Patent application number | Description | Published |
20080215154 | INTERVERTEBRAL DISC ANULUS IMPLANT - Systems for minimally invasive disc augmentation include an anulus augmentation implant suited for minimally invasive deployment. A nucleus augmentation component may be included. The anulus augmentation implant shields weakened regions of the anulus fibrosis and/or resists escape of natural nucleus pulposus and/or the nucleus augmentation component. Methods and deployment devices are also disclosed. | 09-04-2008 |
20090281517 | SYSTEM AND METHOD FOR REPAIRING AN INTERVERTEBRAL DISC - Systems for minimally invasive disc augmentation include an anulus augmentation component and, optionally, a nucleus augmentation component. Both are suited for minimally invasive deployment. The anulus augmentation component shields weakened regions of the anulus fibrosis and/or resists escape of natural nucleus pulposus and/or the nucleus augmentation component. Methods and deployment devices are also disclosed. Systems and methods for closing a defect in the anulus are also provided. | 11-12-2009 |
20100004664 | ANCHORING SYSTEM FOR DISC REPAIR - 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. | 01-07-2010 |
20100049259 | METHOD FOR VERTEBRAL ENDPLATE RECONSTRUCTION - 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. | 02-25-2010 |
20100114317 | IMPACTION GRAFTING FOR VERTEBRAL FUSION - Methods of providing graft impaction using anchored implants are disclosed. In some embodiments, the graft impaction provided by the anchored implants can facilitate surgical spinal fusion procedures. The anchored implants provide increased strength and increased pull-out resistance. The anchored implants can be used in conjunction with various surgical vertebral fusion approaches or techniques, such as anterior, posterior, transforaminal, and/or extreme lateral interbody fusion. | 05-06-2010 |
20100121455 | SOFT TISSUE IMPACTION METHODS - Methods of providing soft tissue impaction using anchored implants are disclosed. In some embodiments, the soft tissue impaction provided by the anchored implants can facilitate intervertebral disc reconstruction. A method of soft tissue impaction includes displacing soft tissue from within a defective region of an anulus into a nuclear disc space of an intervertebral disc as it is driven within an outer surface of an adjacent vertebral body. | 05-13-2010 |
20100204797 | ANULUS LESION REPAIR - Methods for repairing a damaged or weakened intervertebral disc are disclosed. According to one or more embodiments, a method comprises delivering a support member within an intervertebral disc having an anular defect, anchoring an anchor to a vertebral body adjacent the intervertebral disc, connecting the anchor to the support member, and pulling the support member toward the anchor using the connection. | 08-12-2010 |
20110106264 | METHODS OF INTERVERTEBRAL DISC AUGMENTATION - Systems for minimally invasive disc augmentation include an anulus augmentation implant suited for minimally invasive deployment. A nucleus augmentation component may be included. The anulus augmentation implant shields weakened regions of the anulus fibrosus and/or resists escape of natural nucleus pulposus and/or the augmentation component. Methods and deployment devices are also disclosed. Several embodiments cause or allow fibrosus or bony ingrowth in or around the augmentation. | 05-05-2011 |
20110125271 | METHOD OF PERFORMING AN ANCHOR IMPLANTATION PROCEDURE WITHIN A DISC - Methods of performing procedures within an intervertebral disc are disclosed. The methods include performing procedures such as implant delivery, tissue manipulation, tissue diagnostics, and therapeutic and diagnostic agent delivery at selected locations within intervertebral discs. In one embodiment, a method includes delivering an anchor and an implant within a functional spinal unit using a surgical device having at least one depth stop. | 05-26-2011 |
20110196492 | BONE ANCHORING SYSTEMS - 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. | 08-11-2011 |
20110264227 | VERTEBRAL ANCHORING METHODS - 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. | 10-27-2011 |
20120289865 | MONITORING CHARACTERISTICS OF AN INTERVERTEBRAL DISC AND/OR PROSTHESIS MATERIAL - A vertebral disc prosthesis, a method of implanting a prosthesis and a deployment device is provided. The prosthesis may be implanted into the interior region of the vertebral disc so as to displace existing vertebral tissue, such as NP. The size or amount of the prosthesis inserted into the interior region of the vertebral disc may be a characteristic of the disc or the prosthesis. For example, the amount or size of prosthesis inserted into the disc may be dependent upon restoring the functionality of the disc (e.g., the ability of the disc to transfer nutrients or otherwise survive, the ability of the disc to carry the required loads and absorb stress or the reduction of pain). The method may include monitoring at least one of: a) one or more characteristics of the vertebral disc, and b) one or more characteristics of the prosthesis. | 11-15-2012 |
20120316648 | INTERVERTEBRAL DISC REINFORCEMENT SYSTEMS - 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. | 12-13-2012 |
20130184750 | BONE ANCHOR SYSTEMS - 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. | 07-18-2013 |
20130204373 | INTERBODY FUSION MATERIAL RETENTION METHODS - Methods of inserting and retaining interbody fusion material are disclosed. In some embodiments, the methods include inserting an anchored implant comprising a bone anchoring portion and an engagement portion. A method may also include inserting at least one bone fusion material within a disc space between two adjacent vertebral bodies. In some embodiments, a method includes driving the bone anchoring portion into an outer surface of at least one of the adjacent vertebral bodies and recessing the bone anchoring portion within the outer surface of the at least one adjacent vertebral body. | 08-08-2013 |