Entries |
Document | Title | Date |
20080208339 | IMPLANTABLE MEDICAL DEVICE SYSTEM WITH FIXATION MEMBER - A fixation device for a subcutaneous implantable medical device includes a deformable tip portion that reduces in width when coupled with a fixation tool such that implantation of the implantable medical device through tissue is facilitated. Upon release from the fixation tool, the fixation device returns to its initial shape and stably secures the position of the implantable medical device. | 08-28-2008 |
20080215149 | Lightweight Silicone Implant and Manufacturing Method Thereof - Disclosed herein are a lightweight silicone implant which is manufactured by filling a foamed silicone sponge and/or vacant silicone capsules in a silicone bag or a cohesive gel bag and sealing the bag, and a method for manufacturing the same. | 09-04-2008 |
20080221680 | OPTIMIZED ARTICULAR GEOMETRY - Various embodiments of orthopaedic implants which optimize the articular geometries of the implants. An exemplary implant may include a plurality of protrusions which provide an articulating surface and which create paths for fluid movement relative to the implant. | 09-11-2008 |
20080221681 | Methods for Improving Fatigue Performance of Implants With Osteointegrating Coatings - A method which may be used for introducing a residual compressive stress into a body portion of an implantable device configured for implantation in a patient. The body portion may include an outer surface. The method also may include texturing the outer surface of the implantable device to increase a roughness of the outer surface. The outer surface may be coated with an osteointegrating material to increase osteointegration. | 09-11-2008 |
20080221682 | Instant face-lifter - The Instant Face-Lifter is an intra-scalp beautifying device that stretches the face's skin creating a younger appearance with minimum scarring. It consists of an oval-shaped device made of solid medical grade silicone, typically measuring 5 12/16″ long×4 12/16″ wide, with sloping edges and an ever increasing thickness in the direction from border to center, starting at a negligible thickness at the borders and increasing to a varying maximum thickness (i.e. ½″, ¾″, 1″, 1½″, etc.) at its center as to be able to provide the user the desired amount of skin-stretching effect. The upper design of the invention follows a curve which parallels the shape of the skull so that it remains unnoticed from the outside. The invention is slided in the space between the scalp and the galea aponeurotica through a 3″ to 4″ incision on the parietal area using local anesthesia. | 09-11-2008 |
20080221683 | ORTHOPAEDIC IMPLANTS HAVING SELF-LUBRICATED ARTICULATING SURFACES DESIGNED TO REDUCE WEAR, CORROSION, AND ION LEACHING - Mechanical devices such as prosthetic knees, hips, shoulders, fingers, elbows, wrists, ankles, fingers and spinal elements when implanted in the body and used as articulating elements are subjected to wear and corrosion. These prosthetic implants are usually fabricated in modular form from combinations of metallic materials such as stainless steels, Co—Cr—Mo alloys, and Ti—Al—V alloys; plastics such as ultra high molecular weight polyethylene (UHMWPE); and ceramics such as alumina and zirconia. As the articulating surfaces of these materials wear and corrode, products including plastic wear debris, metallic wear particles, and metallic ions will be released into the body, transported to and absorbed by bone, blood, the lymphatic tissue, and other organ systems. The polyethylene wear particles have been shown to produce long term bone loss and loosening of the implant. And, even very low concentrations of metallic wear particles and metallic ions are suspect in causing adverse toxic, inflammatory, and immunologic tissue reactions. This invention provides prosthetic implants having articulating surfaces that exhibit a reduced rate of release of wear debris and metal ions into the body and a method of producing such prosthetic implants. | 09-11-2008 |
20080221684 | Devices, systems, and methods to fixate tissue within the regions of body, such as the pharyngeal conduit - Devices, systems and methods develop static and/or kinetic and/or pressure forces to fixate or brace tissue in targeted pharyngeal structures and individual anatomic components within the pharyngeal conduit. | 09-11-2008 |
20080228268 | Method of Formation of Viscous, Shape Conforming Gels and Their Uses as Medical Prosthesis - This invention provides a viscous, shape conforming gel, comprising between about 1% and 50% by weight (dry) of a plurality of polymeric nanoparticles suspended in a liquid or liquids, at least one of which is polar. The plurality of polymeric nanoparticles contained in the gel have an average diameter of less than 1 micrometer and are comprised of an effective amount of polymeric strands each of which is obtained by polymerization of an effective amount of a monomer or two or more monomers in a polar liquid or a mixture of two or more miscible liquids, at least one of which is polar, and an effective amount of a surfactant to stabilize the plurality of gel particles, thereby forming a suspension of gel particles. | 09-18-2008 |
20080228269 | MOULDED ARTICLE AND MASS AND METHOD FOR PRODUCTION THEREOF - Embodiments are directed to moulded article, provided with granules made of a bio-compatible material, which granules have a substantially porous structure and are interconnected, forming a rigid or semi-rigid structure; a mass for forming such a moulded article; and a method for forming a moulded article, comprising the steps of providing a mass comprising at least granules made of a bio-compatible material and having a porous structure, and pressing said mass, especially said granules together, for forming a rigid or semi-rigid structure. | 09-18-2008 |
20080228270 | Implantable Medical Device with a Voltage Protection Circuit - An implantable medical device has a hermetically sealed housing with at least one feedthrough therein for a conductive path between an RF antenna carried by the housing, and an RF telemetry circuit contained in the housing. The feedthrough has a feedthrough housing with a capacitor element therein having first and second capacitor plate configurations, with a first of the capacitor plate configurations being connected to the RF antenna and a second of the capacitor plate configurations being connected to the RF telemetry circuit. The feedthrough functions both as a hermetic seal and as a galvanic isolation for voltage protection of the components of the RF telemetry circuit, and other circuitry in the sealed housing connected thereto. | 09-18-2008 |
20080255664 | PERCUTANEOUSLY DELIVERABLE ORTHOPEDIC JOINT DEVICE - A percutaneously implantable orthopedic device is a shape-changing joint prosthesis with a generally arcuate or generally rectilinear configuration which is delivered through a delivery device in a substantially straightened or slightly curved configuration into a joint in a patient. The generally arcuate configuration may include an open ring or spiral shape. The generally rectilinear configuration may include a polygon or zig-zag shape. The delivery and retrieval device can be a syringe, hypodermic needle or cannula. The orthopedic device is moveable into its generally arcuate or generally rectilinear configuration in the joint by manipulation or a shape memory set. The orthopedic device acts as a soft compliant bearing surface or cushion that minimizes the bone-on-bone wear from articulation and loading. | 10-16-2008 |
20080262613 | Biocompatible, Biodegradable Polyurethane Materials With Controlled Hydrophobic to Hydrophilic Ratio - The biocompatible, biodegradable materials in the solid and/or liquid form are based on segmented linear polyurethanes and/or segmented crosslinked polyurethanes based on A) one or more biocompatible polyols susceptible to hydrolytic and/or enzymatic degradation having a molecular weight of 100 to 20,000 dalton and a number of active hydroxyl groups per molecule (functionality) of at least two or higher; B) one or more diisocyanates and/or triisocyanates; and C) one or more low molecular weight chain extenders having a molecular weight of 18 to 1000 dalton and the functionality of at least two or higher. | 10-23-2008 |
20080262614 | METHODS OF MAKING AND USING SURFACTANT POLYMERS - Comblike, surfactant polymers for changing the surface properties of biomaterials are provided. Such surfactant polymers comprise a polymeric backbone of repeating monomeric units having functional groups for coupling with side chains, a plurality of hydrophobic side chains linked to the backbone via the functional groups, and a plurality of hydrophilic side chains linked to said backbone via the functional groups. Medical devices coated with the surfactant polymers are also provided. The surfactant polymers may be used to decrease the thrombogenic properties, encapsulation, and bacterial colonization of medical devices. | 10-23-2008 |
20080269893 | Prosthesis with a Selectively Applied Bone Growth Promoting Agent - An implantable prosthesis system including a selectively applied bone growth promoting agent is disclosed. The types of prostheses which may include a selectively applied bone growth promoting agent include rods, fracture plates, screws, as well as other types of prostheses. Additionally, the structural composition of many types of prostheses may be modified to help induce bone ingrowth and allow for fusion with the implantable prosthesis. | 10-30-2008 |
20080281420 | Neural Implant - The invention relates to a biocompatible neural implant for bridging interruptions or defects in nerves resulting from injuries sustained in an accident or following surgery. Inventive neural implants comprise fibers made from natural or synthetic spider silk and allow interrupted nerves to regenerate across defects such that functional nerve conduction is made possible within a short period of time. | 11-13-2008 |
20080300682 | Sintered Coatings For Implantable Prostheses - The present invention concerns articles having an outer surface that bears at least two layers of metal particles, wherein the at least two layers comprise an outermost layer and an intermediate layer; the outermost layer consisting essentially of aspherical metallic particles having a mean particle size of 50 to 500 microns; and the intermediate layer consisting essentially of substantially spherical metallic particles having a mean particle size of from 50 to 500 microns. In some embodiments, the outer surface has a volume porosity of between about 20% to about 80%. | 12-04-2008 |
20080306591 | Implantable medical devices with elastomeric block copolymer coatings - Implantable medical devices with elastomeric block copolymer coatings are disclosed. | 12-11-2008 |
20080306592 | Elastomeric copolymer coatings for implantable medical devices - Implantable medical devices with elastomeric copolymer coatings are disclosed. | 12-11-2008 |
20080312740 | Metal alloy for medical devices and implants - The present invention relates to a medical device or implant made at least in part of a high strength, low modulus metal alloy comprising Niobium, Tantalum, and at least one element selected from the group consisting of Zirconium, Tungsten and Molybdenum. The medical devices according to the present invention provide superior characteristics with regard to biocompatibility, radio-opacity and MRI compatibility. | 12-18-2008 |
20090005868 | Osteogenic prosthesis, associated instrument, and associated method - A prosthetic implant for securing to bone to form an articulating joint is provided. The implant is prepared by a process which includes the steps of preparing a porous surface on a component to form a prosthetic implant, placing the prosthetic implant including the porous surface in a fixture closely conforming to the porous surface of the implant and having an inlet and an opposed outlet, and directing a biological compound including stem cells into the inlet, through the porous surface of the implant and out of the outlet to form a prosthetic implant having a porous surface coated with a portion of the biological compound. | 01-01-2009 |
