Class / Patent application number | Description | Number of patent applications / Date published |
623230500 | Having textured outer surface | 59 |
20080208351 | Biocompatible Material for Surgical Implants and Cell Guiding Tissue Culture Surfaces - A biocompatible material, wherein at least a part of a surface of the biocompatible material is characterized by a micro or nano-meter scale topographical structure comprising a plurality of features where the structure is selected to promote a predetermined cell function in vivo or ex vivo in cell or tissue culture. | 08-28-2008 |
20080249632 | Stable cartilage defect repair plug - A method of distributing a load to a cartilage defect repair plug is provided. A load is applied to a first articulation layer. The load is distributed to a second layer and the load is transferred in the normal direction to the first density of subchondral bone. The load is distributed to a third layer and the load is transferred in the normal direction to a second density of subchondral bone. The load is then distributed to a fourth layer and the load is transferred in the normal direction to a third density of subchondral bone. | 10-09-2008 |
20080306607 | Material for Repairing Biological Tissues and Process for Producing the Same - A bone substitute (a material for repairing biological tissues) made from β-TCP as the raw material comprises a plate-type base member on the surface of which a plurality of grooves extending in a single direction are formed and separated from each other by partition wall members having an almost uniform thickness. This material sustains a sufficient binding force after application to a biological tissue and exhibits an excellent effect of forming a biological tissue. This bone substitute (material for repairing biological tissues) having a main body provided with a plurality of grooves extending in a single direction which are separated from each other by partition wall members having an almost uniform thickness, and a biodegradable viscous member which is filled into at least one of the penetrating holes of the main body, and contains an agonistic factor capable of increasing the cell activity, can provide agonistic factors of sufficient types and amounts to a biological tissue, and can control the sustained-release dose thereof. | 12-11-2008 |
20090093888 | MEDICAL IMPLANT FORMED FROM POROUS METAL AND METHOD - Medical implants are formed at least in part from porous metal wherein the pores of the metal are filled with a hardenable material. The hardenable material can be used to assist in the manufacture of the implant, permitting detailed machining of the implant. Further, the hardenable material can be a resorbable material that strengthens the implant during implantation but is resorbed, once implanted, to permit bone growth and infiltration. Further, in an alternate embodiment, the hardenable material can be a thermoplastic material that can be heated by ultrasonic energy to create an adhesive bond between a fastener and bone structure. | 04-09-2009 |
20090254191 | Implant with composite coating - Systems and methods are described for implants with composite coatings to promote tissue in-growth and/or on-growth. An implant includes: a substrate; a structured surface formed on at least a portion of the substrate; and a biocompatible coating deposited on at least a fraction of the structured surface. The systems and methods provide advantages in that the implant has good biocompatibility while the biocompatible coating has good strength. | 10-08-2009 |
20090254192 | BONE FILLER AND METHOD FOR FABRICATING THE SAME - Provided are a bone filler for orthopedic and dental applications and a method of fabricating the same. The bone filler includes a pillar-like body having at least one through hole. In addition, the method of fabricating a bone filler includes preparing a slurry including a bioactive material, pressing the slurry to form a pillar-like body including at least one through hole, and calcining the body. | 10-08-2009 |
20090326671 | MEDICAL DEVICES - The invention to which this application relates is to the provision of medical devices such as implants for use in hips, knees or the like and also tools which may be used in surgery or for medical treatment. At least a portion of the external surface of the device is provided with a particular external surface texture which in accordance with the invention is formed by exposing said portions to at least one power beam. The exposure and relative movement between the device and the beam cause specific controlled configurations of the surface to be created without the need to add additional material and therefore allow the formation of the surfaces to the required configuration while maintaining the integrity of the device. | 12-31-2009 |
