Patent application number | Description | Published |
20080221262 | Fluorinated POSS as alloying agents in nonfluorinated polymers - A method of using fluorinated-nanostructured POSS chemicals as alloying agents for the reinforcement of polymer microstructures, including polymer coils, domains, chains, and segments, at the molecular level. Because of their tailorable compatibility with nonfluorinated polymers, nanostructured chemicals can be readily and selectively incorporated into polymers by direct blending processes. The incorporation of a nanostructured chemical into a polymer favorably impacts a multitude of polymer physical properties. Properties most favorably improved are surface properties, such as lubricity, contact angle, water repellency, deicing, surface tension, and abrasion resistance. Improved surface properties may be useful for applications such as anti-icing surfaces, non-wetting surfaces, low friction surfaces, self cleaning. Other properties improved include time dependent mechanical and thermal properties such as heat distortion, creep, compression set, shrinkage, modulus, hardness and biological compatibility. In addition to mechanical properties, other physical properties are favorably improved, including lower thermal conductivity, dielectric properties, fire resistance, gas permeability and separation. These improved properties may be useful in a number of applications, including space-survivable materials and seals, gaskets, cosmetics, and personal care. | 09-11-2008 |
20080262162 | METALLIZED NANOSTRUCTURED CHEMICALS ALLOYED INTO POLYMERS - Metallized nanostructured chemicals are incorporated at the molecular level as alloying agents for the reinforcement of polymer microstructures, including polymer coils, domains, chains, and segments. Direct blending processes are effective because of the tailorable compatibility of the metallized nanostructured chemicals with polymers. | 10-23-2008 |
20090082502 | METALLIZED POLYHEDRAL OLIGOMERIC SILSESQUIOXANES AS CATALYSTS FOR POLYURETHANES - A method of using metallized polyhedral oligomeric silsesquioxanes as cure promoters and catalysts for polyurethanes. | 03-26-2009 |
20090176006 | BIOMIMETIC MATERIALS COMPRISING POLYHEDRAL OLIGOMERIC SILSESQUIOXANES - Nanostructured chemicals such as polyhedral oligomeric silsesquioxanes, polyhedral oligomeric silicates, and polyhedral oligomeric metallasesquioxanes are attached to living and nonliving systems as biomaterials to provide a nanoscopic topology that favors biomimetic function and cellular modulation. The resulting surface is nanoscopically thin, nanoscopically dispersed, provides systematic chemistry, surface area, surface volume, surface topology, and is essentially free of impurities, and has controllable properties through selection of composition, R groups, nanostructure size and topology. Highly shape specific and chemically tailorable nanostructured molecules are sized to biological material dimensions and are compatible with all sterilization methods. | 07-09-2009 |
20100125123 | METALLIZED NANOSTRUCTURED CHEMICALS AS CURE PROMOTERS - Metallized polyhedral oligomeric silsesquioxanes and metallized polyhedral oligomeric silicates are used as cure promoters, catalysts, and alloying agents for the reinforcement of polymer microstructures, including polymer coils, domains, chains, and segments, at the molecular level. Because of their tailorable compatibility with polymers, polyhedral oligomeric metallosesquioxanes (POMS) can be readily and selectively incorporated into polymers by common mixing processes. | 05-20-2010 |
20100137464 | POROSITY CONTROL WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANES - The use of nanostructured chemicals based on polyhedral oligomeric silsesquioxanes (POSS) and polyhedral oligomeric silicates (POS) are used to control porosity in organic and inorganic media. The precisely defined nanoscopic dimensions of this class of chemicals enables porosity to be both created (increased) or reduced (decreased) as desired. The thermal and chemical stability of the POSS/POS nanostructures and the ability of these nano-building blocks to be selectively placed or rationally assembled with both inorganic and organic material mediums allow tailoring of porosity. | 06-03-2010 |
20110092653 | Metal-Containing Compositions - The present invention relates to metal-containing compositions comprising a metal-containing precursor unit (MU), a prepolymer unit (PU), and a catalyst or an initiator capable of inducing a combining reaction of ethylenically unsaturated groups of the metal-containing precursor unit and the prepolymer unit. In another embodiment, the composition comprises MU and a catalyst or initiator capable of inducing a combining reaction of the metal-containing precursor units. Both MU and PU contain additional functional groups, which may be selected to impart compatibility with each other and to produce optically clear films. The metal-containing compositions can be used to produce films or articles having a transmittance of at least 90% and index of refraction in the range of 1.4 to 1.8 in the 400-700 nm range of light and 1.4 to 2.4 in the 150-400 nm range of light. | 04-21-2011 |
