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8094results about "Spinal implants" patented technology

Remotely powered and remotely interrogated wireless digital sensor telemetry system

An electronic system includes a reader and a remotely powered and remotely interrogated sensor transponder. The sensor transponder includes a coil or an antenna, a switched reactance circuit, a processor, and a sensor. The sensor transponder receives power radiated from the reader to the coil or antenna. The sensor uses the power for sensing. The sensor transponder is capable of processing sensor data in the processor and transmitting the sensor data to the reader using the switched reactance circuit. In one embodiment, the receiver coil or antenna is part of a resonant tank circuit which includes an impedance matching circuit. The impedance matching circuit is connected to the receiver coil or antenna to provide greater current to the sensor or other power-using device than would be available to the sensor or other power-using device if the sensor or other power-using device were connected between the first and second end. The impedance matching circuit can be two or more taps to the coil or antenna.
Owner:LORD CORP

Osteogenic implants derived from bone

An osteogenic osteoimplant in the form of a flexible sheet comprising a coherent mass of bone-derived particles, the osteoimplant having a void volume not greater than about 32% and a method of making an osteogenic osteoimplant having not greater than about 32% void volume, the method comprising: providing a coherent mass of bone-derived particles; and, mechanically shaping the coherent mass of bone-derived particles to form an osteogenic osteoimplant in the form of a flexible sheet.
Owner:WARSAW ORTHOPEDIC INC

Anterior buttress staple

An anterior buttress staple and screw system is provided that can be used to hold an implant such as a disc prosthesis in place and thereby prevent its migration out of the spinal column. The buttress staple comprises a screw locking plate having a screw locking design that prevents the screw from backing up and away from the plate. The screw is configured to provide an interference fit with the screw locking plate, and can be used as a staple removal tool during revision surgery when the screw locking plate needs to be lifted from the bone surface on which it is attached.
Owner:DEPUY ACROMED INC

Systems for percutaneous bone and spinal stabilization, fixation and repair

InactiveUS6127597ASize of wire can be enlarged and reducedEnlarging and reducing sizeInternal osteosythesisFluid pressure measurement using pistonsSpinal columnProsthesis
Systems for bone and spinal stabilization, fixation and repair include intramedullar nails, intervertebral cages and prostheses, remotely activatable prostheses, tissue extraction devices, and electrocautery probes. The intramedullar nails, intervertebral cages and prostheses, are designed for expansion from a small diameter for insertion into place to a larger diameter which stabilizes, fixates or repairs the bone, and further can be inserted percutaneously. Remotely activatable prostheses can be activated from an external unit to expand and treat prosthesis loosening. Tissue extraction devices, and electrocautery probes are used to remove tissue from desired areas.
Owner:KYPHON

Tissue-derived mesh for orthopedic regeneration

An implant including a substantially cohesive aggregate comprising bone-derived particles. Cohesiveness is maintained by a member of mechanical interlocking, engagement of adjacent bone-derived particles with one another through engagement with a binding agent, thermal bonding, chemical bonding, or a matrix material in which the bone-derived particles are retained. The aggregate is shaped as a one-dimensional or two-dimensional body.
Owner:WARSAW ORTHOPEDIC INC

Hybrid biologic-synthetic bioabsorbable scaffolds

A bioprosthetic device is provided for soft tissue attachment, reinforcement, and or reconstruction. The device comprises a naturally occurring extracellular matrix portion and a three-dimensional synthetic portion. In illustrated embodiments, the naturally occurring extracellular matrix portion comprises layers of small intestine submucosa, and the three-dimensional synthetic portion comprises a foam or a three-dimensional mesh, textile, or felt.
Owner:DEPUY SYNTHES PROD INC