20100094430 | Device - An implant for bone replacement and attachment in an animal's body including, a structural portion having an outer porous surface, a ceramic material applied to the porous surface of the structural portion, characterised in that the thickness of the ceramic material as applied utilizing pulsed pressure MOCVD is such that at least some of the pores of the porous surface are not completely closed. | 04-15-2010 |
20100131074 | COMPOSITE POROUS OBJECT - A composite porous object which comprises a biodegradable and bioabsorbable polymer containing bioactive bioceramic particles dispersed therein, the composite porous object having in inner parts thereof large voids | 05-27-2010 |
20100161073 | MOSAICPLASTY CONSTRUCTS - Various embodiments of mosaicplasty constructs and methods for implanting the constructs into anatomical structures. The mosaicplasty constructs may be formed from artificial materials and may include a hard articulating portion and a relatively softer elastic, support portion. The mosaicplasty constructs may include bone ingrowth materials to facilitate ingrowth of bone and other tissues into the construct. The mosaicplasty constructs may also be at least partially formed of hydrogel materials. | 06-24-2010 |
20100161074 | BIODEGRADABLE OSTEOGENIC POROUS BIOMEDICAL IMPLANT WITH IMPERMEABLE MEMBRANE - A biomedical implant is disclosed with osteogenic factors and a solid impermeable membrane occluding a portion of its surface for the generation of new bone growth at the target site of the implant. The implant is porous, bioresorbable, and forms a three dimensional architectural scaffold for the formation of new bone tissue. The implant is formed with a polymer or collagen, bone morphogenetic protein and ceramic particles. | 06-24-2010 |
20100211180 | Tetrahedral Amorphous Carbon Coated Medical Devices - An orthopedic device having a protective coating bonded to the substrate material of the device. The protective coating includes a thin layer of tetrahedral bonded Carbon (ta-C). The substrate also optionally includes an interface layer to facilitate the initial bonding and retention of the ta-C layer. The ta-C layer has a concentration of sp | 08-19-2010 |
20100222892 | JOINT ASSEMBLY INCORPORATING UNDERCUT SURFACE DESIGN TO ENTRAP ACCUMULATING WEAR DEBRIS FROM PLASTIC JOINT ASSEMBLY - A layer applied to a joint defined surface including a general mat shape body exhibiting a plurality of recesses, such that abrading contact with an opposing joint surface creates debris which are entrapped within the recesses during a normal range of motion. The body can further exhibit a first harder plastic substratum and a second softer plastic surface. The recesses further incorporate undercut defined patterns selected from any of circular, linear and arcuate designs. | 09-02-2010 |
20100305712 | COMPRESSED POROUS MATERIALS SUITABLE FOR IMPLANT - A high strength porous polymeric material manufactured by a compression process is disclosed. The material results in a network of interconnected collapsed pores, which forces thin overlapping walls and passages to be created. The network provides permeable access for fluid migration throughout the material. The strength and/or permeability are advantageous for medical devices and implants. | 12-02-2010 |
20110022180 | IMPLANTABLE MEDICAL DEVICES - Implantable medical devices are provided. In one embodiment, a device includes a body having an external surface defining an outer profile of the device. The body includes a porous matrix including a series of interconnected macropores defined by a plurality of interconnected struts each including a hollow interior. A filler material substantially fills at least a portion of the series of interconnected macropores. The external surface of the body includes a plurality of openings communicating with the hollow interior of at least a portion of the plurality of interconnected struts. In a further aspect of this embodiment, the external surface includes exposed areas of the filler material and porous matrix in addition to the exposed openings. In another aspect, the porous matrix is formed from a bioresorbable ceramic and the filler material is a biologically stable polymeric material. Still, other aspects related to this and other embodiments are also disclosed. | 01-27-2011 |