20090005869 | Device which Attaches into a Joint and Carries a Payload of Controlled Release Drugs and Related Method thereof - A device that is secured inside a human or animal joint. The device may include, but not limited thereto, the following components: 1) eyelets for suture; 2) endcaps; 3) a longitudinal core; 4) optional additional longitudinal members; and 5) a space for carrying a payload of controlled release drug. Numerous preparations of controlled release drugs have been proposed. This device acts as a platform for said preparations and drugs. It is distinguished by, among other things, its geometry and structural elements which are optimized for: 1) surgical passage into a joint; 2) stable attachment inside of a joint; and 3) secure carriage of the payload device for controlled release of drug. | 01-01-2009 |
20090012610 | Medical Devices - Medical devices and related methods are disclosed. In some embodiments, a method of manufacturing a medical device or a medical device component includes contacting a non-fluid first member and a second member, the first member comprising a first polymer and an alignable material different from the first polymer; aligning the alignable material; and bonding the first and second members together. | 01-08-2009 |
20090012611 | PLASMA SPRAYED POROUS COATING FOR MEDICAL IMPLANTS - A prosthesis having an oxidized zirconium surface and a porous textured surface is described. A major advantage of the prosthesis is increased service life. Additionally, a process of manufacturing the prosthesis is described. | 01-08-2009 |
20090012612 | DEVICES AND METHODS FOR PUSH-DELIVERY OF IMPLANTS - Devices and treatments for a joint include a resilient elongate orthopedic device inserted into a joint space using a delivery instrument. The orthopedic device is housed in a delivery cavity of the delivery instrument delivered to an implantation site using a push mechanism. The delivery instrument optionally comprises a guide or tongue structure to facilitate positioning of the delivery instrument about the implantation site. | 01-08-2009 |
20090012613 | Composite Self-Cohered Web Materials - The present invention is directed to implantable bioabsorbable non-woven self-cohered web materials having a high degree of porosity. The web materials are very supple and soft, while exhibiting proportionally increased mechanical strength in one or more directions. The web materials often possess a high degree of loft. The web materials can be formed into a variety of shapes and forms suitable for use as implantable medical devices or components thereof. | 01-08-2009 |
20090018653 | HYBRID AND PORTABLE POWER SUPPLIES FOR ELECTROLYTICALLY DETACHING IMPLANTABLE MEDICAL DEVICES - A medical system comprises a power supply coupled to an implant assembly, the power supply configured for detecting an energy delivery type of the implantable assembly and delivering electrical energy to the implant assembly in a mode corresponding to the detected energy delivery type, thereby electrolytically severing the joint. In another embodiment, a power supply is provided for use with a medical device having an elongated member and a terminal disposed on a proximal end of the elongated member. The power supply including power delivery circuitry, an electrical contact coupled to the power delivery circuitry, a port configured for receiving the proximal end of the elongated member, and an electrically insulative compliant member configured for urging the electrical terminal into contact with the electrical contact when the proximal end of the elongated member is received into the port. | 01-15-2009 |
20090024215 | MULTILAYER TISSUE IMPLANT HAVING A COMPLIANCE THAT SIMULATES TISSUE - Disclosed are implantable tissue augmentation devices, methods, and associated tools. The devices include an inflatable body, having an inner layer and an outer layer. A valve is provided for permitting the introduction of and retaining inflation media. At least one pull tab is provided on an end of the implant, to assist in positioning the implant. Kits and systems are also disclosed. | 01-22-2009 |
20090043387 | IMPLANTATION OF MAGNETS IN BONE TO REDUCE CONTACT PRESSURE - Permanent magnets are implanted in bone to unload compressive forces at joints using the repulsive force therebetween. A porous metal container is implanted first and becomes fixed in place by bone growth. The permanent magnet is then inserted in the container and retained in place. A magnet prescription system includes a display and input device which enables a user to alter parameters such as magnet size, strength and placement and calculate and display the repulsive force that will result. | 02-12-2009 |
20090043388 | DRUG ELUTING COATINGS FOR MEDICAL IMPLANTS - Drug eluting coating compositions are composed of at least one therapeutic agent dispersed in modified, biologically active binders. The therapeutic agents included in the coating composition are paclitaxel, sirolimus, tacrolimus, everolimus, actinomycin-D, dexamethasone, mycophenolic acid, cyclosporins, estradiol, and derivatives and analogs thereof. These therapeutic agents are applied to the surface of the medical device by a modified, biologically active binders. By using these biologically active binders, the therapeutic agents can be applied to at least one surface of a medical implant without using inert polymer carriers. | 02-12-2009 |
20090048672 | BONE SUPPORT DEVICES AND METHODS - Provided herein are methods, devices and kits for reducing the risk of fracturing a bone. A device is provided comprising an implantable pad for absorbing, deflecting, and/or diffusing an exterior impact force on a bone. A device is provided for strengthening and/or reinforcing a bone at typical fracture sites prior to fracture and/or along lines of tension and compression forces. The devices may comprise a coil adapted to be implanted in the bone. The device may comprise a rod adapted to be implanted in the bone. The devices may comprise a deployable element adapted to be deployed in the bone. The device may comprise a scaffold adapted to be implanted in the bone. The device may comprise a reinforcing material and/or means for reinforcing and/or strengthening the bone at typical fracture sites prior to fracture and/or along lines of tension and compression forces. | 02-19-2009 |
20090054981 | INTERVENTIONAL MEDICAL DEVICE FOR USE IN MRI - A medical device with metal parts to be introduced into animal or human bodies is rendered visible during RMN imaging by covering the exterior surface of the metal parts with a layer comprising Nickel monoxide. When placed within the electromagnetic field generated by a NMR apparatus, the layer reduces disturbances induced in this field in the vicinity of the metal part. This improvement is chiefly related to endoprostheses for subjects or patients who will be submitted to NMR imaging. In particular, the invention is aimed at luminal endoprostheses comprising a metal frame, as stents. | 02-26-2009 |
20090062914 | DEVICES AND METHODS FOR INTERVERTEBRAL THERAPY - Disclosed are devices, systems and methods for treating vertebral diseases and injuries, and more particularly to devices, systems and methods of delivering therapy to the spine within or in close proximity to the intervertebral disc space or vertebral endplate. The method involves positioning an implant having an internal passageway with a proximal and distal opening into a vertebra such that the distal opening is adjacent a delivery site such as an intervertebral disc space or a vertebral endplate. The method also involves delivery a therapeutic substance through the proximal opening and through the internal passageway to the delivery site while the implant is positioned in the vertebra. The devices, systems and methods can be performed with and without spinal fixation. | 03-05-2009 |
20090069892 | Impact Protection for Implants - An implantable device includes an implantable housing having an outer surface and providing a hermetically sealed interior volume. A flexible electric lead is mechanically connected to the housing and electrically connected to circuitry within the interior volume. An impact protector overlies at least a portion of the outer surface of the housing and shields the underlying housing surface from the force of a mechanical impact. | 03-12-2009 |
20090088845 | TITANIUM TANTALUM OXYGEN ALLOYS FOR IMPLANTABLE MEDICAL DEVICES - The present disclosure relates to alloys of titanium, tantalum, and oxygen that include from greater than 0 to about 60 weight % tantalum, from greater than or equal to about 0.10 weight % oxygen, and the balance titanium and other impurities. Also disclosed are methods of making such alloys. In addition, articles of manufacture including such alloys, such as biomedical implants, are disclosed. | 04-02-2009 |
20090093879 | MICRO- AND NANO-PATTERNED SURFACE FEATURES TO REDUCE IMPLANT FOULING AND REGULATE WOUND HEALING - An exemplary embodiment provides a medical implant with implant surfaces that are exposed to body tissue when the medical implant is inserted into a body of a recipient. The implant has a micro- or a nano-sized pattern on at least a portion of the implant surfaces. Optionally, the micro- or nano-sized pattern may be a periodic (or “repeating”) pattern. Further, the micro- or nano-sized pattern may have geometric features, such as grooves, circles, triangles, rectangles, pentagons and hexagons. | 04-09-2009 |
20090099658 | ARRANGEMENT FOR THE FIXATION OF AN IMPLANTABLE MEDICAL DEVICE - A medical implant, such as a cochlear implant, comprising a fixating point which is located remotely from the medical implant. This arrangement can reduce the risk of post operative infection in a patient in which the medical implant is implanted. | 04-16-2009 |
20090105818 | Malleable Prosthesis with Enhanced Concealability - A penile prosthetic device comprising a column formed of resilient material. The prosthetic device comprises multiple malleable cores arranged inside the column. The multiple malleable cores are spaced apart from one another. | 04-23-2009 |
20090112315 | MEDICAL IMPLANTS AND METHODS FOR DELIVERING BIOLOGICALLY ACTIVE AGENTS - Medical implants, such as orthopedic implants of the type used in partial or total joint replacement procedures, for example. The implants include a porous substrate, and a bearing portion of a polymeric material, for example, which is at least partially molded within the porous substrate. The bearing portion includes a bearing surface that is exposed to an articulating component of another medical implant, and the porous metal substrate contacts the bone for osseointegration of the bone tissue into the porous substrate to anchor the implant. The porous substrate may include biodegradable carrier materials, in the form of one or more layers, that carry biologically active agents such as antibiotics and bone growth factors, for example. The layers of biodegradable carrier materials may be tailored such that, after implantation of the implants, the biologically active agents are released sequentially and/or over time into the surrounding tissue to reduce the chances of infection and/or to promote osseointegration of the implant, for example. | 04-30-2009 |
20090112316 | MANIPULATOR APPARATUS AND MEDICAL DEVICE SYSTEM - A medical device system includes a manipulator including a plurality of joints, a parameter storing portion for storing joint parameters, including a largest available force, of each joint of the plurality of joints, a trajectory inputting portion for inputting, as a trajectory plan, trajectories for moving a distal end of the manipulator from a current position and attitude to a target position and attitude, a trajectory setting portion for setting a joint angle trajectory for each joint providing a largest available force from among joint angle trajectories which allow movement to the target position and attitude with a minimum number of driven joints based on a largest available force parameter for the each joint stored in the parameter storing portion and the trajectory plan. | 04-30-2009 |