20110201827 | PROCESS FOR CONTINUOUS PRODUCTION OF OXIDIZED OLEFIN POLYHEDRAL OLIGOMERIC SILSESQUIOXANE CAGES - Methods for continuous bulk production of polyolefin polyhedral oligomeric silsesquioxanes and their amino, isocyanate, and alcohol derivatives using silane coupling agents as precursors. | 08-18-2011 |
Patent application number | Description | Published |
20120095494 | INTRAGASTRIC IMPLANTS WITH COLLAPSIBLE FRAMES - Transoral obesity treatment devices and related methods for operation thereof are described which occupy space within a stomach and/or stimulate the stomach wall. The transoral obesity treatment devices and related methods are intended to assist a patient in maintaining a healthy body weight. Features of the devices include insertion transorally and without invasive surgery, without associated patient risks of invasive surgery, and without substantial patient discomfort. The life span of these devices may be material-dependent upon long-term survivability within an acidic stomach, but is intended to last one year or longer. The devices have the capacity to vary in size and are desirably self-actuating in that they change shape and/or volume using internal motors or actuators. The changing character of the devices helps prevent the person's stomach from compensating for the implant, such as sometimes happens with static intragastric devices. | 04-19-2012 |
20120095495 | SPACE-FILLING INTRAGASTRIC IMPLANTS WITH FLUID FLOW - A variety of passive intragastric implant devices for obesity treatment are disclosed. Such passive devices do not autonomously change shape, but instead react within the stomach to induce satiety. The devices may take up volume within the stomach, thus reducing the intake capacity. Additionally, the devices may contact areas within the stomach, such as the cardia surrounding the esophageal sphincter, to stimulate satiety-inducing nerves. Also, certain devices slow gastric emptying by blocking or otherwise impeding flow through the pyloric sphincter. A number of devices combine two or more of these satiety-inducing features. Methods of implant are disclosed including compressing the devices within a delivery tube and transorally advancing the devices through the esophagus to be deployed within the stomach. Removal of the devices occurs in the reverse. | 04-19-2012 |
20120095496 | REACTIVE INTRAGASTRIC IMPLANT DEVICES - Transoral three-dimensionally orthogonal intragastric spring systems, devices, methods of operation and manufacture are provided. A transoral three-dimensionally orthogonal intragastric spring system and/or device (and related methods of manufacture and operation) may reduce obesity or weight by stimulating the stomach walls of the patient. The three-dimensionally orthogonal intragastric spring device may be a purely mechanical device comprising a flexible body which in response to an input force in one direction, may deform and cause a resultant displacement in an orthogonal direction, thereby exerting a pressure on the inner stomach walls of the patient. Alternatively, a three-dimensionally orthogonal intragastric spring device may include a variable size balloon configured to occupy volume in the patient's stomach, thereby reducing the amount of space in the patient's stomach. | 04-19-2012 |
20120095497 | NON-INFLATABLE GASTRIC IMPLANTS AND SYSTEMS - A variety of passive intragastric implant devices for obesity treatment are disclosed. Such passive devices do not autonomously change shape, but instead react within the stomach to induce satiety. The devices may take up volume within the stomach, thus reducing the intake capacity. Additionally, the devices may contact areas within the stomach, such as the cardia surrounding the esophageal sphincter, or the greater and lesser curvatures in the middle of the stomach, to stimulate satiety-inducing nerves. Some devices may combine two or more of these satiety-inducing features. Methods of implant are disclosed including compressing the devices within a delivery tube and transorally advancing the devices through the esophagus to be deployed within the stomach. Removal of the devices occurs in the reverse. | 04-19-2012 |
20120289769 | DIRECTIONLESS (ORIENTATION INDEPENDENT) NEEDLE INJECTION PORT - Generally described herein are certain embodiments directed to an orientation-independent injection port fluidly coupled to a gastric banding system. The injection port may be configured to simplify the port-targeting process when a medical professional attempts to penetrate the injection port with a needle during a gastric band-adjusting procedure. For example, the injection port may be orientation-independent with the entire outer shell acting as the needle access point. Alternatively, and/or in addition, the inner core of the injection port may be hard or firm, thereby allowing for easier locating (e.g., when the medical professional performs palpation). Furthermore, the hard inner core may prevent needle over-throws, and help stabilize pressure. | 11-15-2012 |
20130035711 | INTRAGASTRIC BALLOON FOR TREATING OBESITY - A transorally implanted intragastric balloon or treating obesity and for weight control including a variable size balloon with one or interconnected regions acting to exert a pressure on the stomach, to provide a stomach volume occupying effect, and/or to anchor the balloon within the stomach. | 02-07-2013 |