20110022181 | ARTICLE WITH FOAMED SURFACE, IMPLANT AND METHOD OF PRODUCING THE SAME - The objection of this invention is to provide an article with a foamed surface having a porous structure in the surface of a plastic base, an implant and a method of producing them. The article has a body and a superficial layer formed in a surface of the body, the layer including small-diameter and large-diameter pores, wherein part of the small-diameter and large-diameter pores are open pores which are open at the surface of the layer; the open pores have small open pores with an average diameter of 5 μm or less and large open pores with an average diameter from 10 to 200 μm; and the large open pores have an inner wall with passages connected with the small-diameter large-diameter pores. The implant is the article itself or the article with a bioactive substance in the layer thereof. The method provides an example of producing the article and implant. | 01-27-2011 |
20110046746 | DEVICES AND METHODS FOR BONE ALIGNMENT, STABILIZATION AND DISTRACTION - An embodiment of a bone stabilization and distraction system of the present disclosure includes a light-sensitive liquid; a light source for providing light energy; a light-conducting fiber for delivering the light energy from the light source to cure the light-sensitive liquid; a delivery catheter having a proximal end in communication with the light-conducting fiber and the light-sensitive liquid, an inner lumen for passage of the light-conducting fiber, and an inner void for passage of the light-sensitive liquid; and an expandable body removably engaging a distal end of the delivery catheter, wherein the expandable body has a closed end, a sealable open end, an inner cavity for passage of the light-sensitive liquid, an external surface and an internal surface, and wherein the expandable body has an insertion depth with a fixed dimension, a width with a fixed dimension, and a thickness with a changeable dimension. | 02-24-2011 |
20110160869 | BIOCOMPATIBLE MATERIALS FOR MAMMALIAN STEM CELL GROWTH AND DIFFERENTIATION - A biocompatible material, wherein at least a part of a surface of the biocompatible material is characterized by a micro or nano-meter scale topographical structure comprising a plurality of features where the structure is selected to promote the growth of undifferentiated pluripotent stem cells or serve to promote the uniform differentiated growth of stem cells. Furthermore, a biocompatible material is provided having a surface structure and composition that affects a cellular function, in particular cellular functions related to gene induction, cell differentiation and the formation of bone tissue in vivo and ex-vivo. | 06-30-2011 |
20110190902 | METHODS AND DEVICES FOR IMPLANTS WITH IMPROVED CEMENT ADHESION - Biomedical implants (e.g., orthopedic implants) with modified surfaces that can enhance a cement bond's strength (e.g., tensile, shear, and/or fatigue) are disclosed, along with methods of manufacturing and using such implants. The implants can exhibit a variety of physical, chemical, or process-derived features which can enhance cement bonding. For instance, the implant surface can exhibit particular roughness values, and/or be substantially free of non native material. Processes for producing such implants can include providing a first roughened implant surface, which can be produced, for example, by particle blasting. A treatment formulation can be applied to the first roughened surface to create a second roughened surface that exhibits enhanced cement bonding properties relative to the first roughened surface. In some instances, the first roughened surface and the second roughened surface can exhibit substantially similar R | 08-04-2011 |
20120253468 | MEDICAL IMPLANT DEVICE - A medical implant device comprises a substrate ( | 10-04-2012 |
20130013080 | PROSTHETIC IMPLANT SUPPORT STRUCTURE - A prosthetic system that includes a prosthetic implant and a support structure secured to an inner surface of a cavity of a bone is disclosed. The support structure defines a channel that extends through the length of the support structure. The prosthetic implant is received in the channel, and a portion of the prosthetic implant is secured to an inner surface of the support structure by an adhesive. The support structure may comprise a pair of partially hemispherical components arranged in spaced apart relationship thereby defining the channel between the pair of components. | 01-10-2013 |
