Patent application number | Description | Published |
20120071748 | SURGICAL ACCESS ASSEMBLY AND METHOD OF USING SAME - A surgical access assembly is disclosed. The surgical access assembly comprises an outer sheath and an obturator. The outer sheath is defined by an open distal end and an open proximal end and includes a hollow body portion therebetween. The obturator is defined by a distal end and a proximal end and the distal end further comprises a tapered distal tip member that terminates in a closed radiused distal tip. The obturator is configured to be received within the outer sheath such that the tapered distal tip member protrudes from the open distal end of the outer sheath when the obturator is in an introducing configuration. | 03-22-2012 |
20120253375 | SURGICAL ACCESS ASSEMBLY AND METHOD OF USING SAME - A surgical access assembly and method of use is disclosed. The surgical access assembly comprises an outer sheath and an obturator. The outer sheath and obturator are configured to be delivered to an area of interest within the brain. Either the outer sheath or the obturator may be configured to operate with a navigational system to track the location of either within the brain. Once positioned at a desired location, the obturator is removed, leaving a distal end of the outer sheath adjacent an area of interest, and creating a working corridor. Interventional devices may be introduced to the area of interest, as well as a variety of treatments. A subsequent treatment process may also be employed. | 10-04-2012 |
20120289816 | SURGICAL ACCESS ASSEMBLY AND METHOD OF USING SAME - A surgical access assembly and method of use is disclosed. The surgical access assembly comprises an outer sheath and an obturator. The outer sheath and obturator are configured to be delivered to an area of interest within the brain. Either the outer sheath or the obturator may be configured to operate with a navigational system to track the location of either within the brain. Once positioned at a desired location, the obturator is removed, leaving a distal end of the outer sheath adjacent an area of interest, and creating a working corridor. Interrogation of the area of interest may be performed to evaluate a disorder and/or abnormality, as well as evaluate treatment regimes. Interventional devices may also be introduced to the area of interest, as well as a variety of treatments. | 11-15-2012 |
20130102851 | HOLDING ARRANGEMENT FOR A SURGICAL ACCESS SYSTEM - Holding arrangements for a surgical access assembly are disclosed. One holding arrangement includes a body portion, an engagement barrel and a retaining member. The retaining member is configured as a hook at a distal end of the body portion and is sized to partially encircle a portion of an outer sheath. The engagement barrel is position on a proximal end of the body portion and is configured to be operatively connected to a surgical holding arrangement. | 04-25-2013 |
20130102886 | SURGICAL ACCESS SYSTEM WITH NAVIGATION ELEMENT AND METHOD OF USING SAME - A surgical access assembly and method of use is disclosed. The surgical access assembly comprises an outer sheath and an obturator. The outer sheath and obturator are configured to be delivered to an area of interest within the brain. Either the outer sheath or the obturator may be configured to operate with a navigational system to track the location of either device within the brain. | 04-25-2013 |
20140066929 | BI-POLAR SURGICAL INSTRUMENT - A surgical device is disclosed that comprises a shaft member and a pair of electrodes. The shaft member has a pair of electrode channels that open at the distal end of the shaft member, wherein the electrode channels are positioned adjacent to one another. The pair of electrodes are configured to deliver energy, and one of the pair of electrodes are configured to be disposed in each electrode channel such that distal ends of each of the electrodes are arranged to protrude from the distal end of the shaft member. The shaft member further includes at least one lumen opening at the distal end of the shaft member. | 03-06-2014 |
20140066930 | BI-POLAR SURGICAL INSTRUMENT - A surgical device is disclosed that comprises a sleeve member, a shaft member and a pair of electrodes. The shaft member extends distally of the sleeve member and has a pair of electrode channels that open at the distal end of the shaft member, wherein the electrode channels are positioned adjacent to one another. The pair of electrodes are configured to deliver energy, and one of the pair of electrodes are configured to be disposed in each electrode channel such that distal ends of each of the electrodes are arranged to protrude from the distal end of the shaft member. An irrigation annulus is formed about the electrodes. The shaft member further includes at least one lumen opening at the distal end of the shaft member. | 03-06-2014 |
Patent application number | Description | Published |
20100035602 | SYSTEM AND METHOD FOR MONITORING AND REPORTING TELEMATICS UNIT COMMUNICATION NETWORK SYSTEM ACQUISITION AND SCANNING PERFORMANCE - A system and method for monitoring and reporting telematics unit communication network system acquisition and scanning performance is disclosed herein. An example of the method includes monitoring a scan of all cellular networks that are available to a vehicle telematics unit, and during the monitoring, recognizing a predetermined trigger. In response to the predetermined trigger, a memory buffer in the telematics unit stores data associated with at least one of performance or outcome of the scan. At least some of the stored data is transmitted from the telematics unit to a server in selective communication with the telematics unit. | 02-11-2010 |