20090132042 | IMPLANTABLE DEVICE INCLUDING A RESORBABLE CARRIER - An implantable device for body tissue, including an electrical subsystem that flexes within and interfaces with body tissue and a carrier that operates in the following two modes: provides structural support for the electrical subsystem during implantation of the device in body tissue and allows flexing of the electrical subsystem after implantation of the device in body tissue. The implantable device is preferably designed to be implanted into the brain, spinal cord, peripheral nerve, muscle, or any other suitable anatomical location. The implantable device, however, may be alternatively used in any suitable environment and for any suitable reason. | 05-21-2009 |
20090132043 | Prosthesis with Bladder that Adjusts Girth - A prosthetic device comprises a column formed of resilient material and having a proximal end and a distal end. The prosthetic device comprises a bladder having a liquid cavity at the distal end. The bladder is inflatable and deflatable to increase and decrease a girth at the distal end of the prosthetic device. The prosthetic device comprises a liquid supply system that couples along the column to the bladder for selectively controlling liquid flow to the bladder to increase and decrease the girth. | 05-21-2009 |
20090132044 | Prosthesis with Bendable Central Region - A prosthetic device including a column of resilient material that has a central region between the proximal and distal ends. The central region has a reduced diameter relative to the proximal and distal ends. Discs protrude from the central region. | 05-21-2009 |
20090177279 | Medical oscillating compliance devices and uses thereof - The present invention relates to devices and systems that alter intracranial compliance, cerebral blood flow and/or intracranial pressure pulsatility/waveform by oscillating the contraction and expansion of a compressible composition within the cranial or spinal cavities such that they increase intracranial capacity. The contraction and expansion of the compressible composition in the oscillating compliance devices can be due to an individual's intracranial pressure, the result of the expansion and compression of a reservoir which is mediated by the contractility of the heart or driven by a pump gaited to a biorhythm. The invention also relates to methods for protecting an individual's brain from abnormal arterial pulsations and for altering an individual's cerebral blood flow using the devices and systems of the invention. The oscillating compliance devices can be used to treat several diseases and/or conditions characterized by altered/abnormal intracranial compliance, cerebral blood flow and/or intracranial pressure pulsatility/waveform, including hydrocephalus, stroke, dementia and migraine headaches, vasospasms, congestive heart failure, cardiopulmonary bypass or carotid endarterectomy. | 07-09-2009 |
20090177280 | Implant With Multiple Coating - The present invention relates to an artificial implant or a part thereof coated with at least two drugs, a method of preparing the same and a method of treating a subject, wherein the implant according to the invention is implanted into a subject. | 07-09-2009 |
20090177281 | STERILE DEVICE AND METHOD FOR PRODUCING SAME - A sterile device immersed in a sterile buffer and a method for providing same. The sterile device may be a medical device such as a biosensor having a biomolecule as a sensing element such as, for example, a glucose oxidase enzyme. The buffer may be a bicarbonate solution. Both the device and the buffer may be packaged and stored over long term while maintaining sterilization. The sterilization method may comprise a combination of gaseous, liquid and light sterilization. | 07-09-2009 |
20090182424 | Bioerodible self-deployable intragastric implants - Described herein are bioerodible, biodegradable, or digestible self-deploying intragastric implants that may be swallowed. Once swallowed, the implants undergo self-expansion in the stomach and apply a suitable pressure against the stomach wall to provide a feeling of satiety to the individual. The implants then dissolve or are disassembled perhaps using gastric liquids and pass out of the stomach. Methods of using the devices, perhaps for an individual participating in a dietary control regimen, are described. | 07-16-2009 |
20090182425 | Sheet or Tubular Structure Consisting of Elastic Biocompatible Material and its Use - The present invention relates to a sheet or tubular structure consisting of biocompatible material, which is elastic and comprises at least one biologically active substance in at least one region and to a sheet or tubular structure, which comprises at least one biologically active substance release-modifying agent in at least one region as well as an implant covered at least partially by the sheet or tubular structure of the invention. The present invention further provides a method and an apparatus for producing, and preferably customizing and/or optimizing, the sheet or tubular structure of the invention. The sheet or tubular structure of the invention can be customized/optimized before implantation in the operating room. | 07-16-2009 |
20090182426 | IMPLANTABLE MEDICAL DEVICE WITH ANTENNA - An implantable medical device for use in a patient management system is described including a sensor, a processor, and a first communications unit. The first communications unit can deliver notification of significant events to a host computer using a short-range telemetry first communications link. A second communications unit can deliver notification of the significant events to the host computer over a second communications link, which is over a pervasive wireless communications network, such as a cell phone network. The device includes an antenna that is operatively connected to both the first and second communications units. | 07-16-2009 |
20090187243 | BIOCOMPATIBLE COPPER-BASED SINGLE-CRYSTAL SHAPE MEMORY ALLOYS - We describe herein biocompatible single crystal Cu-based shape memory alloys (SMAs). In particular, we show biocompatibility based on MEM elution cell cytotoxicity, ISO intramuscular implant, and hemo-compatibility tests producing negative cytotoxic results. This biocompatibility may be attributed to the formation of a durable oxide surface layer analogous to the titanium oxide layer that inhibits body fluid reaction to titanium nickel alloys, and/or the non-existence of crystal domain boundaries may inhibit corrosive chemical attack. Methods for controlling the formation of the protective aluminum oxide layer are also described, as are devices including such biocompatible single crystal copper-based SMAs. | 07-23-2009 |
20090198335 | INFRA-ORBITAL IMPLANT - An infra-orbital implant is provided for surgically altering the appearance of an infra-orbital region of an associated human eye. The implant includes a body made from a biocompatible material adapted for use with human tissue. The body includes an anterior surface and a posterior surface. The anterior surface of the body includes a skin tone correction surface. The skin tone correction surface of the infra-orbital implant cooperates with the overlying skin to correct a skin tone of the infra-orbital region when the implant is introduced beneath the skin portion of the infra-orbital region of the associated human eye. | 08-06-2009 |
20090204213 | METALLIC IMPLANTS - Disclosed is a method of preparing a medical implant. The biocompatible metal surface of the implant is subjected to electrochemical etching in an electrolyte solution to which a current has been applied. | 08-13-2009 |
20090216325 | Method And Apparatus For Providing Resorbable Fixation Of Press-Fit Implants - A press-fit prosthesis for replacing a portion of a bone. The prosthesis can comprise a first side and a second side opposite the first side. The second side can be operable to engage the bone. The prosthesis can include at least one resorbable fixation member coupled to the second side such that the at least one resorbable fixation member does not extend through to the first side. The at least one resorbable fixation member can be coupled offset from a center of the second side. The at least one resorbable fixation member can substantially resist movement of the prosthesis relative to the bone. The at least one resorbable fixation member can resorb at a rate that enables bone in-growth to fixedly couple the prothesis to the bone. | 08-27-2009 |
20090222088 | Secondary Amine Containing Nitric Oxide Releasing Polymer Composition - Disclosed herein are polymers used to coat or form implantable medical devices. The polymers comprise secondary amines useful in binding nitric oxide (NO). After diazeniumdiolation, the polymers can sustain controlled release of NO. In one embodiment, the secondary amines are linked to a functionalized dendrimer. In another embodiment, secondary amines are chelated with copper (II) which in turn serve as a catalyst for NO production. | 09-03-2009 |
20090265001 | METHODS FOR MAKING OXIDATION RESISTANT POLYMERIC MATERIAL - The present invention relates to methods for making oxidation resistant medical devices that comprise polymeric materials, for example, ultra-high molecular weight polyethylene (UHMWPE). The invention also provides methods of making antioxidant-doped medical implants, for example, doping of medical devices containing cross-linked UHMWPE with vitamin E by diffusion and materials used therein. | 10-22-2009 |
20090281623 | CUSTOMIZATION OF IMPLANTABLE MEDICAL DEVICES - A custom implantable medical device (IMD) may be formed based on an image of a structure of a patient, such as the head of the patient. The custom implantable medical device may include a custom member that at least partially encapsulates a module of the IMD, or may include a custom housing that encloses a module of the IMD. The custom member or custom housing may be constructed to conform to a shape determined based on the image. The image of the head of the patient may include an image of a skull of the patient, an image of a scalp of the patient, or an image of vascular or neurological structures in the head of the patient. | 11-12-2009 |
20090281624 | SYNTHETIC BIOCOMPATIBLE MATERIAL HAVING AN IMPROVED OXIDATION RESISTANCE, PROCESS FOR PREPARING THE SAME AND PROSTHETIC ARTICLES OBTAINED THEREFROM - Biocompatible material, in particular prosthetic material with improved resistance to oxidation, comprising UHMWPE and one or more antioxidants selected from the group consisting of lipoic acid, its analogs and derivatives, Vitamin C, coenzyme Q10, glutathione. It is also disclosed a process to prepare such material. | 11-12-2009 |
20090292359 | POROUS AND NONPOROUS MATERIALS FOR TISSUE GRAFTING AND REPAIR - “Implants, such as interbody spacers, fusion devices and bone grafts, are provided having improved mechanical properties and/or degradation profiles. Such implants include a three-dimensional scaffold formed from particles, such as microspheres, which may in some embodiments be resorbable or biodegradable and which may have at least two different degradation rates. In some embodiments, the scaffold may be elastomeric. The three-dimensional scaffold may be for example, porous or semi-porous. Also provided are kits including such implants, and methods of producing and using the same.” | 11-26-2009 |
20090292360 | POROUS AND NONPOROUS MATERIALS FOR TISSUE GRAFTING AND REPAIR - Implants, such as interbody spacers, fusion devices and bone grafts, are provided having improved mechanical properties and/or degradation profiles. Such implants include a three-dimensional scaffold formed from particles, such as microspheres, which may in some embodiments be resorbable or biodegradable and which may have at least two different degradation rates. In some embodiments, the scaffold may be elastomeric. The three-dimensional scaffold may be for example, porous or semi-porous. Also provided are kits including such implants, and methods of producing and using the same. | 11-26-2009 |
