Patent application number | Description | Published |
20100042167 | ORTHOPAEDIC SCREWS - An orthopaedic screw having a plurality of regions, at least one of which may be porous. The orthopaedic screw includes a head, a tip and at least one thread. The porosity of the screw of the present invention can vary within the part or region, including changes in pore shape, size and density. These characteristics can vary along the length of the screw axis and/or radially (from the outer diameter to the axis). The orthopaedic screw may further include at least one solid region formed of any implantable polymer, reinforced polymer or metal. | 02-18-2010 |
20100042213 | DRUG DELIVERY IMPLANTS - An orthopaedic implant system includes an orthopaedic implant implantable at a selected location within a corporeal body and configured for delivering at least one therapeutic agent to the corporeal body. The implant includes a reservoir and a plurality of channels. The reservoir is configured for receiving the at least one therapeutic agent. The plurality of channels are configured for conveying the at least one therapeutic agent from the reservoir to a treatment site relative to the corporeal body. | 02-18-2010 |
20100042214 | DRUG DELIVERY IMPLANTS - An orthopaedic implant system includes an orthopaedic implant implantable at a selected location within a corporeal body and configured for delivering at least one therapeutic agent to the corporeal body, the implant defining a reservoir and a plurality of channels, the reservoir configured for receiving the at least one therapeutic agent, the plurality of channels configured for conveying the at least one therapeutic agent from the reservoir to a treatment site relative to the corporeal body, the implant being at least one of an internal fixation device and a porous device. | 02-18-2010 |
20100042215 | ORTHOPAEDIC IMPLANT - An orthopaedic implant system includes an orthopaedic implant implantable at a selected location within a corporeal body. The implant includes a first structural material and a second structural material. The first structural material is non-resorbable relative to the corporeal body and is different relative to the second structural material. The implant is an internal fixation device. | 02-18-2010 |
20100042218 | ORTHOPAEDIC IMPLANT WITH POROUS STRUCTURAL MEMBER - An orthopaedic implant includes a first member comprised of a substantially non-porous material, and a second member coupled with the first member. The second member has a first side and an opposing second side, with each of the first side and the second side being external load bearing surfaces. The second member is formed from a substantially porous material with interconnecting pores extending from the first side to the second side. | 02-18-2010 |
20100042226 | ORTHOPAEDIC IMPLANT WITH SPATIALLY VARYING POROSITY - An orthopaedic implant includes a body member having a first region with a first porosity and a second region with a second porosity. At least one physical characteristic of the first porosity is different than at least one physical characteristic of the second porosity. | 02-18-2010 |
20120303124 | BONE FUSION DEVICE - A bone fusion device provides stability to bones during a bone fusion period. The bones include, for example, the vertebrae of a spinal column. The bone fusion device comprises one or more extendable tabs attached to the bone fusion device by associated rotating means. The bone fusion device is preferably inserted by using an arthroscopic surgical procedure. During arthroscopic insertion of the device, the tabs are pre-configured for compactness. In this compact configuration, the tabs are preferably deposed along and/or within an exterior surface of the bone fusion device. After the bone fusion device has been positioned between the bones, one or more tab(s) are extended. In the preferred embodiment, the position of each tab is related to a positioning element and extending blocks. Typically, the tabs advantageously position and brace the bone fusion device in the confined space between the bones until the bones have fused. | 11-29-2012 |
20130204371 | BONE FUSION DEVICE, SYSTEM AND METHOD - A bone fusion method, system and device for insertion between bones that are to be fused together in order to replace degenerated discs and/or bones, for example, the vertebrae of a spinal column. The bone fusion device comprises a frame and one or more extendable plates that are able to be angled, rotatable, adjustable, and have top profiles designed to correct and/or match the replaced discs/bones. The bone fusion device is able to be inserted between or replace the vertebrae by using a minimally invasive procedure wherein the dimensions and/or other characteristics of the bone fusion device are selectable based on the type of minimally invasive procedure. | 08-08-2013 |