20130102840 | IMPLANTABLE INJECTION PORT - Injection ports are disclosed for use with a gastric band for the treatment of obesity. An injection port may include a septum having a top surface, a bottom surface, and a side wall connecting the top surface to the bottom surface. The injection port may also include a housing including a first inner side wall being tapered inwards such that an opening defined at a first end is larger than an opening defined at a second end, the tapering of the first inner side wall being used to secure the septum within the housing. The housing may further include a second inner side wall having a first end and a second end, the first end of the second inner side wall joined to the second end of the first inner side wall, and a bottom surface joined to the second end of the second inner side wall. | 04-25-2013 |
20130190557 | GASTRIC BANDS FOR REDUCING OBSTRUCTIONS - Generally described herein are apparatus, systems and methods related to gastric bands which provide increased compliance to reduce food obstructions and/or reduces over restriction causing symptoms such as gastric enlargement and pouch dilatation. In one embodiment, a dual ringed reservoir band or inflatable portion is provided. In one embodiment, an additional ring or a middle pouch may be added to the dual ringed reservoir band. The addition of an additional ring or middle pouch may further increase band compliance resulting in even fewer food obstructions. In another embodiment, one or more funnels can also be implemented into a gastric banding system to induce satiety and/or for guiding a bolus through the gastric band. | 07-25-2013 |
20130190892 | ENDOLUMENAL ESOPHAGEAL RESTRICTION DEVICE - Generally described herein are apparatus, systems and methods related to a novel esophageal device implantable in the patient's body and designed to replicate the restrictive and satiety mechanism associated with gastric banding systems known in the art. The device can be a compliant and tubular-shaped and fixated within the gastro-esophageal lumen using tissue anchors. | 07-25-2013 |
20130324905 | DEVICES AND METHODS FOR GASTROINTESTINAL BYPASS - Devices and methods for gastrointestinal bypass are described. A gastrointestinal bypass device includes a gastrointestinal cuff and a gastrointestinal sleeve. The cuff may be configured to be attached in the esophagus, and may be sufficiently flexible to expand and collapse to conform with the inside of the esophagus to allow the esophagus to function substantially normally. The sleeve is configured to be coupled to the cuff, and may be made of a material that is floppy or flaccid but does not substantially expand radially. | 12-05-2013 |
20140052059 | SYRINGE FOR MISING AND DISPENSING ADIPOSE TISSUE - A device is provided for introducing into a patient a combination of adipose tissue and an additive, for example, a hydrogel additive. The device includes a fat cartridge, an additive cartridge containing an additive, and a housing configured to receive, in a side-by-side manner, the fat cartridge and additive cartridge. A mixing tip may be included for causing mixing of the cartridge components prior to extrusion from a needle or cannula. | 02-20-2014 |
20140257179 | SYRINGE FOR MIXING AND DISPENSING ADIPOSE TISSUE - A device is provided for introducing into a patient a combination of adipose tissue and an additive, for example, a hydrogel additive. The device includes a fat cartridge, an additive cartridge containing an additive, and a housing configured to receive, in a side-by-side manner, the fat cartridge and additive cartridge. A mixing tip may be included for causing mixing of the cartridge components prior to extrusion from a needle or cannula. | 09-11-2014 |
20140276384 | ADIPOSE TISSUE COMBINATIONS, DEVICES, AND USES THEREOF - Described are devices, systems, and methods for processing adipose tissue for reintroduction into a body. In some embodiments, adipose tissue is mixed with an additive prior to reintroduction. | 09-18-2014 |
20150064165 | DEVICES AND METHODS FOR REDUCING THE APPEARANCE OF CELLULITE - Methods and devices for use in reducing the appearance of dimpled skin or other undesirable appearance of skin in a cellulitic region of a patient are provided. The methods include the steps of disrupting fibrous septae located beneath the skin of a cellulitic region and introducing a composition beneath the skin, the composition being effective to reduce or prevent regrowth of the fibrous septae. | 03-05-2015 |
20150093362 | FAT PROCESSING SYSTEM - Methods and devices for treating lipoaspirate for use in fat grafting procedures are provided and generally include a canister for containing lipoaspirate, a separation mechanism structured to separate both oils and other materials from cellular components of lipoaspirate contained in the canister. The separation mechanism includes filters having different filtering capacities, for example, different pore sizes. | 04-02-2015 |