20090319041 | HIGHLY HAEMOCOMPATIBLE AND BIODEGRADABLE POLYMER AND USES THEREOF - A new biodegradable polymer composed by poly(D,L)lactic acid (PDLLA) and Vitamin E (α-tocopherol) is disclosedα. This polymer shows a high degree of haemocompatibility compared to the original polymer (PDLLA) and is a good candidate as coating material of different biomaterials. | 12-24-2009 |
20090319042 | THREADED PART THAT IS TO BE CONNECTED TO THE THREADED HOLE OF AN IMPLANT - Threaded part ( | 12-24-2009 |
20100010630 | PLASTIC IMPLANT IMPREGNATED WITH A DEGRADATION PROTECTOR - A plastic implant device for a mammal that contains a rare earth metal compound tracer and a method for detecting degradation such as wear of the implanted device are disclosed. The tracer can also be present with a separate antioxidant or the tracer compound can be can be the salt of a C | 01-14-2010 |
20100036491 | Polyethylene cross-linked with an anthocyanin - A method for manufacturing of ultrahigh molecular weight polyethylene (UHMWPE) for implants, where the implants have been machined out of UHMWPE blocks or extruded rods, has anthocyanin dispersely imbedded in the polyethylene. The implant is then exposed to γ ray or electron beam irradiation in an amount of at least 2.5 Mrad followed by a heat treatment to prevent the implant from becoming brittle in the long term as well as to improve strength and wear. The method includes mixing a powder or granulate resin of UHMWPE with an aqueous liquid that contains anthocyanin in a predetermined amount. The water is then evaporated in order to deposit the anthocyanin in a predetermined concentration on the polyethylene particles. The doped UHMWPE particles are compressed into blocks at temperatures in a range of approximately 135° C.-250° C. and pressures in a range of approximately 2-70 MPa. Medical implants are made from the blocks. | 02-11-2010 |
20100070031 | Artificial joint - The present invention relates to an implant for surgical use in humans or vertebrate animals in the replacement, partial replacement or reinforcement of a joint or an intervertebral disk and to a method for the production of an implant. In a first embodiment, the implant comprises a composite structure of a first section, which is formed at least by one compression-molded component made of wire, and a second section, with the first section being at least in parts embedded in the second section. In a second embodiment, the implant also comprises a compression-molded component. This component is formed by a wire made of a first material, with parts of said wire of the molded component having a coating made of a second material. | 03-18-2010 |
20100076556 | In-vivo biodegradable medical implant - In-vivo biodegradable medical implants, containing at least in part at least partially fine-grained metallic materials that are strong, tough, stiff and lightweight, are disclosed The in-vivo biodegradable implants are used in a number of stent applications, for fracture fixation, sutures and the like. The in-vivo biodegradable medical implants enable the reduction of implant size and weight and consequently result in reducing the release of implant degradation products into the body | 03-25-2010 |
20100082101 | HIGHLY CRYSTALLINE POLYETHYLENE - The present invention relates to methods for making highly crystalline polymeric material, for example, highly crystalline cross-linked and not cross-linked ultra-high molecular weight polyethylene (UHMWPE). The invention also provides methods of making additive-doped highly crystalline polymeric material using high pressure and high temperature crystallization processes, medical implants made thereof, and materials used therein. | 04-01-2010 |
20100082102 | Porous bioabsorbable implant - The bioabsorbable implant described has a porous body formed of bioabsorbable materials that have an in vivo life span of at least 2 weeks, preferably at least three weeks and not greater than 20 weeks, preferably no greater than ten weeks. The implant has a scaffolding structure which facilitates tissue in-growth and ultimately tissue replacement of the scaffolding structure. The implant has a radiopaque imaging agent at least at the exterior margins and an orientation plurality of radiopaque elements in the interior of implant. The implant preferably has three radiopaque elements within the interior that form a plane within the implant interior. | 04-01-2010 |
20100094418 | METHOD FOR PREPARING A COMPOSITE MATERIAL, RESULTING MATERIAL AND USE THEREOF - The invention relates to a method for preparing a composite material having a homogeneous composition, containing at least one bioactive ceramic phase and at least one bioresorbable polymer. The inventive method is characterised in that it comprises the following steps: a) a bioactive ceramic phase in powder form is obtained, b) the bioactive ceramic powder is suspended in a solvent, c) a bioresorbable polymer is added to the suspension obtained in (b) and mixed to produce a viscous homogeneous dispersion of said bioactive ceramic powder in a solution formed by the solvent and the polymer, and d) the dispersion obtained in (c) is precipitated in an aqueous solution in order to obtain a homogeneous composite material. The invention also relates to the resulting composite material and to the use thereof in the production of implantable medical devices. | 04-15-2010 |
20100114312 | HUMAN IMPLANTABLE TISSUE EXPANDER - An implantable tissue expander including an internal skeletal element extending between a base surface and an outer surface and including at least one plurality of elongate cells extending along mutually generally parallel axes from the base surface to the outer surface and being defined by elongate cell walls formed of a resilient material and a sealed enclosure, sealing the internal skeletal element and adapted for preventing body fluids from filling the plurality of elongate cells. | 05-06-2010 |
20100114313 | ANTI-ADHESION SURGICAL MEMBRANE - The membrane is made of a polymeric material, characterized in that one ( | 05-06-2010 |
20100121446 | IMPLANT ASSEMBLY - A implant assembly ( | 05-13-2010 |
20100131062 | METHODS AND SYSTEMS OF CONTROLLED COATING OF NANOPARTICLES ONTO MICRO-ROUGH IMPLANT SURFACES AND ASSOCIATED IMPLANTS - The invention provides methods and systems that control the application of a material onto micro-rough implant surfaces. Thus, the present invention provides method of applying crystalline nanoparticles onto the surface of an implant to produce an implant with a crystalline nanoparticle layer on its surface, the method comprising: providing an implant substrate body; applying crystalline nanoparticles onto the surface of the implant; and rotating the implant, to produce an implant with a crystalline nanoparticle layer on its surface. This method of nanoparticle application is designed to promote the integration of implants, such as dental and orthopedic screws, into living tissue, and offers the ability to control the thickness and uniformity of the nanoparticle layer, in one or several layers, while simultaneously retaining the microroughness of the implant. Further provided are systems for applying crystalline nanoparticles onto the surface of an implant and implants having a crystalline nanoparticle layer on their surfaces. | 05-27-2010 |
20100161053 | Implant and Method for Manufacturing - The present invention proposes an implant, in particular an intraluminal endoprosthesis, having a body, comprising at least one at least largely biodegradable metallic material, in particular magnesium or a magnesium alloy. To improve the degradation behavior, the implant has a first layer on at least a portion of its body surface, said layer containing a hydrogen-binding material, preferably palladium. Furthermore, methods for producing such an implant are given. | 06-24-2010 |
20100168854 | Method for Producing Implants With An Ultrahydrophilic Surface - The present invention concerns a process for the production of implants with an ultrahydrophilic surface as well as the implants produced in that way and also processes for the production of loaded, so-called bioactive implant surfaces of metallic or ceramic materials, which are used for implants such as artificial bones, joints, dental implants or also very small implants, for example what are referred to as stents, as well as implants which are further produced in accordance with the processes and which as so-called “delivery devices” allow controlled liberation, for example by way of dissociation, of the bioactive molecules from the implant materials. | 07-01-2010 |
20100168855 | Method of Applying Renewable Polymeric Lens Coating - Disclosed are biomedical devices having a hydrophilic coating on a portion of a surface thereof, the biomedical device comprising: (a) a biomedical device obtained from a polymerization product of a monomeric mixture comprising (i) a polymerizable monomer containing a boronic acid moiety and an electron withdrawing moiety; and (ii) a biomedical device-forming comonomer; and (b) a hydrophilic reactive polymer having complementary reactive functionalities along the polymer chain, wherein the complementary reactive functionalities along the polymer chain of the hydrophilic reactive polymer of (b) bind with the boronic acid moieties of the biomedical device of (a), thereby producing a biocompatible coating which can be removed and re-applied to restore the surface properties of the biomedical device to substantially as-new condition. Methods for treating the biomedical device are also disclosed. | 07-01-2010 |
20100174367 | IMPLANTABLE MEDICAL DEVICES COMPRISING BIO-DEGRADABLE ALLOYS - The invention provides medical devices comprising high-strength alloys which degrade over time in the body of a human or animal, at controlled degradation rates, without generating emboli. In one embodiment the alloy is formed into a bone fixation device such as an anchor, screw, plate, support or rod. In another embodiment the alloy is formed into a tissue fastening device such as staple. In yet another embodiment, the alloy is formed into a dental implant or a stent. | 07-08-2010 |
20100211172 | Implantable Device For Communicating With Biological Tissue - Provided are implantable devices for communicating with biological tissue and methods and systems for using the devices. For example, the devices are implanted in a subject and used to communicate with regenerated neural tissue. | 08-19-2010 |
20100222881 | VESSEL PROTECTION DEVICE - The present disclosure relates to a vessel/tissue protection device having a polymer coated reinforcing layer. The polymer can comprise a biocompatible polymer that will not promote tissue in-growth or attachment, such as segmented polyurethane, polycarbonate urethane, polyether urethane, polyacrylonitrile, etc. The reinforcing layer can comprise any suitable woven, non-woven, knitted, or braided reinforcing polymer, fabric, or foil that is biocompatible and capable of holding a suture, staple, or other attachment device. | 09-02-2010 |
20100228348 | Polymer Films for Medical Device Coating - A method for depositing a coating comprising a polymer and impermeable dispersed solid on a substrate, comprising the following steps: discharging at least one impermeable dispersed solid in dry powder form through a first orifice; discharging at least one polymer in dry powder form through a second orifice; depositing the polymer and/or impermeable dispersed solid particles onto said substrate, wherein an electrical potential is maintained between the substrate and the impermeable dispersed solid and/or polymer particles, thereby forming said coating; and sintering said coating under conditions that do not disrupt the activity and/or function of the substrate. A similar method is provided for depositing a coating comprising a hydrophobic polymer and a water-vapor-trapping material on a substrate. | 09-09-2010 |
