0811 , A61F2/30965 , A61F2/4455 , A61F2002/2835 , A61F2002/30062 , A61F2002/30457 , A61F2002/30462 , A61F2002/30471 , A61F2002/30481 , A61F2002/30492 , A61F2002/305 , A61F2002/3082 , A61F2002/30841 , A61F2002/30884 , A61F2002/30899 , A61F2002/30904 , A61F2002/4435 , A61F2210/0004 , A61F2220/0025 , A61F2220/0058 , A61F2220/0075 , A61F2220/0091 , A61F2310/00017 , A61F2310/00023 , A61F2310/00029 , A61F2310/00293
摘要: Embodiments relate generally to tissue anchors and methods of delivering same to the intervertebral disc or other sites within the body. In some embodiments, the anchors provide increased pull-out resistance, stability and/or contact with tissue involving a reduced amount of penetration. In some embodiments, delivery methods are minimally invasive and can include linear, lateral, and off-angle implantation or driving of anchors along, against or within tissue surfaces. Several embodiments disclose anchors and anchoring systems that effectively reconstruct or augment vertebral endplate surfaces.
摘要翻译: 实施例通常涉及组织锚和将其递送到椎间盘或体内其它部位的方法。 在一些实施例中,锚固件提供增加的拉出阻力,稳定性和/或与组织的接触,涉及减少穿透量。 在一些实施例中,递送方法是微创的,并且可以包括沿组织表面,靠近或在组织表面内的锚固件的线性,侧向和偏角植入或驱动。 几个实施例公开了有效地重建或增加椎骨终板表面的锚和锚定系统。
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