20150094753 | Intragastric Implants with Collapsible Frames - Transoral obesity treatment devices and related methods for operation thereof are described which occupy space within a stomach and/or stimulate the stomach wall. The transoral obesity treatment devices and related methods are intended to assist a patient in maintaining a healthy body weight. Features of the devices include insertion transorally and without invasive surgery, without associated patient risks of invasive surgery, and without substantial patient discomfort. The life span of these devices may be material-dependent upon long-term survivability within an acidic stomach, but is intended to last one year or longer. The devices have the capacity to vary in size and are desirably self-actuating in that they change shape and/or volume using internal motors or actuators. The changing character of the devices helps prevent the person's stomach from compensating for the implant, such as sometimes happens with static intragastric devices. | 04-02-2015 |
20150150700 | Reactive Intragastric Implant Devices - Transoral implantable devices includes an inflatable body made of a material that permits it to be compressed into a substantially linear transoral delivery configuration and that when implanted in the stomach is adapted to reduce obesity or weight by stimulating the stomach walls of the patient. The body has a plurality of popout features on its surface that reside generally flush with the inflatable body in relaxed, refracted states, and which respond to an increase in pressure within the inflatable body by projecting outward from the body in a stressed, deployed state. The popout features may convert between their retracted and deployed states by movement of rolling diaphragms formed in the inflatable body. | 06-04-2015 |
20150209169 | Space-Filling Intragastric Implants with Fluid Flow - A variety of passive intragastric implant devices for obesity treatment are disclosed. Such passive devices do not autonomously change shape, but instead react within the stomach to induce satiety. The devices may take up volume within the stomach, thus reducing the intake capacity. Additionally, the devices may contact areas within the stomach, such as the cardia surrounding the esophageal sphincter, to stimulate satiety-inducing nerves. Also, certain devices slow gastric emptying by blocking or otherwise impeding flow through the pyloric sphincter. A number of devices combine two or more of these satiety-inducing features. Methods of implant are disclosed including compressing the devices within a delivery tube and transorally advancing the devices through the esophagus to be deployed within the stomach. Removal of the devices occurs in the reverse. | 07-30-2015 |
20160022460 | Endolumenal Esophageal Restriction Device - Generally described herein are apparatus, systems and methods related to a novel esophageal device implantable in the patient's body and designed to replicate the restrictive and satiety mechanism associated with gastric banding systems known in the art. The device can be a compliant and tubular-shaped and fixated within the gastro-esophageal lumen using tissue anchors. | 01-28-2016 |
Patent application number | Description | Published |
20110306826 | OVER MOLDED IMPLANTABLE DEVICE TO PROTECT TUBING FROM PUNCTURE - An implantable device used in a gastric band system includes an access port, a tube coupled to the access port, and a shielding device covering a portion of the tube. The shielding device is positioned adjacent to the access port and covers the end of the tube coupled to the access port. The shielding device is made from a puncture resistant material, to protect the tube from puncture by a misplaced syringe needle inserted by a physician. | 12-15-2011 |
20120088962 | SELF-ADJUSTING GASTRIC BAND - Generally described herein are automatic, self-adjusting, gastric banding systems and improvements thereof, that are capable of automatically relaxing and contracting in response to a large bolus passing through the area of a patient's stomach constricted by a gastric band. Alternatively, and/or in addition in one or more embodiments, the gastric banding systems described herein may also help prevent pouch dilatation and/or erosion. The apparatus and systems described herein aid in facilitating obesity control and/or treating obesity-related diseases while generally being non-invasive once implanted. Furthermore, certain embodiments of the self-adjusting gastric banding systems disclosed herein are automatically adjustable without complicated fluid control mechanisms, flow rate limiting devices, and/or valves. The automatic adjustments may also be made in response to other changes in the patient's esophageal-gastric junction, for example, in response to size, shape, and or location changes. | 04-12-2012 |
20130197661 | MUCOSAL TISSUE ADHESION VIA TEXTURED SURFACE - The present specification discloses porous materials, methods of forming such porous material, biocompatible implantable devices comprising such porous materials, and methods of making such biocompatible implantable devices. The porous material may be used to fix to the interior mucosal lining of a patient's gastrointestinal tract. | 08-01-2013 |