20130013081 | NANOSURFACE - The invention relates to a method for modification of a biocompatible component comprising the steps of a) providing a biocompatible component at least partly covered by metallic oxide; and b) treating at least a part of said component, which part is covered by said metallic oxide, with an aqueous composition comprising oxalic acid; whereby a modified metallic oxide is obtained. The invention also relates to a biocompatible component comprising a substrate having a surface comprising a) a microstructure comprising pits separated by plateus and/or ridges; and b) a primary nanostructure being superimposed on said microstructure, said primary nanostructure comprising depressions arranged in a wave-like formation. | 01-10-2013 |
20130013082 | METAL MATERIAL FOR BIOIMPLANT - A metal material for a bioimplant which is excellent in biointegration according to the present invention has a surface treated by sandblasting, and | 01-10-2013 |
20130018480 | Implant, component set, method of producing an implant and/or a component set and device for producing an implant and/or a component setAANM KOPP; AlexanderAACI AachenAACO DEAAGP KOPP; Alexander Aachen DE - The invention relates to an implant with a basic body made of aluminum, a method of producing an implant and an device for producing an implant. The implant has a microstructure and a macrostructure. Through this the biochemical interaction between the implant and tissue is optimized with regard to degradation and ingrowth behavior. | 01-17-2013 |
20130131824 | POROUS COATINGS FOR ORTHOPEDIC IMPLANTS - A high-purity porous metal coating is formed over a substrate by thermal spraying a metal coating material over the desired portion of the substrate in an atmospheric air environment. The metal coating material may react with the atmosphere to cause impurities in the applied coating. The impurity-rich portion of the applied coating is subsequently removed to form the high-purity porous metal coating. Process steps are included that cause the impurity-rich portion of the applied coating to be a surface portion that is removable to arrive at the high-purity coating. A protective shroud may be used to limit the amount of impurity imparted to the applied coating and/or a getter material may be employed to continually bring impurities toward the surface of the coated substrate during coating. | 05-23-2013 |
20130158672 | BONE IMPLANT INTERFACE SYSTEM AND METHOD - An orthopedic implant that includes an implant body having a bone contact surface to be in contact or near contact with a bone structure during use, wherein the bone contact surface has a bone interface structure protruding therefrom. The bone interface structure includes a first elongated portion to be at least partially pressed into the bone structure during use, and a second elongated portion to be at least partially pressed into the bone structure during use. The second elongated portion is coupled to the first elongated portion and extends from the first elongated portion at an angle oblique to the first elongated portion. | 06-20-2013 |
20130211536 | Method And Apparatus For Augumenting Bone Defects - A bone augment for repairing a bone defect and associated method. The bone augment includes a porous body and a reinforcement member. The porous body defines a plurality of pores and is configured to be intraoperatively shaped to correspond to the bone defect. The reinforcement member is mounted on an exterior surface of the porous body and is configured to be intraoperatively shaped to correspond to the bone defect | 08-15-2013 |
20130218288 | DYNAMIC POROUS COATING FOR ORTHOPEDIC IMPLANT - A dynamic porous coating for an orthopedic implant, wherein the dynamic porous coating is adapted to apply an expansive force against adjacent bone so as to fill gaps between the dynamic porous coating and adjacent bone and to create an interference fit between the orthopedic implant and the adjacent bone. | 08-22-2013 |
20130253657 | METHOD FOR PRODUCING IMPLANT MATERIAL - The production method of an implant material of the present invention includes
| 09-26-2013 |
20130268085 | SURFACE MODIFIED UNIT CELL LATTICE STRUCTURES FOR OPTIMIZED SECURE FREEFORM FABRICATION - Aspects of the present disclosure relate generally to preparing models of three-dimensional structures. In particular, a model of a three-dimensional structure constructed of porous geometries is prepared. A component file including a porous CAD volume having a boundary is prepared. A space including the porous CAD volume is populated with unit cells. The unit cells are populated with porous geometries having a plurality of struts having nodes on each end. The space is populated with at least one elongated fixation element extending beyond the boundary to produce an interlocking feature enabling assembly or engagement with a mating structure. | 10-10-2013 |