20100234946 | IMPLANT SYSTEMS AND METHODS FOR TREATING OBSTRUCTIVE SLEEP APNEA - A system for treating obstructive sleep apnea includes a body implantable in a soft palate, and a fastening element at a proximal end of the body for connecting the body with a hard palate. In one embodiment, the body is curved and has a convex top surface and a concave bottom surface. The curved body is adapted to support and/or change the shape of the soft palate for minimizing the likelihood of airway obstructions during sleep. The fastening element, secureable to the hard palate, includes at least one barb adapted to engage the hard palate for anchoring the body to the hard palate. In one embodiment, the body has a surface adapted to promote tissue in-growth. The implant body may be made of materials including nitinol, stainless steel, biocompatible polymers, temperature-sensitive materials, and shape memory materials. | 09-16-2010 |
20100234947 | IMPLANTED MEDICAL DEVICE ESPECIALLY USED IN COSMETIC SURGERY - The present invention provides an implantable medical device adapted for use in surgical operations, said device being implantable in a predetermined body portion to be treated; said predetermined body portion is characterized by a first extremity and by a second extremity, wherein said device comprises (a) at least one element having a body, a distal end, and a proximal end; said body being characterized by (i) at least one inactivated position; and, (ii) a plurality of activated positions; (b) at least one anchoring means coupled to said distal end of said element, adapted to anchor said distal end to said first extremity in said predetermined body portion; and, (c) at least one anchoring means coupled to said proximal end of said element, adapted to anchor said proximal end to said second extremity in said predetermined body portion; said element is at least partially reconfigurable from said activated position to said inactivated position and/or from said plurality of inactivated positions to said plurality of activated positions such that the distance between said first extremity and said second extremity is alterable. | 09-16-2010 |
20100234948 | METHODS FOR IMPROVING THE BIOACTIVITY CHARACTERISTICS OF A SURFACE AND OBJECTS WITH SURFACES IMPROVED THEREBY - The invention provides for a method of improving bioactivity of a surface of an implantable object. The invention also provides for a method of improving bioactivity of a surface of biological laboratory ware. The invention further provide a method of attaching cells to an object. The invention even further provides for a method of preparing an object for medical implantation. The invention also provides for an article with attached cells, and for an article for medical implantation. | 09-16-2010 |
20100249925 | ARTICLE AND A METHOD OF SURFACE TREATMENT OF AN ARTICLE - A method of surface treatment of at least part of a surface of an implant, said method comprising: electrochemical deposition of a layer containing calcium and phosphorus ions onto a metallic substrate; and incorporation of a therapeutic agent into said electrochemically deposited layer and an implant so treated. | 09-30-2010 |
20100249926 | IMPLANT AND A SYSTEM AND METHOD FOR PROCESSING, DESIGING AND MANUFACTURING AN IMPROVED ORTHOPEDIC IMPLANT - A medical or orthopedic implant, system and method for making the implant having areas that are designed to optimize compressive stress processing by, for example, laser shock peening. The implant is designed by identifying stress areas as processing zones. The processing zones are machined, processed or adapted to have a desired shape or configuration to optimize compression. The processed zones or areas are compressive stressed processed to have a higher density at zones or areas compared to areas that are not compressive stress processed. The implant is finished processed and sterilized and ready for use in the patient. | 09-30-2010 |
20100249927 | MEDICAL DEVICES WITH GALVANIC PARTICULATES - Implantable medical devices having galvanic particulates are disclosed. The particulates may be coated onto at least part of a surface of the medical device. In addition, the galvanic particulates may be contained in the material used to manufacture the antimicrobial medical devices, or may be embedded into the surface of the medical devices. The present invention also provides novel coating methods and processing methods. The devices may have advantageous characteristics and effects including anti-microbial, anti-inflammatory, and tissue regeneration promoting. | 09-30-2010 |
20100262237 | Biomaterial, Joint Prosthesis Using the Biomaterial and Method of Producing the Same - The object of the present invention is to provide a joint prosthesis, bearing material and a production method thereof, which suppresses wear in a sliding section and suppresses the production of abrasive powder even during repeated daily operation. To achieve the object, there is provided a biomaterial comprising: a substrate made of metal, alloy or ceramic; and a biocompatible material layer laminated on the substrate, wherein hydroxyl groups are formed on the substrate by surface-treating, while the biocompatible material layer comprises a polymer containing phosphorylcholine groups, the substrate and the biocompatible material layer are bound via a binder layer which is combined with the hydroxyl groups of the substrate and with the biocompatible material layer. | 10-14-2010 |
20100262238 | Diazeniumdiolated Phosphorylcholine Polymers for Nitric Oxide Release - The present disclosure in a broad aspect provides for diazeniumdiolated phosphorylcholine polymers and associated methods for achieving nitric oxide release. The present polymers have superior biocompatibility and are useful for coating or fabricating medical devices such as a vascular stent. | 10-14-2010 |
20100268335 | MEDICAL DEVICES WITH GALVANIC PARTICULATES - Implantable medical devices having galvanic particulates are disclosed. The particulates may be coated onto at least part of a surface of the medical device. In addition, the galvanic particulates may be contained in the material used to manufacture the antimicrobial medical devices, or may be embedded into the surface of the medical devices. The present invention also provides novel coating methods and processing methods. The devices may have advantageous characteristics and effects including anti-microbial, anti-inflammatory, and tissue regeneration promoting. | 10-21-2010 |
20100268336 | Materials and Method for Promotion of Nerve Regeneration - The subject invention pertains to the therapeutic use of certain GAG-degrading enzymes, and enzyme combinations, to promote nerve repair and regeneration. | 10-21-2010 |
20100280612 | Medical Devices Having Vapor Deposited Nanoporous Coatings For Controlled Therapeutic Agent Delivery - The present invention is directed to medical devices which comprise the following: (a) an underlying region that comprises a therapeutic agent and (b) a vapor deposited nanoporous coating (e.g., a polymeric, ceramic or metallic nanoporous coating) over the underlying region, which regulates the release of the therapeutic agent from the medical device when it is placed into a subject. | 11-04-2010 |
20100318187 | SURFACE-STRUCTURED POLYURETHANE SUBSTRATES AND METHODS FOR PRODUCING THE SAME - A method for producing a polymeric surface-structured substrate includes: (a) preparing a first precursor substrate that is nanostructured on at least one surface with inorganic nanoparticles, (b) coating a hardenable substrate material for a second substrate different from the first precursor substrate material onto the nanostructured surface of the precursor substrate, wherein the hardenable substrate material includes cross-linkable monomeric, oligomeric or polymeric starting components for producing a polymeric substrate, (c) hardening the hardenable substrate material to obtain a polymeric substrate, and (d) separating the precursor substrate from the polymeric substrate as a result of which a polymeric substrate nanostructured with nanoparticles and including a polyurethane is obtained. | 12-16-2010 |
20100331978 | Antipathogenic Biomedical Implants, Methods and Kits Employing Photocatalytically Active Material - An antipathogenic biomedical implant is formed throughout its structure of a matrix material comprising at least about 1 weight percent of a photocatalytically active filler which exhibits an antipathogenic effect upon irradiation with light. The photocatalytically active filler is arranged in the matrix material in the implant to receive light irradiated from an external light source. In another embodiment, an antipathogenic biomedical implant comprises at least about 1 weight percent of a photocatalytically active material which exhibits an antipathogenic effect upon irradiation with light, wherein the photocatalytically active material is arranged in the implant to receive light irradiated from an external light source. Methods for providing an antipathogenic biomedical implant, methods for reducing pathogens on a biomedical implant, methods for reducing the bioburden in a biomedical implant installation, and kits for providing an antipathogenic biomedical implant employ the antipathogenic biomedical implants. | 12-30-2010 |
20110009962 | METHOD TO INTEGRATE AN RFID COMPONENT IN A PROSTHESIS OR IMPLANT SUBSTITUTE OR IN A SURGICAL INSTRUMENT IN POLYMER OR PLASTIC - One or more embodiments of the invention comprise of a method of integrating an RFID component in an implant or prosthesis substitute or in a surgical instrument. The method comprises at least a step to machine or bore the body of the substitute or of the surgical instrument to form a housing then a cavity intended to receive a cover for the housing. The method further comprises an ultrasonic welding step using a sonotrode to weld the cover to the body of the substitute or of the surgical instrument in polymer or plastic, so that the outer surface of the substitute or of the surgical instrument is bump-free and the weld obtained is sealed and durable. One or more embodiments of the invention also concerns the substitute or surgical instrument. | 01-13-2011 |
20110015735 | IMPLANT FOR SOFT TISSUE RECONSTRUCTION - Implant for reconstructing tissue of the musculo-skeletal apparatus selected by the group consisting of tendon, fascia, periosteum, ligament, muscle, includes a porous matrix or scaffold of a polymeric material having a tensile stiffness lower by 50% or more than the tensile stiffness of the native tissue it is intended to reconstruct. | 01-20-2011 |
20110015736 | Temporary Implantable Medical Device - A temporarily implantable medical device is disclosed. Said device is implantable in a predetermined body portion to be treated; wherein said device comprises (a) a reversibly implantable elongated continuous strip of a predetermined shape having a biocompatible surface; said strip having a distal end within the body of a patient and a proximal end located adjacent to the subcutaneous tissue of said body portion to be treated; and, (b) a cannula having a least one exposed portion located at said subcutaneous tissue of said body portion to be treated, accommodating at least a portion of said proximal end of said strip; said cannula comprises sealing means adapted to seal said cannula. | 01-20-2011 |
20110015737 | ADHESION-PREVENTING FILM - An adhesion-preventive film is provided that is excellent in flexibility and can prevent cracks from occurring. The adhesion-preventive film contains a copolymer of lactide and caprolactone. The lactide and the caprolactone of the copolymer has a mole ratio in the range of 65:35 to 80:20. Even when this adhesion-preventive film is used in a curved state in vivo or is wound around an affected part such as a tendon, for example, it can provide an adhesion-preventive function for a sufficiently long period without cracking. | 01-20-2011 |
20110054608 | ABSORBENT STRUCTURE IN AN ABSORBENT ARTICLE - An absorbent structure comprising a silicone foam having pore walls and a plurality of hydrophilic particles anchored to the pore walls of the foam. Some of the hydrophilic particles have an anchored portion firmly anchored to the pore walls and an exposed portion extending outwardly away from the pore walls upon which the anchored portion is secured. | 03-03-2011 |