Methods and apparatus for performing therapeutic procedures in the spine

Methods and apparatus for forming one or more trans-sacral axial instrumentation / fusion (TASIF) axial bore through vertebral bodies in general alignment with a visualized, anterior or posterior axial instrumentation / fusion line (AAIFL or PAIFL) in a minimally invasive, low trauma, manner and providing a therapy to the spine employing the axial bore. Anterior or posterior starting positions aligned with the AAIFL or PAIFL are accessed through respective anterior and posterior tracts. Curved or relatively straight anterior and curved posterior TASIF axial bores are formed from the anterior and posterior starting positions. The therapies performed through the TASIF axial bores include discoscopy, full and partial discectomy, vertebroplasty, balloon-assisted vertebroplasty, drug delivery, electrical stimulation and various forms of spinal disc cavity augmentation, spinal disc replacement, fusion of spinal motion segments and implantation of radioactive seeds. Axial spinal implants and bone growth materials can be placed into single or multiple parallel or diverging TASIF axial bores to fuse two or more vertebrae, or distract or shock absorb two or more vertebrae.
Owner:MIS IP HLDG LLC

Fabrication of biocompatible polymeric composites

Composite materials formed from biocompatible polymer fibers and biodegradable polymers are disclosed. The heat treatment conditions for the reinforcing fibers are described so that the mechanical properties of the fibers can be retained during composite consolidation process. The processing conditions and set-ups to consolidations are constrained to the temperatures lower than fiber heat treatment temperatures. The reinforcing fibers are restrained under tension so that the minimum relaxation occurs during consolidation process.
Owner:ETHICON INC

Method of inserting and preloading spinal implants

InactiveUS6080155ARestoring and maintaining normal angular relationshipFaster and safe and more efficaciousInternal osteosythesisBone implantIntervertebral spaceIntervertebral disk
Apparatus and a method of inserting spinal implants is disclosed in which an intervertebral space is first distracted, a hollow sleeve having teeth at one end is then driven into the vertebrae adjacent that disc space. A drill is then passed through the hollow sleeve removing disc and bone in preparation for receiving the spinal implant which is then inserted through the sleeve. Apparatus and a method of inserting spinal implants is disclosed in which an intervertebral space is first distracted to restore the normal angular relationship of the vertebrae adjacent to that disc space. An extended outer sleeve having extended portions capable of maintaining the vertebrae distracted in their normal angular relationship is then driven into the vertebrae adjacent that disc space. A drill is then passed through the hollow sleeve removing disc and bone in preparation for receiving the spinal implant which is then inserted through the sleeve.
Owner:WARSAW ORTHOPEDIC INC

Intervertebral implant

An adjustable spinal fusion intervertebral implant is provided that can comprise upper and lower body portions that can each have proximal and distal wedge surfaces disposed at proximal and distal ends thereof. An actuator shaft disposed intermediate the upper and lower body portions can be actuated to cause proximal and distal protrusions to converge towards each other and contact the respective ones of the proximal and distal wedge surfaces. Such contact can thereby transfer the longitudinal movement of the proximal and distal protrusions against the proximal and distal wedge surfaces to cause the separation of the upper and lower body portions, thereby expanding the intervertebral implant.
Owner:DEPUY SYNTHES PROD INC

Spinal stabilization system and method

A spinal stabilization system may include a pair of structural members coupled to at least a portion of a human vertebra with connectors. Connectors may couple structural members to spinous processes. Some embodiments of a spinal stabilization system may include fasteners that couple structural members to vertebrae. In some embodiments, a spinal stabilization system provides three points of fixation for a single vertebral level. A fastener may fixate a facet joint between adjacent vertebrae and couple a stabilization structural member to a vertebra. Connectors may couple the structural members to the spinous processes of the vertebrae. Use of a spinal stabilization system may improve the stability of a weakened or damaged portion of a spine. When used in conjunction with an implant or other device, the spinal stabilization system may immobilize vertebrae and allow for fusion of the implant or other device with vertebrae.
Owner:ZIMMER SPINE INC

Apparatus for inserting spinal implants

Apparatus and a method of inserting spinal implants is disclosed in which an intervertebral space is first distracted, a hollow sleeve having teeth at one end is then driven into the vertebrae adjacent that disc space. A drill is then passed through the hollow sleeve removing disc and bone in preparation for receiving the spinal implant which is then inserted through the sleeve.
Owner:WARSAW ORTHOPEDIC INC