20130211525 | BONE FUSION DEVICE, APPARATUS AND METHOD - A bone fusion method, apparatus and device for insertion between bones that are to be fused together and/or in place of one or more of the bones, such as, for example, the vertebrae of a spinal column. The bone fusion device comprises one or more extendable plates having a central rib. The bone fusion device includes one or more support channels configured to receive an insertion instrument that is then secured to the bone fusion device via a coupling mechanism. As a result, the coupled device is able to be securely positioned between vertebrae using the insertion instrument with minimal risk of slippage. | 08-15-2013 |
20130253473 | ORTHOPAEDIC SCREWS - An orthopaedic screw having a plurality of regions, at least one of which may be porous. The orthopaedic screw includes a head, a tip and at least one thread. The porosity of the screw of the present invention can vary within the part or region, including changes in pore shape, size and density. These characteristics can vary along the length of the screw axis and/or radially (from the outer diameter to the axis). The orthopaedic screw may further include at least one solid region formed of any implantable polymer, reinforced polymer or metal. | 09-26-2013 |
20140058521 | BONE FUSION DEVICE - A bone fusion device provides stability to bones during a bone fusion period. The bones include, for example, the vertebrae of a spinal column. The bone fusion device comprises one or more extendable tabs attached to the bone fusion device by associated rotating means. The bone fusion device is preferably inserted by using an arthroscopic surgical procedure. During arthroscopic insertion of the device, the tabs are pre-configured for compactness. In this compact configuration, the tabs are preferably deposed along and/or within an exterior surface of the bone fusion device. After the bone fusion device has been positioned between the bones, one or more tab(s) are extended. In the preferred embodiment, the position of each tab is related to a positioning element and extending blocks. Typically, the tabs advantageously position and brace the bone fusion device in the confined space between the bones until the bones have fused. | 02-27-2014 |
20140277183 | FIXATION OF ORTHOPAEDIC DEVICES - The present invention provides an orthopaedic implant including a base device having a device surface and a fixation material attached to at least one portion of the device surface. The fixation material is configured to provide a minimally sufficient adhesive force to resist natural pull out caused by forces acting on the base device after implantation and bone growth. Also provided is a method of manufacturing an orthopaedic implant. A base device with a device surface is provided and a minimally sufficient adhesive force, that can resist natural pull out caused by forces acting on the base device after implantation and bone growth, is determined. A proper amount of fixation material sufficient to provide an adhesive force equal to the minimally sufficient adhesive force is determined and fixation material is applied to the device. When the proper amount of fixation material is applied to the device surface, application is stopped. | 09-18-2014 |
20140277461 | POROUS TISSUE INGROWTH STRUCTURE - A three-dimensional scaffold for a medical implant includes a plurality of layers bonded to each other. Each layer has a top surface and a bottom surface and a plurality of pores extending from the top surface to the bottom surface. Each layer has a first pore pattern of the pores at the top surface and a different, second pore pattern at the bottom surface. Adjacent surfaces of at least three adjacent layers have a substantially identical pore pattern aligning to interconnect the pores of the at least three adjacent layers to form a continuous porosity through the at least three adjacent said layers. | 09-18-2014 |
20140277529 | REMOVABLE AUGMENT FOR MEDICAL IMPLANT - An orthopaedic augment includes a porous material, which is removably attached to a medical implant. The porous material has a bone ingrowth surface for interfacing with an existing bone material and another surface for interfacing with the medical implant. | 09-18-2014 |
20140277530 | FIXATION OF BONE IMPLANTS - The present invention provides an orthopaedic implant including an articulating tray, a support tray connected to the articulating tray and a bone ingrowth layer connected to the support tray. The articulating tray has an articulating surface and an interface surface opposed to the articulating surface. The support tray has a first connecting surface that is connected to the interface surface and a second connecting surface that is opposed to the first connecting surface and connected to the bone ingrowth layer. Also provided is an orthopaedic implant with an articulating component and a body component connected to the articulating component. The articulating component has an articulating surface and an interface surface opposed to the articulating surface. The body component has a first surface connected to the interface surface, a second surface opposed to the first surface and at least one protrusion that extends away from the second surface. | 09-18-2014 |