20110069680 | ENHANCED MOBILE NETWORK SYSTEM ACQUISITION USING SCANNING TRIGGERS - A system and method for executing network acquisition employ a triggered scan for network acquisition regardless of the recorded optimal nature of the current network. In general, when one or more predefined conditions occur, a network scan is initiated to identify another network, if any, that is more optimal than the current network. Example trigger conditions include failed registration attempts, exceeding a predetermined distance threshold, entry to or exit from a pre-determined region, excess CDMA Chip delay, and others. Triggers may be used singly or in Boolean combinations. In this way, network scanning occurs when it may be beneficial, but will not be initiated too frequently or in situations where connectivity may not actually be suboptimal. This triggered scan provides improved connectivity, and can allow the device to make and receive calls in locations where it would otherwise not have been possible. | 03-24-2011 |
Patent application number | Description | Published |
20090070916 | PERSONAL PROTECTIVE GARMENT - A personal protective garment, preferably a glove, for protecting at least a portion of the body of a wearer is disclosed. The garment comprises a liner, an overlayer and at least one covering layer. The liner comprises a flexible material and is adapted to be worn on at least a portion of the body of the wearer. The overlayer comprises a milled polymer and is adapted to cover at least a portion of the liner and is secured to the liner. The covering layer comprises a polymer and is adhering to and covering at least a portion of the overlayer. The milled polymer is preferably milled rubber. Also disclosed is a method of making a personal protective garment, preferably a glove. | 03-19-2009 |
20100104750 | METHOD FOR MANUFACTURING A FLEXIBLE AND BREATHABLE MATT FINISH GLOVE - A method to prepare a flexible and breathable protective glove having excellent grip in both aqueous and oil environments includes coating an electrolyte treated glove liner substrate with a non-foamed dispersion of a polymeric material. The resulting semi-gelled polymeric coating which partially penetrates the depth of the glove liner substrate, is treated with a foamed solution of a surfactant, tenside or aerosol solution and the foam treated coating is overcoated with an electrolyte solution. In a resulting chemical or physical reaction, fine pores and cavities are formed in and on the polymer coating. | 04-29-2010 |
20100104762 | METHOD FOR MANUFACTURING A FLEXIBLE AND BREATHABLE MATT FINISH GLOVE - A method to prepare a flexible and breathable protective glove having good grip in both aqueous and oil environments includes coating an electrolyte treated knitted glove liner substrate with a dispersion of a polymeric material. The resulting semi-gelled polymeric coating which partially penetrates the depth of the knitted glove liner substrate, is treated with a foamed solution of a surfactant, tenside or aerosol solution and the foam treated coating is overcoated with an electrolyte solution. In a resulting chemical or physical reaction, fine pores and cavities are formed in and on the polymer coating. | 04-29-2010 |
20100263106 | FOAMED POLYMER - A method for manufacturing a foamed polymer is disclosed, the method comprising, providing a precursor dispersion comprising a precursor of a gellable polymer, particles of a water-swellable polymer and water, and gelling the gellable polymer to form a solid polymer. The method may be used to manufacture a garment, especially a glove. Also disclosed are gloves comprising a liner and at least one foamed polymer layer coated on the liner the foamed polymer layer comprising micropores formed by water swelling and contraction of particles of a water swellable polymer and mesopores formed by gas incorporated in the foamed polymer. | 10-21-2010 |
20120204604 | KNITTED GLOVE - A double layer knitted glove is disclosed, the glove comprising a first yarn and a second yarn, the knitted glove comprising at least eight glove components, the components including: five digit components, an upper palm component, a lower palm component, and a wrist component, wherein one or more of the components comprises at least one functional zone comprising a single layer. Also disclosed is a knitted glove wherein each component comprises a plurality of courses, each course comprising a first yarn and wherein more than 50% of the courses of each component are plaited with a second yarn to provide a double layer component and wherein, in at least one component, predetermined functional zones of the component are single layer. Finally, a method for producing a double layer knitted glove is also disclosed. The inventive gloves are flexible, comfortable with enhanced fit and also functional. | 08-16-2012 |
20130133126 | METHOD FOR MAKING GLOVES - An embodiment is disclosed of a method of making gloves, more particularly polyvinyl chloride (PVC) coated gloves. The method comprises providing a liner, and coating at least a part of the liner with a PVC paste to form a coating having an outer layer, applying particles of a soluble solid to the outer layer of the coating and curing the outer layer. Preferably, the method further comprises gelling the outer layer after applying the particles and contacting the gelled outer layer with a solvent before curing. Preferably, the soluble solid comprises a solid acid. | 05-30-2013 |
20140115750 | COATED FABRIC AND PROCESS FOR FORMING A POLYMERIC COATING ON A LINER - Fabrics are disclosed having a liner with a polymeric coating, the coating comprising 0.25 to 8 ridges per cm and pits at an area density of 20 to 2500 cm | 05-01-2014 |
Patent application number | Description | Published |
20120271121 | Integrated Biometric Sensing and Display Device - A biometric device configured to be attached to a portion of a body of a user measures biometric data of the user. The device includes an optical emitter, a wavelength filter, an optical sensor and a processor, for sending a light to the body of a user, receiving light received from the user, filtering and processing it to measure biometric data of the user, including for example, heart rate and blood flow rate. In addition, the biometric device may include other sensors, such as a galvanic skin response sensor, an ambient temperature sensor, skin temperature, motion sensor, etc., to enable the biometric device to measure arousal or conductivity changing events, ambient temperature, user temperature and motion associated with the user. Additionally, information from each sensor may be used to further filter noise in one or more signals received by the sensors to provide biometric data to the user. | 10-25-2012 |