Articulating spinal implant

InactiveUS6179874B1Bone implantSurgeryBone growth stimulatorBone chip
A spinal implant for intervertebral disc replacement. The implant is formed from two hemicylindrical elements, each engaging one of an adjacent pair of vertebrae. An articulating ball-and-socket joint between the two elements resists compression and lateral movement between the vertebra, but allows pivotal movement, thereby preserving mobility. Fusion chambers are provided for allowing bone ingrowth to fuse the elements to the vertebrae. Biocompatible, bioreabsorbable struts, shims, fillers and / or end caps are provided for temporary stabilization of the first and second hemicylindrical elements. Bone chips removed from the vertebrae during implantation or bone growth stimulators can be inserted into the fusion chamber or otherwise applied to the implant to enhance bone ingrowth.
Owner:WARSAW ORTHOPEDIC INC

Devices and methods for the treatment of spinal disorders

InactiveUS20050049708A1Permit some movementReducing nerve impingementInternal osteosythesisJoint implantsDiseaseSpine disorder
Devices and methods for treating a damaged intervertebral disc to reduce or eliminate associated back pain. Dynamic bias devices and reinforcement devices are disclosed, which may be used individually or in combination, to eliminate nerve impingement associated with the damaged disc, and / or to reinforce the damaged disc, while permitting relative movement of the vertebrae adjacent the damaged disc.
Owner:ANULEX TECH

Expandable intervertebral spacer method and apparatus

InactiveUS20060129244A1Restore disc heightBone implantSurgeryBiological activationIntervertebral disk
An expandable interbody spacer (IBS) device designed to restore the disc height between vertebral bodies. The expandable interbody spacer device has an integral, moveable expansion member or spreader, provided between two plates. The plates are connected by one or more connecting members that retain the plates in a position proximate to one another while allowing the plates to move from a first unexpanded position to a second expanded position upon activation of the expansion member. According to aspects of the invention, the interbody spacer device can be implanted in an unexpanded or collapsed configuration, and then expanded to full height by engaging the expansion member. In other embodiments, the interbody spacer device may take various forms, for example, it may be cashew, rectangular or annular.
Owner:ALPINESPINE

Porous Substrates for Implantation

A porous substrate or implant for implantation into a human or animal body constructed from a structural material and having one or more regions which when implanted are subjected to a relatively lower mechanical loading. The region(s) are constructed with lesser mechanical strength by having a lesser amount of structural material in said region(s) relative to other regions. This is achieved by controlling pore volume fraction in the regions. A spacer is adapted to define an open-cell pore network by taking a model of the required porous structure, and creating the spacer to represent the required porous structure using three-dimensional modelling. Material to form the substrate about the spacer in infiltrated the scaffold structure formed.
Owner:NATIONAL UNIVERSITY OF IRELAND

Intersomatic setting and fusion system

A system for intersomatic fusion and setting of vertebrae. The system includes at least one open internal cage arranged for receiving spongy bone or bone substitute and is designed to be interposed between two vertebrae during diskectomy. The cage (1) includes on its anterior face (5) an external element forming a plate (12) extending in a plane substantially perpendicular to the insertion plane of the cage (1), and has at each of its ends an anchor device (13,14) adapted for anchoring to at least two adjacent vertebrae to be secured to each other by the cage (1). The system can be separated into two parts, the cage and the plate.
Owner:SCIENTX

Spinal stabilization systems

ActiveUS20050113927A1Preserving and simulating flexionPreserving and simulating and extensionInternal osteosythesisJoint implantsSpinal columnFacetectomy
Spinal stabilizing elements and spinal stabilization systems composed of spinal stabilizing elements in combination with disc prostheses or disc nucleus replacements are provided. The stabilizing elements and stabilization systems are designed to preserve the natural mobility of vertebral discs and facet joints in patients with facet joint disease or patients who has undergone a prior destabilizing procedure, such as a facetectomy. The stabilizing elements may be pivoting elements or dynamic elements.
Owner:ST CLOUD CAPITAL PARTNERS III SBIC LP