20140277580 | METHOD OF MANUFACTURING A TUBULAR MEDICAL IMPLANT - A method of manufacturing a tubular medical implant is provided. The method includes forming a hollow first tube with a first diameter and a first plurality of pores formed thereon and a hollow second tube with a second unstretched diameter and a second plurality of pores formed thereon. The second unstretched diameter is greater than the first diameter. At least a portion of the first tube slides within the second tube to create an overlapped area of the first tube and the second tube. The first tube and second tube are then bonded together in the overlapped area. | 09-18-2014 |
20150038941 | DRUG DELIVERY IMPLANTS - An orthopaedic implant system includes an external fixation device implantable at a selected location within a corporeal body and configured for delivering at least one therapeutic agent to the corporeal body. The external fixation device includes an implantable pin, a sheath coupled with the pin, a reservoir coupled with the sheath and a plurality of channels. The pin defines the plurality of channels. The reservoir is configured for receiving the at least one therapeutic agent. The plurality of channels are configured for conveying the at least one therapeutic agent from the reservoir to a treatment site relative to the corporeal body. | 02-05-2015 |
20150238324 | ORTHOPAEDIC IMPLANT WITH POROUS STRUCTURAL MEMBER - An orthopaedic implant includes an implant body having a first surface with a first peak, a second surface opposite the first surface, and a cavity formed therein that extends through the first surface and second surface. The implant body is substantially non-porous. A load bearing member comprising a substantially porous material is held within the cavity. The load bearing member has a first contact surface that extends out of the cavity past the first peak of the first surface. | 08-27-2015 |
Patent application number | Description | Published |
20090182427 | VERTEBROPLASTY IMPLANT WITH ENHANCED INTERFACIAL SHEAR STRENGTH - Methods and devices for augmenting bone, such as in performing vertebroplasty are disclosed. A bone implant with enhanced interfacial shear strength can include a container, such as a mesh bag, with a sidewall and an interior chamber portion. The sidewall can include an open-celled matrix and can be filled with a first media to promote bone ingrowth and enhanced interfacial shear strength. The interior chamber can be filled with a second media to prevent crack propagation. Delivery catheters with releasable coupling features to the implant are also disclosed. | 07-16-2009 |
20100160922 | TWO-PART BONE CEMENT COMPOSITE CONTAINING PARTICLES IN A NON-UNIFORM SPATIAL DISTRIBUTION AND DEVICES FOR IMPLEMENTATION - One embodiment of the invention comprises a differential composite in which bone cement everywhere or substantially everywhere contains at least some non-zero volume fraction of particles, and in which the local volume fraction of particles may vary from place to place in the composite in a controlled manner. The variation may be by identifiable region or may be in the form of a gradient of the local volume fraction of particles. In at least some places, the local volume fraction of particles may be such that the particles act as crack arrestors. Close to the interface with natural bone, the local volume fraction of particles may be greater. In at least some places adjoining natural bone, the local volume fraction of particles may be such as to allow bone ingrowth into appropriate region(s) of the composite, resulting in improved interfacial shear strength. Methods and apparatuses for producing and delivering the composite are also disclosed, which may include use of an introducer and an expandable basket-type device. | 06-24-2010 |
20120265186 | STEERABLE CURVABLE ABLATION CATHETER FOR VERTEBROPLASTY - Disclosed herein is a steerable, curvable catheter with one, two, or more ablation elements that can be used for various applications including vertebroplasty. The catheter can include an elongate, tubular body, having a proximal end, a distal end, and a central lumen extending therethrough; a deflectable zone on the distal end of the tubular body, deflectable through an angular range; a handle on the proximal end of the tubular body; and a deflection control on the handle; an energy delivery control on the handle; and one or more energy delivery elements on the distal end of the device for ablating tissue within bone. The energy delivery elements could be RF heating electrodes in a monopole or dipole arrangement although other energy delivery modalities are also contemplated. For example, the energy delivery elements include cryoprobes. Systems and methods involving the ablation catheter are also disclosed. | 10-18-2012 |