20110093072 | DEVICES FOR FORMING CURVED OR CLOSED-LOOP STRUCTURES - A device for forming structurally stable curved structures includes an elongated element ( | 04-21-2011 |
20110098814 | MEDICAL IMPLANT - The invention relates to a medical implant in the form of an elongated helix wherein at least one part of the helix is preformed in such a manner that it has a secondary structure of identically sized loops which it assumes during implantation at the placement site, with said structure in turn forming at the placement site during implantation a polyhedral tertiary structure, and the polyhedron being provided with at least one additional loop. | 04-28-2011 |
20110125263 | METHOD FOR PRODUCING NANOSTRUCTURES ON A SURFACE OF A MEDICAL IMPLANT - A method for treating a surface of a medical implant to create nanostructures on the surface that results in increased in-vivo chondrocyte adhesion to the surface. Further, disclosed is a method to fabricate a drug delivery system. The drug delivery system includes a medical implant that has undergone a surface treatment process that results in the modification of the surface configuration and topography. The modified surface acts as a depot or reservoir for loaded biological material, biologic agents or pharmaceutical products. Additionally, a device for delivering pharmaceutical products or other biological materials is disclosed. The device includes integrally attached nanostructures that retain or adsorb the loaded pharmaceutical products and/or biological materials. Further disclosed is a medical implant that includes a surface configured to allow for and regulate protein adsorption. The surface of the medical implant has a layer of nanostructures rigidly attached with varying porosity and orientation that allow for surface protein adsorption to be controlled. | 05-26-2011 |
20110137414 | Connection housing and manufacture of same - A medical implant includes a hermetically sealed hollow housing having a hermetically sealed feedthrough suitable for conducting electrical signals to and from the hollow housing without impairing the hermetic seal thereof. The hollow housing includes a circuit suitable for measuring signals from the human body, sending signals to the human body, and transmitting signals to a receiver located outside the body. The implant also includes a connection housing having an insulating connection body, an externally accessible cavity for connecting an implantable electrode line, an insulating substrate having at least one electrically conductive strip conductor structure, and contacts that are securely electrically connected to a strip conductor structure present in or on the substrate material. The substrate may be embedded in the connection body in such a way that the contacts are present in the externally accessible cavity. | 06-09-2011 |
20110144750 | BROW LIFT IMPLANT AND METHOD - A substantially flat implant for repositioning a patient's eyebrow that may allow for a gradient lift across the eyebrow. The implant may be geometrically non-symmetrical, and/or may have non-symmetric physical properties. The implant may include a foot portion that extends along a first longitudinal axis and has a length, and a vertical strip portion that extends outwardly from the foot portion along a second longitudinal axis. The strip portion has a length and a width that is smaller than the length of the foot. The second longitudinal axis is offset from the center of the length of the foot portion. | 06-16-2011 |
20110166653 | MEDICAL DEVICES - Medical devices comprising an anti-connexin agent suitable for introduction into a subject. | 07-07-2011 |
20110172767 | MINIMALLY INVASIVE, DIRECT DELIVERY METHODS FOR IMPLANTING OBESITY TREATMENT DEVICES - A method includes selecting a template from a plurality of different sizes of templates based on measurements of the abdominal cavity of a patient; orienting the template on the patient at a location overlying the abdominal cavity to select an appropriate size implant using fluoroscopic imaging; marking an incision location and an indicator of an angle of approach; and removing the template from the patient, wherein marks made by the marking remain on the patient. Methods apparatus, instruments and implants for treating a patient are provided. | 07-14-2011 |
20110184515 | Devices For Introduction Into A Body Via A Substantially Straight Conduit To Form A Predefined Curved Configuration, And Methods Employing Such Devices - A device for introduction into a body in a straight configuration and assuming within the body a predefined curved configuration, includes an elongated element formed from a number of segments interconnected so as to form effective hinges therebetween. When the elongated element is confined to a straight state, the effective hinges transfer compressive forces from each segment to the next so that the elongated element can be pushed to advance it through a conduit. When the elongated element is not confined to a straight state, the effective hinges allow deflection of each segment relative to adjacent segments until abutment surfaces of the segments come into abutment, thereby defining a fully flexed state of the elongated element with a predefined curved configuration. The device can be produced with a wide range of two-dimensional and three-dimensional curved forms, and has both medical and non-medical applications. | 07-28-2011 |
20110190885 | METHOD FOR SINTERING ELECTRICAL BUSHINGS - One aspect relates to a method for producing an electrical bushing for an implantable device, a corresponding electrical bushing, and a corresponding implantable device. The method according to one embodiment is characterized in that a green blank is produced and sintered from an electrically insulating base body green blank made of a ceramic slurry or powder and at least one electrically conductive bushing body green blank made of a cermet material. The at least one bushing body green blank is inserted into a bushing opening of the base body green blank to form a composite green blank, a shape of the at least one bushing body green blank and a shape of the at least one bushing opening are complementary to each other at least in sections thereof and prevent slippage of the bushing body green blank through the bushing opening. The composite green blank is sintered while applying a force that keeps the bodies together. | 08-04-2011 |
20110202133 | DEVICES FOR INTRODUCTION INTO A BODY VIA A SUBSTANTIALLY STRAIGHT CONDUIT TO FORM A PREDEFINED CURVED CONFIGURATION, AND METHODS EMPLOYING SUCH DEVICES - A device for introduction into a body in a straight configuration and assuming within the body a predefined curved configuration, includes an elongated element formed from a number of segments interconnected so as to form effective hinges therebetween. When the elongated element is confined to a straight state, the effective hinges transfer compressive forces from each segment to the next so that the elongated element can be pushed to advance it through a conduit. When the elongated element is not confined to a straight state, the effective hinges allow deflection of each segment relative to adjacent segments until abutment surfaces of the segments come into abutment, thereby defining a fully flexed state of the elongated element with a predefined curved configuration. The device can be produced with a wide range of two-dimensional and three-dimensional curved forms, and has both medical and non-medical applications. | 08-18-2011 |
20110208304 | Laser Based Metal Deposition LBMD of Antimicrobials to Implant Surfaces - A method is provided for depositing a hard wear resistant surface onto a porous or non-porous base material of a medical implant. The wear resistant surface of the medical implant device may be formed by a Laser Based Metal Deposition (LBMD) method such as Laser Engineered Net Shaping (LENS). The wear resistant surface may include a blend of multiple different biocompatible materials. Further, functionally graded layers of biocompatible materials may be used to form the wear resistant surface. Usage of a porous material for the base may promote bone ingrowth to allow the implant to fuse strongly with the bone of a host patient. The hard wear resistant surface provides device longevity, particularly when applied to bearing surfaces such as artificial joint bearing surfaces or a dental implant bearing surfaces. An antimicrobial material such as silver may be deposited in combination with a metal to form an antimicrobial surface deposit. | 08-25-2011 |
20110238177 | Biomechatronic Device - A looped structure is rotatably coupled within the body of a prosthesis and rotates in response to fluid flowing across its looping to operate within the organism's internal functions. | 09-29-2011 |
20110264215 | LIP IMPLANT AND METHOD FOR INSERTION - A lip implant having first and second regions is described. The lip implant includes a first region formed of a liquid, solid, or a gas and a second region formed of a solid material. Also described is a lip implant having an elongated cross-section. A method for insertion of the implant is also described along with the instrumentation facilitating its insertion. | 10-27-2011 |
20110282446 | Methods and Apparatus for Delivering Tissue Treatment Compositions to Stapled Tissue - A surgical stapler includes first and second tissue clamping members and a knife member. The first tissue clamping member is configured to receive a plurality of staples. The second tissue clamping member comprises an anvil configured to form the staples. A tissue treatment member is positionable between the first and second tissue clamping members. The tissue treatment member comprises a rupturable pouch or baffle that is configured to receive a medical fluid including at least one tissue cell. The tissue treatment member may have a spiral shape, an annular disc shape, or an elongate sleeve shape. The tissue treatment member may also include outwardly extending tabs. The tissue treatment member may also include an injection port. In use, the staples and/or the knife pierce the tissue treatment member to release at least a portion of the medical fluid held by the tissue treatment member. | 11-17-2011 |
20110288640 | Systems, methods and apparatus for fabricating an orthopedic implant - Systems, methods and apparatus are provided through which in some aspects a custom orthopedic implant is designed, fabricated and sterilized for immediate surgical use to treat a patient's injury. In some aspects, the orthopedic implant is designed using patient and injury specific scan data, fabricated using a five axis milling machine, and sterilized with a sterilization system. In other aspects, the fabricated orthopedic implant is transferred into the sterilization system with a transport system. In some aspects, methods to design, fabricate and sterilize a custom orthopedic implant are presented. In other aspects, patient and injury specific scan data is used to design and plan the placement of a custom orthopedic implant to treat the injury, and the custom orthopedic implant is then fabricated and sterilized to be used in surgery. | 11-24-2011 |
20110313527 | IMPLANT MADE OF A MAGNESIUM ALLOY AND METHOD FOR THE PRODUCTION THEREOF - The invention relates to an implant from a magnesium alloy, in which porosity increases towards the core. | 12-22-2011 |
20120004724 | CORE-SHEATH IMPLANT DEVICE HAVING AN INNER CORE LOBE - The core-sheath implant device allows for a bioactive agent release profile that can be tailored to a particular therapy. The device features one or more lobes extending from an inner core at least partially through the outer sheath. Depending on the particular design of such an implant device, a variety of release profiles can be achieved. | 01-05-2012 |