20130211440 | ENDOSCOPIC TOOLS FOR THE REMOVAL OF BALLOON-LIKE INTRAGASTRIC DEVICES - A mechanism for removing a fluid-filled object such as an intragastric balloon from a patient. The apparatus includes a delivery tube having a lumen and a retrieval tool able to slide within the lumen that can both puncture and grasp the intragastric balloon. The retrieval tool may have sharpened graspers with either a sharp tip and/or knife-like edges. Alternatively, the delivery tube itself may have sharpened cutting blades that deploy outward to puncture the intragastric balloon. One embodiment utilizes a suction cup tip on the delivery sheath and a sharpened puncture rod that extends past the distal tip of the lumen, for rapid deflation of a balloon. Various embodiments hasten the deflation process and simplify the manipulation required by the surgeon. | 08-15-2013 |
20140180327 | Endoscopic Tools for the Removal of Balloon-Like Intragastric Devices - A mechanism for removing a fluid-filled object such as an intragastric balloon from a patient. The apparatus includes a delivery tube having a lumen and a retrieval tool able to slide within the lumen that can both puncture and grasp the intragastric balloon. The retrieval tool may have sharpened graspers with either a sharp tip and/or knife-like edges. Alternatively, the delivery tube itself may have sharpened cutting blades that deploy outward to puncture the intragastric balloon. One embodiment utilizes a suction cup tip on the delivery sheath and a sharpened puncture rod that extends past the distal tip of the lumen, for rapid deflation of a balloon. Various embodiments hasten the deflation process and simplify the manipulation required by the surgeon. | 06-26-2014 |
20140350516 | MECHANICAL SYRINGE ACCESSORY - Described herein are syringe accessories that can be attached to standard syringes. These accessories utilize one or more mechanisms that can provide at least one additional sensory feedback to the user when performing an aliquot or dosed injection. In other embodiments, the accessories can prevent overdosing. | 11-27-2014 |
20140350517 | INJECTION DEVICE WITH STRESS PROTECTION - Described are devices and systems for protection of injectable substances such as adipose cells from excessive stress or pressure during injection procedures. Further described are stress control mechanisms for detecting and/or controlling stress or pressure within injection devices. | 11-27-2014 |
20140350518 | SYRINGE EXTRUSION ACCESSORY - Described herein are syringe extrusion accessories comprising: a handle operatively coupled to an attachment portion configured to attach to a syringe; and at least one prawl operatively coupled to the handle and configured to engage with a plunger of the syringe, wherein the syringe extrusion accessory is configured to transfer a substantially perpendicular force applied to the handle to an axial force to push the plunger and extrude a product from the syringe. | 11-27-2014 |
20150142044 | Non-Inflatable Gastric Implants and Systems - A variety of passive intragastric implant devices for obesity treatment are disclosed. Such passive devices do not autonomously change shape, but instead react within the stomach to induce satiety. The devices may take up volume within the stomach, thus reducing the intake capacity. Additionally, the devices may contact areas within the stomach, such as the cardia surrounding the esophageal sphincter, or the greater and lesser curvatures in the middle of the stomach, to stimulate satiety-inducing nerves. Some devices may combine two or more of these satiety-inducing features. Methods of implant are disclosed including compressing the devices within a delivery tube and transorally advancing the devices through the esophagus to be deployed within the stomach. Removal of the devices occurs in the reverse. | 05-21-2015 |
20150223957 | Endoscopic Tools for the Removal of Balloon-Like Intragastric Devices - A mechanism for removing a fluid-filled object such as an intragastric balloon from a patient. The apparatus includes a delivery tube having a lumen and a retrieval tool able to slide within the lumen that can both puncture and grasp the intragastric balloon. The retrieval tool may have sharpened graspers with either a sharp tip and/or knife-like edges. Alternatively, the delivery tube itself may have sharpened cutting blades that deploy outward to puncture the intragastric balloon. One embodiment utilizes a suction cup tip on the delivery sheath and a sharpened puncture rod that extends past the distal tip of the lumen, for rapid deflation of a balloon. Various embodiments hasten the deflation process and simplify the manipulation required by the surgeon. | 08-13-2015 |
20150238698 | ASPIRATION SYRINGE ACCESSORY - A device is provided for facilitating an aspiration procedure during a dermal filler injection treatment. The device can be connected to a dermal filler syringe plunger, and includes a thumb stop element for engaging a physician's thumb. | 08-27-2015 |
20150272761 | Intragastric Balloon for Treating Obesity - A transorally implanted intragastric balloon or treating obesity and for weight control including a variable size balloon with one or interconnected regions acting to exert a pressure on the stomach, to provide a stomach volume occupying effect, and/or to anchor the balloon within the stomach. | 10-01-2015 |