Intervertebral disc implant

InactiveUS6187048B1Speed up the flowReduce and eliminate any adverse effectJoint implantsSpinal implantsIntervertebral discProsthesis
An implant for forming an intervertebral disc nucleus pulposus prosthesis includes a conformable material adapted to fill cavities within the disc and to at least partially polymerize in-situ to form a shaped, resiliently deformable prosthesis.
Owner:HOWMEDICA OSTEONICS CORP

Rod-shaped implant element for application in spine surgery or trauma surgery, stabilization apparatus comprising said rod-shaped implant element, and production method for the rod-shaped implant element

A rod-shaped implant element (1, 100, 101, 102, 300) is disclosed for the connection of bone anchoring elements, Each bone anchoring element has an anchoring section (12) to be anchored in the bone and a receiver member (13) to be connected to the rod-shaped implant element The rod-shaped implant element has at least one rigid section (7, 8) that is configured to be placed in the receiver member (13). It also has a flexible section (9, 90, 900, 902) that is adjacent to the rigid section. The flexible section and the rigid section are formed in one piece. Also disclosed is a stabilization apparatus using a rod-shaped implant element and at least two of the bone anchoring elements. The stabilization apparatus can limit the movement of two vertebrae or parts of a bone in relation to each other in a defined manner.
Owner:BIEDERMANN TECH GMBH & CO KG

Expandable osteosynthesis cage

InactiveUS6129763AGood jamLarge inside volumeBone implantJoint implantsSpinal columnBiomedical engineering
PCT No. PCT / FR97 / 01617 Sec. 371 Date Jul. 28, 1998 Sec. 102(e) Date Jul. 28, 1998 PCT Filed Sep. 12, 1997 PCT Pub. No. WO98 / 10722 PCT Pub. Date Mar. 19, 1998An expandable osteosynthesis implant has branches (5) each connected at one end to a seat (7) which is pierced by an orifice (8), suitable for being slid from a posterior direction between the facing faces of two consecutive vertebrae in order to hold them a given distance apart and restore stability of the spinal column. According to the invention, the branches (5) and the seat (7) define a hollow cage (1) which, in a "rest" position, has an outside general shape that is a cylinder of circular section, and a portion at least of the inside volume (9) of the cage (1) towards the distal ends of the branches (5) is in the form of a circular truncated cone whose large base is towards the seat (7), which implant has at least three branches (5) and, inside the inside volume (9) at least one spacer (2) suitable for passing through the orifice (8) and the large base of the truncated cone.
Owner:OSTEOIMPLANT TECH

Expandable spinal fusion device and methods of promoting spinal fusion

InactiveUS7018415B1Promoting osteogenic fusionMinimal exposureBone implantJoint implantsSpinal columnBone growth
An intervertebral disc space implant includes spaced-apart bone engagement portions that define an intermediate chamber that holds bone growth inducing material into contact with adjacent vertebral bodies. The implant is expandable to establish and maintain desired intervertebral spacing during fusion. The implant includes a first member and a second member arranged to move relative to each other by action of an expansion member, the first member being engageable with the vertebral body below the disc space.
Owner:WARSAW ORTHOPEDIC INC

Methods and apparatus for treating spinal stenosis

Surgical implants are configured for placement posteriorly to a spinal canal between vertebral bodies to distract the spine and enlarge the spinal canal. In the preferred embodiments the device permits spinal flexion while limiting spinal extension, thereby providing an effective treatment for treating spinal stenosis without the need for laminectomy. The invention may be used in the cervical, thoracic, or lumbar spine. Numerous embodiments are disclosed, including elongated, length-adjustable components coupled to adjacent vertebral bodies using pedicle screws. The preferred embodiments, however, teach a device configured for placement between adjacent vertebral bodies and adapted to fuse to the lamina, facet, spinous process or other posterior elements of a single vertebra. Various mechanisms, including shape, porosity, tethers, and bone-growth promoting substances may be used to enhance fusion. The tether may be a wire, cable, suture, or other single or multi-filament member. Preferably, the device forms a pseudo-joint in conjunction with the non-fused vertebra. Alternatively, the device could be fused to the caudal vertebra or both the cranial and caudal vertebrae.
Owner:NUVASIVE
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