20120010707 | METHODS AND REAGENTS FOR PREPARING BIOMOLECULE-CONTAINING COATINGS - Polymeric coatings that include coupled biomolecules are formed on the surface of articles, such as medical devices. A coated layer that includes a synthetic polymer including a reactive group is formed on a surface and then a biomolecule is attached to the reactive group. The synthetic polymer can be an acrylate polymer or an amine-containing polymer having pendent photoreactive groups. | 01-12-2012 |
20120022648 | ZIRCONIUM DIOXIDE BASED PROSTHESES - A process for the manufacture of a zirconium oxide prosthesis, the zirconium oxide being stabilized, which process includes the following steps: a) compacting a zirconium oxide powder at a pressure of at least 45 MPa to an object of a desired form, b) impacting an etchable medium into the surface, c) optionally working the object to a final shape, d) sintering the body at a temperature of above 1170° C. to transfer zirconium oxide into a tetragonal crystalline structure, and e) etching the etchable medium using hydrofluoric acid to remove the medium and impart a micromechanical retention surface. A prosthesis prepared by this process is also disclosed. | 01-26-2012 |
20120046745 | ADJUSTABLE WEIGHTED EYELID CLOSURE DEVICES AND METHODS - Provided herein are embodiments of a weighted eyelid closure device for use in treating lagophthalmos. In accordance with an embodiment, the device can be implanted by an oculoplastic surgeon into a patient's eyelid, to treat lagophthalmos. The device's weight can then be adjusted later by the surgeon, if necessary, without requiring removal of the entire device. For example, if it is discovered that an implanted device is too heavy or too light after it has been implanted within the patient's eyelid, the load of the device can be adjusted by modifying the previous load. Alternatively, a new load having the desired weight can be implanted. | 02-23-2012 |
20120059467 | COVER HAVING SELF-ANCHORING PROTRUSIONS FOR USE WITH AN IMPLANTABLE MEDICAL DEVICE - A cover for receiving an implantable medical device includes self-anchoring protrusions that engage tissue of a pocket where the device is implanted to resist movement including rotation and flipping. The implantable medical device is placed into the cover prior to being placed into the pocket so that once in the pocket, the device may reduce rotating, flipping, or otherwise moving. The self-anchoring protrusions may include barbs of various shapes to frictionally engage the tissue of the pocket. The cover may include features such as a strap and elastic construction to assist in holding the implantable medical device within the cover. Apertures may be included to enable the device. The cover may include additional features like suture tabs to allow additional fixation via suturing the cover to the surrounding tissue. | 03-08-2012 |
20120071974 | MEDICAL DEVICE WITH DEGRADATION-RETARDING COATING - The present disclosure relates to implantable bioabsorbable medical devices having an amphiphilic coating for delaying the degradation of the device and methods of making such devices. | 03-22-2012 |
20120095555 | MEDICAL IMPLANT, THIN FILM THEREON, AND METHOD FOR MANUFACTURING THE SAME - A thin film of a medical implant includes a surface, a plurality of walls and a plurality of paths. The walls are disposed on the surface, and formed to shapes of arc. The paths are disposed on the surface, wherein each of the paths is located among the walls. The walls and paths have a plurality of holes. According to the thin film of the present disclosure, the walls are formed to shapes of arc, and have no acute anger, whereby the biological cells can helpfully grow and attach on the thin film quickly. Furthermore, the thin film has the holes, which provide cell tissue, such as pseudopod, tentacle, etc. of the biological cells to grow and attach therein, whereby the biological cyto-affinity of the thin film can be increased so as to increase the biological cyto-compatibility of the medical implant. | 04-19-2012 |
20120123539 | MOLDABLE CUSHION FOR IMPLANTS - Custom moldable cushions for covering medical implants fastened to a bone are provided. Such cushions inhibit irritation of the surrounding soft tissue by covering the bone-implant interface and by reducing friction caused by movement of soft tissue adjacent the implant. Such cushions may also be employed to spread and absorb forces reducing patient discomfort and risk of injury and infection associated with such implants. | 05-17-2012 |
20120150295 | PEO COATING ON MG SCREWS - The present invention relates generally to a bio-degradable implant based on magnesium having a reduced corrosion rate and to a method for the production of such an implant. It is a a method for treating a surface of a bio-degradable metallic implant comprising the following steps: providing a dispersed system comprising a colloid-dispersed apatite and adding an apatite powder to the dispersed system, subjecting an implant to the dispersed system such that a surface of the implant which is to be treated is immersed in the dispersed system wherein the implant comprises a magnesium based alloy, applying an AC voltage difference between the implant as a first electrode and a second electrode positioned in the dispersed system for generating a plasma electrolytic oxidation on the immersed surface of the implant so that the immersed surface is converted to an oxide film which is at least partially covered by apatites formed by the colloid-dispersed apatite and the apatite powder. The evolution of corrosion induced hydrogen gas evolution is decreased and osseointegration is improved. | 06-14-2012 |
20120158136 | Surgical Implant - A surgical implant comprises a body having a compressed state and an uncompressed state. An envelope contains the body in at least the compressed state. The envelope forms an air-tight seal around the body in the compressed state and is water-soluble or degradable in body fluids. | 06-21-2012 |
20120165937 | FABRIC WITH BARBS COATED WITH A WATER-SOLUBLE MATERIAL - The present invention relates to a prosthetic fabric comprising an arrangement of yarns defining at least two faces for said fabric, said fabric comprising, on at least one of its faces, one or more barbs that protrude outwards relative to said face, characterized in that said barbs are covered with a coating made of a water-soluble biocompatible material. The invention also relates to a process for obtaining such a fabric and to prostheses obtained from such a fabric. | 06-28-2012 |
20120215310 | POROUS IMPLANT STRUCTURES - Porous biocompatible structures suitable for use as medical implants and methods for fabricating such structures are disclosed. The disclosed structures may be fabricated using rapid manufacturing techniques. The disclosed porous structures has a plurality of struts and nodes where no more than two struts intersect one another to form a node. Further, the nodes can be straight, curved, portions that are curved and/or straight. The struts and nodes can form cells which can be fused or sintered to at least one other cell to form a continuous reticulated structure for improved strength while providing the porosity needed for tissue and cell in-growth. | 08-23-2012 |
20120232654 | POROUS IMPLANT STRUCTURES - Porous biocompatible structures suitable for use as medical implants and methods for fabricating such structures are disclosed. The disclosed structures may be fabricated using rapid manufacturing techniques. The disclosed porous structures has a plurality of struts and nodes where no more than two struts intersect one another to form a node. Further, the nodes can be straight, curved, portions that are curved and/or straight. The struts and nodes can form cells which can be fused or sintered to at least one other cell to form a continuous reticulated structure for improved strength while providing the porosity needed for tissue and cell in-growth. | 09-13-2012 |
20120277860 | LIGHTWEIGHT BREAST IMPLANT MATERIAL - A prosthetic implant material for use in a prosthetic implant, comprising a gel and optionally a gas. | 11-01-2012 |
20120283828 | NON-WOVEN FABRIC FOR MEDICAL USE AND PROCESS FOR THE PREPARATION THEREOF - Process for preparing a non-woven fabric for medical use, comprising the following steps: —performing a spraying process in which —a spray jet is generated from a polycarbonate urethane plastic solution having a viscosity of from 800 to 1500 Pa×s using a spraying unit from which the polycarbonate urethane plastic solution exits; —said spray jet includes at least one strand of a single microfiber that may have a diameter of from 1 to 15 μm, preferably a diameter of from 2 to 10 μm; —said at least one strand of the single microfiber is sprayed onto a support, wherein —the support is moved relative to the spraying unit, or the spraying unit is moved relative to the support; —the spraying process is repeated several times to form polycarbonate urethane microfiber layers; —whereby polycarbonate urethane microfibers formed from the individual spraying processes overlay each other and adhere to each other at the respective contact points; and —a non-woven fabric having a fibrillar microporous structure is formed; —and optionally detached from the support after the last spraying process. | 11-08-2012 |
20130006354 | INTEGRATED PROSTHETIC ELEMENT - Integrated prosthetic element usable for bone implant operations or as a bone filler or replacement, comprising at least a metal support and an insert made of plastic material coupled with at least a first surface of said metal support so as to define a wear surface, or insert, of adjustable thickness. The metal support comprises, on the side opposite said first surface, a second surface intended to be coupled with the bone part on which the prosthesis or bone replacement is installed. The first surface comprises a layer having cavities or holes distributed in a substantially uniform manner and suitable for anchorage and solidarization of the plastic material that makes up the insert, while said second surface comprises a porous layer suitable to optimize the bone anchorage. The first surface and the second surface are separated by a compact layer that stops the plastic material in the step of forming the plastic insert. The cavities or holes of the first surface have bigger shapes and sizes than, and in any case different from, the pores of the second surface. | 01-03-2013 |
20130030526 | CROSSLINKED HUMAN OR ANIMAL TISSUE PRODUCTS AND THEIR METHODS OF MANUFACTURE AND USE - Degradable bioprostheses made of collagen-based material having amine-based and ester-based crosslinks are provided, as are methods for their formation and use. Some embodiments of the present invention are directed towards a method of controlling the ratio of amine-based crosslinks to ester-based crosslinks within a collagen-based material to provide a tailorably crosslinked collagen-based material. Some embodiments provide a method of making a degradable bioprosthesis involving controlling crosslinking to afford a degradable bioprosthesis that is partially crosslinked. By controlling the ratio of amine-based to ester-based crosslinks, by controlling the level of crosslinking, or by controlling both of these features, degradable bioprostheses with tailored degradation rates can be synthesized. Some embodiments of degradable bioprostheses have degradation rates that are tailored to allow their use in particular medical applications. Some embodiments are directed towards methods of use degradable bioprostheses in wound healing, tissue repair, and tissue supplementation. | 01-31-2013 |
20130066425 | PROCESSING OF BIOCOMPATIBLE COATING ON POLYMERIC IMPLANTS - The present invention provides polymeric substrates comprising a biocompatible coating and methods of preparation thereof. In particular, the coating may be a ceramic material, especially a calcium phosphate material, which may be functionally graded. The invention provides the ability to apply high quality coatings to polymeric substrates without damaging the substrate (e.g., melting the polymeric material). The functionally graded coating can provide crystalline calcium phosphate near the coating interface with the substrate and provide amorphous calcium phosphate at the outer surface of the coating. | 03-14-2013 |