20130274890 | INTERBODY BONE IMPLANT DEVICE - A composite interbody bone implant device is provided including a body having a non-bone composition, such as a polymer, formed into a shape and including one or more cavities. An osteoinductive material, such as bone allograft tissue, may be retained in the one or more cavities of the body. The body is formable via injection molding and/or machining into a shape and size adapted for implantation at a surgical site. The dimensions of the body include a length, a width and a thickness, and the thickness of the body may be less than at least one of the length and width. | 10-17-2013 |
20130304226 | PYROCARBON COATED BONE IMPLANTS - Methods for forming bone implants for the repair of the ends of bones at orthopedic joints, which implants have a Young's modulus close to that of human cortical bone. Substrates of dense isotropic graphite are coated overall with hard, microporous, isotropic pyrocarbon of specific character such that it can be polished to serve as an articular surface and can also securely receive an anchoring first metal layer through PVD. The first layer has a character such that, by thermal spraying a second biocompatible metal layer thereupon, fusion occurs and thereby anchors an outermost layer that is formed with a network of randomly interconnected pores and a surface character of peaks and valleys designed to promote enhanced appositional growth of cortical bone at the interface therewith. | 11-14-2013 |
20130304227 | METHOD OF FORMING LOCAL BONDS TO FASTEN A POROUS METAL MATERIAL TO A SUBSTRATE - An orthopaedic prosthesis is provided having a porous layer and a substrate. A method is also provided for fastening the porous layer to the substrate. The porous layer defines a plurality of through-holes therein to accommodate localized bonding of the porous layer to the substrate through each of the plurality of through-holes. | 11-14-2013 |
20140005793 | NOVEL BIOLOGICAL IMPLANT COMPOSITIONS, IMPLANTS AND METHODS | 01-02-2014 |
20140005794 | GRANULATE MIXTURE COMPRISING TWO DIFFERENT GRANULATES FOR ARTIFICIAL CALLUS DISTRACTION | 01-02-2014 |
20140025179 | BRITTLE BIOCOMPATIBLE COMPOSITES AND METHODS - Reticulated composites are formed with a thin coating of a ductile biocompatible metal such as tantalum on a brittle biocompatible substrate such as vitreous carbon. Such composites exhibit physical properties that permit these monolithic composites to be morselized, or sized and shaped manually. Such composites exhibit surfaces with excellent ductile metal biocompatibility properties, but with strength and fracture physical properties that are more characteristic of the brittle substrate than of the ductile metal. Such composites fracture easily, and may be morselized or worked by manual sizing and shaping. Such morselization and working is accomplished by breaking or fracturing the composite, rather than plastically deforming it. Morselized or manually shaped reticulated composites exhibit excellent biocompatibility characteristics with micro- and nano-textured surfaces that promote rapid bone ingrowth and adhesion. When the composite is broken, the substrate is exposed. The presence of exposed substrate does not significantly impair the biocompatibility of these composites. | 01-23-2014 |
20140058526 | DIRECTIONAL POROUS COATING - Porous regions are formed using selected additive manufacturing techniques. The porous regions can assist in fibro-inductive regions and/or osteo-inductive regions. A prosthetic member can be formed completely with the additive manufacturing technique and/or the additive manufacturing techniques can be used to form an augment portion that is added to the prosthetic member formed separately. | 02-27-2014 |
20140188242 | DEMINERALIZED CANCELLOUS BONE SCAFFOLDS - The present invention provides a cancellous bone scaffold to use in the replacement or repair of connective tissue such as ligaments and tendons. The cancellous bone scaffold has a fully demineralized segment with at least one adjacent mineralized end segment. | 07-03-2014 |
20140195001 | High Strength Injection Molded Orthopedic Devices - High strength implantable devices having complex surfaces are injection molded from powder metal wherein the surface is defined by a monolithic insert made by additive manufacturing. The insert defines the surface texture of the device and may also include a portion to form an ingrowth texture and a portion to form a substrate interface texture. The tensile bond strength of the texture is 20 Mega Pascal or greater. | 07-10-2014 |
