Patent application number | Description | Published |
20080234764 | Artificial functional spinal unit system and method for use - Insertion methods for placing dynamic interbody devices between a first vertebra and a second vertebra using a posterior approach are provided. In an embodiment, the insertion method may be based on the first vertebra. A bridge assembly may be attached to tap shafts positioned in the first vertebra. The bridge assembly may establish an insertion angle of implants into a disc space between the vertebrae. In an embodiment, the insertion method may be based on the position of expandable trials positioned between the vertebrae. The trials may be positioned and a bridge assembly may be coupled to the expandable trials and taps positioned in the first vertebra. One or more posterior stabilization systems may be coupled to the vertebrae after insertion of the dynamic interbody devices between the vertebrae. | 09-25-2008 |
20090047360 | Bone morphogenic protein binding peptide - A cyclized peptide designated BMP Binding Peptide (BBP) is a synthetic peptide that avidly binds rhBMP-2, as do endogenous forms of BBP, and sequence conservation between species results in a variety of useful BBP compositions. BBP increases the over-all osteogenic activity of rhBMP-2, increases the rate at which rhBMP-2 induces bone formation, and BBP induces calcification alone. Compositions and substrates including BBP, and methods of using BBP are useful in therapeutic, diagnostic and clinical applications requiring calcification and osteogenesis. | 02-19-2009 |
20090210012 | Laminoplasty devices and methods - Laminoplasty plates are engageable to at least one portion of a divided lamina to maintain a desired spacing relative to the spinal canal. The laminoplasty plates include a spacer portion having a first end and a second end that spans a gap formed by at least one of a divided lamina portion. The laminoplasty plates can include a lamina engagement portion at one end for engagement with the divided lamina portion. | 08-20-2009 |
20100183719 | Surgical Applications for BMP Binding Protein - The present invention relates to the clinical application of BBP, alone or in combination with other growth factors, for use in bone healing applications, such as spinal surgery. Additional applications include use in orthopedic implantable prostheses and implantation into other surgical sites (e.g., surgical reconstruction, regional osteopenia, etc.) where bone is desired. | 07-22-2010 |
20110087328 | CENTRALLY DRIVEN EXPANDABLE IMPLANT AND METHOD - Embodiments of the invention include expandable, implantable devices and methods. Devices expand linearly to provide secure fixation between or among anatomical structures. In some embodiments, an implant replaces one or more vertebral bodies of the spine. | 04-14-2011 |
20130143811 | Tumor Suppression Compositions - Provided herein is tumor suppression composition and methods of making and using the same. | 06-06-2013 |
20130303449 | SURGICAL APPLICATIONS FOR BMP BINDING PROTEIN - The present invention relates to the clinical application of BBP, alone or in combination with other growth factors, for use in bone healing applications, such as spinal surgery. Additional applications include use in orthopedic implantable prostheses and implantation into other surgical sites (e.g., surgical reconstruction, regional osteopenia, etc.) where bone is desired. | 11-14-2013 |
20140135845 | LAMINOPLASTY DEVICES AND METHODS - Laminoplasty plates are engageable to at least one portion of a divided lamina to maintain a desired spacing relative to the spinal canal. The laminoplasty plates include a spacer portion having a first end and a second end that spans a gap formed by at least one of a divided lamina portion. The laminoplasty plates can include a lamina engagement portion at one end for engagement with the divided lamina portion. | 05-15-2014 |
20140178346 | CELLULAR COMPOSITIONS FOR TISSUE ENGINEERING - Cell compositions for tissue engineering are provided which contain a population of autologous, minimally passaged dermal fibroblasts in combination with a tissue engineering matrix or scaffold, or material forming a matrix or scaffold. In one embodiment, the population of fibroblasts is genetically engineered to secrete a therapeutic protein in an amount effective to induce tissue growth or tissue repair when the cell composition is transplanted into a subject in need thereof. For example, the therapeutic protein can be a bone morphogenic protein when the tissue to be treated is bone tissue. A preferred bone morphogenic protein is BMP-2. | 06-26-2014 |
Patent application number | Description | Published |
20080234824 | Interspinous dynamic stabilization implant and method of implanting - Devices and methods for treating spinal disorders and associated discomfort therefrom. In one embodiment, an interspinous implant device is configured for distracting an adjacent pair of spinous processes while permitting relative flexion, lateral bending and side rotation motions between the vertebrae joined to the adjacent pair of spinous processes. A method of treating spinal disorders and associated discomfort therefrom, includes inserting an interspinous device between a pair of adjacent spinous processes such that a superior portion of the device contacts an inferior surface of the relatively superior spinous process of the pair, and an inferior portion of the of the device contacts a superior surface of the relatively inferior spinous process of the pair; and distracting the superior and inferior portions, relative to one another, thereby distracting the spinous processes, whereby vertebrae integral with the spinous processes retain capability of flexion, lateral bending and side rotation motions, relative to one another, after the distraction has been performed. | 09-25-2008 |
20090062918 | Interspinous implant, tools and methods of implanting - Devices, tools and methods for minimally invasive implantation and distraction between spinous processes for treatment of spinous disorders. An interspinous implant device for distracting at least one pair of adjacent spinous processes includes a main body including a shaft having a longitudinal axis; and first and second arms extending transversely from the main body, wherein at least one of the first and second arms is slidably mounted with respect to the shaft. The arms are configured and dimensioned to extend laterally from both sides of the spinous processes when implanted therebetween and to be inserted between the spinous processes laterally from a single side thereof. The arms are variably positionable between a closed configuration, to facilitate insertion of the arms between the adjacent spinous processes, and an open configuration, in which the arms are separated from one another. | 03-05-2009 |
20090240280 | Interspinous implant, tools and methods of implanting - Devices, tools and methods for minimally invasive implantation of a dynamic interspinous implant device for distracting between spinous processes and providing dynamic stabilization. One exemplary device includes a main body including a shaft having a longitudinal axis; a first clamping mechanism having first and second jaws configured to clamp a spinous process of a first vertebra, and a second clamping mechanism having third and fourth jaws configured to clamp a spinous process of a second vertebra. The first, second, third and fourth jaws extend transversely from the shaft and at least two of two of the jaws are releasably mounted to the shaft and are mountable to and removable from the shaft by relative movement between the respective jaw and the shaft in a direction normal to a longitudinal axis of the shaft. The shaft has sufficient columnar strength to maintain distraction between the first and second vertebrae via the clamps, while also allowing at least one of the relative movements between the first and second vertebrae selected from the movements including lateral bending, flexion, extension and axial rotation. | 09-24-2009 |
20110313467 | Interspinous Dynamic Stabilization Implant and Method of Implanting - Devices and methods for treating spinal disorders and associated discomfort therefrom. In one embodiment, an interspinous implant device is configured for distracting an adjacent pair of spinous processes while permitting relative flexion, lateral bending and side rotation motions between the vertebrae joined to the adjacent pair of spinous processes. A method of treating spinal disorders and associated discomfort therefrom, includes inserting an interspinous device between a pair of adjacent spinous processes such that a superior portion of the device contacts an inferior surface of the relatively superior spinous process of the pair, and an inferior portion of the of the device contacts a superior surface of the relatively inferior spinous process of the pair; and distracting the superior and inferior portions, relative to one another, thereby distracting the spinous processes, whereby vertebrae integral with the spinous processes retain capability of flexion, lateral bending and side rotation motions, relative to one another, after the distraction has been performed. | 12-22-2011 |