20130073041 | MEDICAL IMPLANTS WITH RESERVOIR (S), AND MATERIALS PREPARABLE FROM SAME - Described is a medically useful article comprising a three-dimensional body including one or more implantable substances, wherein the body defines one or more reservoirs for receiving amounts of a biocompatible wetting liquid. In certain embodiments the body is disruptable upon wetting with the biocompatible liquid to form a conformable implantable material such as a putty, paste or more flowable wetted implant material. Also described are methods for manufacturing such medical materials, and methods for using such medical materials to treat patients. | 03-21-2013 |
20130103150 | ENCAPSULATED DATA CARRIER TAG FOR TRACK AND TRACE PURPOSES - A tag for tracking inventory levels and uses of an implant. The tag has a first component having a proximal portion and a distal portion and a second component having a proximal portion and distal portion. Additionally, the tag has an implant receiving cavity formed by the distal portion of the first component and the distal portion of the second component, in which the implant receiving cavity includes an encapsulating extension to substantially encapsulate an implant. Furthermore, the tag has a planar surface formed by the proximal portion of the first component and the proximal portion of the second component. The planar surface extending from the implant receiving cavity is substantially transverse to a longitudinal axis of the implant received within the implant receiving cavity. In addition, the tag has a tamper evident locking mechanism configured for locking the first component to the second component. | 04-25-2013 |
20130110237 | ANTIBACTERIAL COATINGS THAT INHIBIT BIOFILM FORMATION ON IMPLANTS | 05-02-2013 |
20130158659 | Medical Devices, Apparatuses, Systems, and Methods With Configurations for Shaping Magnetic-Fields and Interactions - Embodiments of apparatuses and/or medical devices, and systems and methods including apparatuses and/or medical devices, comprising one or more elements configured to define a U-shaped magnetic flux path and/or magnetic field. | 06-20-2013 |
20130158660 | Medical Devices, Apparatuses, Systems, and Methods with Magnetic Shielding - Embodiments of apparatuses, and methods and systems including apparatuses, configured to be magnetically coupled to a medical device within a body cavity of a patient. Some embodiments include one or more elements comprising at least one of a magnetically-attractive and magnetically-chargeable material; and a bumper extending around the one or more elements and configured to reduce the strength of a magnetic field of the one or more elements. | 06-20-2013 |
20130211520 | ANTI-ADHESION DEVICE - The construct described herein allows opposing tissues to form adhesions with either side of the construct, as part of the natural healing process. The construct however is multi-layered, wherein the space between the layers provides the protection from unwanted adhesions forming between and bonding separate tissues. In one embodiment, this space between layers of the construct may be developed spontaneously, that is the multiple layers are released by design after a finite time and the opposing tissues are free to move independent of each other, free of adhesions. | 08-15-2013 |
20130245760 | MEDICAL DEVICES INCORPORATING CERAGENIN-CONTAINING COMPOSITES - A medical device that includes a coating of a composite material that includes a polymeric material having a void structure and particulate ceragenin material (i.e., ceragenin particles) associated with the void structure. The average particle size of the ceragenin particles in the composite is in a range from 5 nm to 20 μm, 50 nm to 10 μm, 100 nm to 5 Ξm, or 1 μm to 10 μm. The composite has a high loading of ceragenin particles (e.g., about 10% to about 25%, by weight). The composite has good polymer stability, the ability to release ceragenins from the ceragenin particles disposed in the composite over a sustained period of time at a characteristic elution rate, and the ability to kill large numbers of bacteria and other susceptible microbes over the sustained period of time. | 09-19-2013 |
20130317611 | USE OF A MEDICAL IMPLANT AS ADHESION BARRIER - The present invention relates to use of a medical implant as an adhesion barrier. The medical implant is a sheet material which comprises at least one layer of a non-woven fabric of fibres of a crosslinked gelatin material. | 11-28-2013 |
20130331940 | SURGICAL PROSTHESIS DEPLOYMENT DEVICE - A deployment device, system, and method for deploying a prosthesis. The deployment device includes a housing, a rod disposed within the housing and adapted to rotate relative to the housing, and one or more support members (e.g., bushings, bearings, etc.) rotatably supporting the rod within the housing. An elongate slit is disposed in and entirely through the housing and is positioned in a way that enables the prosthesis to pass therethrough from a loaded, rolled configuration on the rod. The deployment device is generally flexible, e.g., has a bending stiffness of at most about 0.87 N/mm (e.g., about 0.05 N/mm to about 0.87 N/mm). Furthermore, the deployment device enables a user to deploy (e.g., unroll) a prosthesis therefrom at a rate determined manually by the user and in a piece-by-piece fashion. | 12-12-2013 |
20140358228 | TEMPORARY PERIODONTAL PROSTHETIC DEVICE THAT GIVES THE APPEARANCE OF FULLER LIPS - A temporary periodontal prosthetic device that gives the appearance of fuller lips. The prosthetic is a flexible strip which may be placed on the upper or lower gum and attached to the gum with a gentle adhesive backing. The fullness of the wearer's lips is consequently enhanced by the prosthetic pushing the lips outwards. The prosthetic is attachable and removable without the discomfort, cost, risks, or permanence of a surgical procedure. The prosthetic may be adjustable to fit a wearer's gums. The adhesive backing may be protected by a removable release liner prior to use. The prosthetic may also be configured to have a flavor or freshen the breath. | 12-04-2014 |
20140358229 | Medical Devices, Apparatuses, Systems, and Methods With Magnetic Shielding - Embodiments of apparatuses, and methods and systems including apparatuses, configured to be magnetically coupled to a medical device within a body cavity of a patient. Some embodiments include one or more elements comprising at least one of a magnetically-attractive and magnetically-chargeable material; and a bumper extending around the one or more elements and configured to reduce the strength of a magnetic field of the one or more elements. | 12-04-2014 |
20150012091 | IMPLANT, METHOD OF PREPARING AN IMPLANT, IMPLANTATION METHOD, AND KIT OF PARTS - An implant according to the invention includes first thermoplastic material portions, and second thermoplastic material portions liquefiable by mechanical vibrations and being in contact with the first thermoplastic material portions, wherein the second thermoplastic material portions preferably constitute at least a part of a surface of the implant, and wherein the first thermoplastic material portions have a glass transition temperature above an implantation temperature (about 20° C. to 40° C.), and wherein the second thermoplastic material portions either have a glass transition temperature below said implantation temperature or include means for transforming non-mechanical energy into heat. | 01-08-2015 |
20150045885 | SEEDLESS GROUP IV NANOWIRES, AND METHODS FOR THE PRODUCTION THEREOF - A water dispersible, biocompatible, non-toxic, seedless Group IV nanowire having an etched surface and surface oxide is provided. Also provided is a method of forming water dispersible seedless Group IV nanowires, comprising the steps of providing pristine seedless Group IV nanowires, and reacting the nanowires with a solution of an acidic amino acid to etch the nanowires and promote the formation of a water dispersible oxide layer through the formation of etched nanowires. | 02-12-2015 |
20150081018 | METHODS AND SUBSTRATES FOR DIFFERENTIATION OF NEURAL STEM CELLS - The present invention is directed to methods and substrates for promoting the differentiation of neural stem cells to neurons. | 03-19-2015 |
20150094810 | CONTOURED BONE PLATE - A method for repairing a bone includes attaching a bone plate to the bone. The bone plate includes an upper surface, a bone-contacting surface, and at least one hole extending between the upper surface and the bone-contacting surface. The method also includes inserting at least a portion of a delivery device into the at least one hole. The delivery device includes at least one of an osteobiologic material, a graft material and a pharmacological substance. The method further includes injecting the at least one of the osteobiologic material, the graft material and the pharmacological substance into the bone and through the at least one hole. | 04-02-2015 |
20150100120 | Extracellular Matrix Encasement Structures and Methods - A bioremodelable encasement structure comprising a pouch formed from at least one sheet of bioremodelable material, the pouch including an internal region that is configured to receive a device therein, the bioremodelable material comprising mesothelial tissue. | 04-09-2015 |
20150105858 | PROSTHETIC IMPLANTS - A prosthetic implant includes an anterior surface, configured for at least partial contact with an underside of a patient's facial soft tissue. A posterior surface is oppositely placed to the anterior surface. The posterior surface is configured for at least partial contact with a patient's facial bony tissue when the anterior surface is in at least partial contact with the patient's facial soft tissue. An implant body is defined by the anterior and posterior surfaces and extends transversely therebetween. A selected portion of the posterior surface has a texture that mechanically differs from a texture of a majority of the anterior surface. | 04-16-2015 |
20150112436 | LOCKING BETWEEN LEVELS OF A MULTI-LEVEL HELIX DEVICE - An inter-level locking mechanism of a multi- level medical device is disclosed. The locking mechanism includes (a) an elongated element ( | 04-23-2015 |
20150148903 | Nanostructured Surfaces for Biomedical/Biomaterial Applications and Processes Thereof - A medical device includes a textured surface having a predetermined nanostructure, wherein the nanostructure is less than about 500 nanometers in a broadest dimension. The textures nanostructure surface reduces friction between the medical device and biological tissue. | 05-28-2015 |
20160022899 | DIABETES REGULATOR - An implantable device that continuously regulates the blood glucose levels of a type 1 diabetes mellitus patient is provided. The device which is implanted in the bloodstream, relies on a microfluidic chip and a microsieve that efficiently separate leukocytes away from an amount of blood received and an islet compartment made up of multiple islets (beta and alpha cells) from at least one compatible donor pancreas source. During hyperglycemia, insulin is produced by the beta cells to remove excessive sugar from the blood. Similarly, during hypoglycemia, glucagon is secreted by the alpha cells to bring the blood glucose level back to normal. The device is self-sustaining without relying on an electrically-powered insulin pump or refills of exogenous insulin. | 01-28-2016 |
20160128823 | POROUS IMPLANT MATERIALS AND RELATED METHODS - Provided are porous, biocompatible implant bodies and materials. These materials suitably comprise a population of randomly arranged and entangled thermoplastic constituents, with at least some of the constituents being bonded to one another The implant bodies are capable of being manipulated at room temperature from a first shape to a second shape, and of maintaining the second shape at about internal body temperature. Also provided are related methods of fabricating such implants and installing the implants into a subject. | 05-12-2016 |