20140277559 | Hard-Tissue Implant - Hard-tissue implants are provided that include a bulk implant, a face, pillars, and slots. The pillars are for implantation into a hard tissue. The slots are to be occupied by the hard tissue. The hard-tissue implant has a Young's modulus of elasticity of at least 10 GPa, has a ratio of the sum of (i) the volumes of the slots to (ii) the sum of the volumes of the pillars and the volumes of the slots of 0.40:1 to 0.90:1, does not comprise any part that is hollow, and does not comprise any non-pillar part extending to or beyond the distal ends of any of the pillars. Methods of making and using hard-tissue implants are also provided. | 09-18-2014 |
20140316533 | ENDOSSEOUS IMPLANT - Endosseous implant to be applied to a human or animal bone, wherein the surface of the implant is made from titanium or a titanium alloy, said implant having a smooth or rough surface texture, which is characterized in that said surface has been treated with at least one selected organic phosphonate compound or a pharmaceutically acceptable salt or ester or an amide thereof; process for producing said implants. | 10-23-2014 |
20150012107 | NOVEL BIOLOGICAL IMPLANT COMPOSITIONS, IMPLANTS AND METHODS - The present application is directed to the field of implants comprising processed hard or soft biological tissues for use in implantation in humans. The molded biological tissue implants of the present application are preferably made from allograft soft tissue sources and demineralized bone matrix. The present application provides biological implants exhibiting advantageous properties of absorption, expansion, resiliency and shape retention. The properties of the biological implants produced by the methods of the present application are leveraged in the creation and development of novel biological implant constructs and of novel methods of treatment and surgical technique. | 01-08-2015 |
20150032220 | Wedge Osteotomy Device and Method Of Use - An orthopedic implant system includes a wedge implant. The implant includes a body having an upper surface extending generally in a first plane. The upper surface has a first plurality of longitudinal grooves and a second plurality of transverse grooves extending therealong. Portions of the upper surface extend between adjacent longitudinal grooves and transverse grooves form individual peaks. A lower surface extends generally in a second plane, parallel to the first plane. The lower surface has a third plurality of longitudinal grooves and a fourth plurality of transverse grooves extending therealong. Portions of the lower surface extend between adjacent longitudinal grooves and transverse grooves form individual peaks. | 01-29-2015 |
20150088267 | BONE AUGMENT INTERLOCKING WITH BONE PLATE - A bone augment for filling a void in a bone and providing secure fixation of an implant to the bone includes a sidewall structure having a top surface, a first end and a second end. The sidewall structure rises from a base of the bone augment. The first end of the bone augment is disposed opposite to the second end of the bone augment. An insertion aperture is disposed within the bone augment and extends from the first end of the bone augment to the second end of the bone augment. The bone augment receives a bone plate within the insertion aperture and the bone plate fixes the bone augment within the void. | 03-26-2015 |
20150289978 | PERCUTANEOUS IMPLANT - A percutaneous implant ( | 10-15-2015 |
20150335434 | Additive and Subtractive Manufacturing Process for Producing Implants with Homogeneous Body Substantially Free of Pores and Inclusions - Implants are formed from a multiple staged process that combines both additive and subtractive techniques. Additive techniques melt powders and fragments of a desired material, then successively layer the molten material into the desired implant shape, without compressing or remelting for homogenization of the layers, thereby producing an implant that is substantially free of pores and inclusions. Subtractive techniques refine implant surfaces to produce a bioactive roughened surface comprised of macro, micro, and nano structural features that facilitate bone growth and fusion. | 11-26-2015 |
20150335791 | METHOD OF PREPARING A BONE GRAFT - A vacuum container supports a macroscopic sized cancellous device fully immersed within a solution of a bone growth promoting substance in a sealed chamber. The solution may include one of a Demineralized Bone Matrix (DBM) solution, a morphegenic protein solution, or a stem cell solution. A vacuum creating device is in fluid communication with the sealed chamber, and is operable to remove air from within the sealed chamber to create a vacuum therein. Removing air from the sealed chamber also removes air from a plurality of voids in the cancellous device, which allows the solution to fill the voids and saturate the cancellous device in preparation for use as a bone graft. The cancellous device may further be agitated while the air is being removed from the voids in the cancellous device to further promote saturation of the voids in the cancellous device with the solution. | 11-26-2015 |
20150351915 | Customized Implants For Bone Replacement - The present invention relates to customized implants for bone replacement that are prepared from poly(ether ketone ketone) or PEKK, and to a computer-based imaging and rapid prototyping (RP)-based manufacturing method for the design and manufacture of these customized implants. The PEKK customized implants made using rapid prototyping demonstrate biomechanical properties similar (if not identical) to that of natural bone even when prepared without the use of processing aids such as carbon black and aluminum powder. | 12-10-2015 |
20150366668 | CELLULAR-SCALE SURFACE MODIFICATION FOR INCREASED OSTEOGENIC PROTEIN EXPRESSION - According to various embodiments, a bone product includes bone having at least one patterned surface. The patterned surface includes a plurality of pits. Each of the plurality of pits has a diameter of from about 5 μm to about 15 μm and a depth of approximately half of the diameter. | 12-24-2015 |
20150366669 | PERFORATED MEMBRANE FOR GUIDED BONE AND TISSUE REGENERATION - This disclosure describes a membrane configured to guide bone and tissue regeneration for a bone defect. The membrane may comprise a first layer, a second layer, one or more perforations, a binder, and/or other components. The first layer of the membrane may be configured to contact bone. The first layer may include pores configured to promote ingrowth of bone regenerating cells into the first layer. In some implementations, the first layer may be a continuous sheet of microporous material without large perforations. The second layer may be configured to substantially prevent fibrous connective tissue from growing into the bone defect. The second layer may comprise a relatively dense structure. The second layer may be fixedly coupled to the first layer. In some implementations, the perforations may comprise co-axial through-holes having common dimensions through the first layer and the second layer. The perforations may be configured to enhance ossification. | 12-24-2015 |
20150374503 | IMPLANT FOR FUSION BETWEEN ADJACENT BONE BODIES - The invention relates to three-dimensional implants to facilitate fusion between two adjacent bone bodies and methods of manufacture thereof. | 12-31-2015 |
20160058558 | SINTERABLE AND/OR FUSIBLE CERAMIC MASS, PRODUCTION AND USE THEREOF - A sinterable and/or fusible ceramic mass is disclosed, having a long-term stable compound of crystalline phases of apatite, wollastonite, titanite and optionally cristobalite, which is stabilized by a glass phase, and a production process therefor. The ceramic mass can be obtained by sintering a mixture comprising at least the constituents SiO | 03-03-2016 |
20160128844 | System and Method for Correcting Scoliosis - In described embodiments, an implant has an outer perimeter. The implant includes a top surface extending generally in a first plane and a bottom surface extending in a second plane. The second plane extends obliquely with respect to the first plane. The first plane intersects the second plane outside the outer perimeter of the implant. A medial surface extends between the top surface and the bottom surface proximate to the intersection of the first plane and the second plane. A lateral surface extends between the top surface and the bottom surface distal from the intersection of the first plane and the second plane. An anterior surface extends a first distance between the top surface and the bottom surface between the medial surface and the lateral surface. A posterior surface extends a second distance between the top surface and the bottom surface between the medial surface and the lateral surface. The second distance is greater than the first distance. | 05-12-2016 |
20160151157 | FENESTRATED BONE GRAFT | 06-02-2016 |
20160151539 | FENESTRATED BONE WRAP GRAFT | 06-02-2016 |
20160166301 | SURGICAL IMPLANT WITH POROUS REGION | 06-16-2016 |
20160166386 | OSTEOCONDUCTIVE COATING OF IMPLANTS MADE OF PLASTIC | 06-16-2016 |
20160184103 | POROUS COATING FOR ORTHOPEDIC IMPLANT UTILIZING POROUS, SHAPE MEMORY MATERIALS - A porous coating for a medical implant, wherein the porous coating comprises a porous, shape memory material. | 06-30-2016 |
20160201029 | SCAFFOLD AND METHOD FOR IMPLANTING CELLS | 07-14-2016 |