Patent application number | Description | Published |
20120158066 | ADJUSTABLE CERVICAL PLATE - Modified anterior or posterior fusion plates and interbody fusion devices have been developed that contain slots to allow the use of pins to position and to guide the placement of the plate while the screws are being secured, reducing the likelihood of improper placement and localization of the plate and screws. This reduces the amount of time required for the operative procedure, and prevents inadvertent introduction of the screws for the plate into the former pin holes. This system allows the surgeon to carefully identify the geometry of the vertebral bodies at the outset of the case, when there is no significant bleeding, and when the field is clearly visualized, to determine the placement of the distracting pins. Then, the careful placement of the distracting pins serves as the guide and basis for placement of the plate and screws. | 06-21-2012 |
20140052183 | Posterior Spine Attachment Device for Hardware and Paraspinal Musculature - Devices, kits, and methods for stabilizing the spine and replacing spinous processes removed during spine surgery are provided. The device has a suitable configuration to attach to both spine surgery hardware and to the paraspinal muscles and fascia. The device contains a muscle attachment portion, one or more connectors, and one or more cross connectors. Each cross connector contains a pair of connection portions configured to attach to hardware that is implanted in the spine, such as screw heads or rods. The muscle attachment portion contains a plurality of openings for the attachment of the paraspinal muscles and fascia. Following spine surgery, a surgeon attaches the device to the hardware implanted in the surgical site, and sutures the paraspinal muscles to the openings. Thus the device provides a direct attachment to the paraspinal musculature and fascia, and thereby stabilizes the spine. | 02-20-2014 |
20150013717 | Disposable Absorbent Liquid Impermeable Coverings - A single use, disposable system for cleaning that protects the individual's hands that avoids direct skin and hand contact with the material being cleaned, reducing the likelihood of transmission of pathogens, germs, dirt, odiferous material, noxious material, and allowing the individual to then progress forward without having to wash, cleanse or dry their hands, has been developed. The system includes an absorbent material such as a paper towel, baby wipe, surface cleaning wipe, or medical wipe, adhered on at least one surface to a flexible liquid or waste impermeable covering such as a glove, mitt, or baggie. | 01-15-2015 |
Patent application number | Description | Published |
20100307647 | Metastable Beta-Titanium Alloys and Methods of Processing the Same by Direct Aging - Metastable beta titanium alloys and methods of processing metastable β-titanium alloys are disclosed. For example, certain non-limiting embodiments relate to metastable β-titanium alloys, such as binary β-titanium alloys comprising greater than 10 weight percent molybdenum, having tensile strengths of at least 150 ksi and elongations of at least 12 percent. Other non-limiting embodiments relate to methods of processing metastable β-titanium alloys, and more specifically, methods of processing binary β-titanium alloys comprising greater than 10 weight percent molybdenum, wherein the method comprises hot working and direct aging the metastable β-titanium alloy at a temperature below the β-transus temperature of the metastable β-titanium alloy for a time sufficient to form α-phase precipitates in the metastable β-titanium alloy. Articles of manufacture comprising binary β-titanium alloys according to various non-limiting embodiments disclosed herein are also disclosed. | 12-09-2010 |
20110038751 | METASTABLE BETA-TITANIUM ALLOYS AND METHODS OF PROCESSING THE SAME BY DIRECT AGING - Metastable beta titanium alloys and methods of processing metastable β-titanium alloys are disclosed. For example, certain non-limiting embodiments relate to metastable β-titanium alloys, such as binary β-titanium alloys comprising greater than 10 weight percent molybdenum, having tensile strengths of at least 150 ksi and elongations of at least 12 percent. Other non-limiting embodiments relate to methods of processing metastable β-titanium alloys, and more specifically, methods of processing binary β-titanium alloys comprising greater than 10 weight percent molybdenum, wherein the method comprises hot working and direct aging the metastable β-titanium alloy at a temperature below the β-transus temperature of the metastable β-titanium alloy for a time sufficient to form α-phase precipitates in the metastable β-titanium alloy. Articles of manufacture comprising binary β-titanium alloys according to various non-limiting embodiments disclosed herein are also disclosed. | 02-17-2011 |
20140065010 | TITANIUM ALLOYS INCLUDING INCREASED OXYGEN CONTENT AND EXHIBITING IMPROVED MECHANICAL PROPERTIES - One aspect of the present disclosure is directed to a metastable β titanium alloy comprising, in weight percentages: up to 0.05 nitrogen; up to 0.10 carbon; up to 0.015 hydrogen; up to 0.10 iron; greater than 0.20 oxygen; 14.00 to 16.00 molybdenum; titanium; and incidental impurities. Articles of manufacture including the alloy also are disclosed. | 03-06-2014 |
20140076468 | METASTABLE BETA-TITANIUM ALLOYS AND METHODS OF PROCESSING THE SAME BY DIRECT AGING - Metastable beta titanium alloys and methods of processing metastable (β-titanium alloys are disclosed. For example, certain non-limiting embodiments relate to metastable (β-titanium alloys, such as binary β-titanium alloys comprising greater than 10 weight percent molybdenum, having tensile strengths of at least 150 ksi and elongations of at least 12 percent. Other non-limiting embodiments relate to methods of processing metastable β-titanium alloys, and more specifically, methods of processing binary (β-titanium alloys comprising greater than 10 weight percent molybdenum, wherein the method comprises hot working and aging the metastable β-titanium alloy at a temperature below the (β-transus temperature of the metastable (β-titanium alloy for a time sufficient to form α-phase precipitates in the metastable β-titanium alloy. The metastable β-titanium alloys are not solution heat treated after hot working and prior to aging. Articles of manufacture comprising binary β-titanium alloys according to various non-limiting embodiments disclosed herein are also disclosed. | 03-20-2014 |
Patent application number | Description | Published |
20090137859 | PASSAGE EXPANSION DEVICE FOR PATIENTS - A method for opening a portion of a passageway of a patient is disclosed. The patient has a first metallic structure attached to a portion of the patient's neck. The method includes obtaining a second magnetic structure, placing the second magnetic structure proximate the first metallic structure attached to the portion of the patient's neck, and pulling the second magnetic structure away from the patient's neck to thereby open the passageway. | 05-28-2009 |
20110213399 | PASSAGE EXPANSION DEVICE FOR PATIENTS - A method for opening a portion of a passageway of a patient is disclosed. The patient has a first metallic structure attached to a portion of the patient's neck. The method includes obtaining a second magnetic structure, placing the second magnetic structure proximate the first metallic structure attached to the portion of the patient's neck, and pulling the second magnetic structure away from the patient's neck to thereby open the passageway. | 09-01-2011 |
20130056235 | Articulating Drill with Integrated Circuit Board and Method of Operation - The present invention is an articulating hand power tool with a main housing having a longitudinal axis, a head portion rotatably engaged with the main housing for placement at a plurality of angles with respect to the longitudinal axis of the main housing, an integrated circuit board located within the main housing and at least one controller accessible from outside of the main housing for controlling the integrated circuit board. | 03-07-2013 |
20140048300 | Articulating Drill with Integrated Circuit Board and Method of Operation - The present invention is an articulating hand power tool with a main housing having a longitudinal axis, a head portion rotatably engaged with the main housing for placement at a plurality of angles with respect to the longitudinal axis of the main housing, an integrated circuit board located within the main housing and at least one controller accessible from outside of the main housing for controlling the integrated circuit board. | 02-20-2014 |
Patent application number | Description | Published |
20130192682 | APPARATUS AND METHOD FOR MAGNETICALLY CONDITIONING FLUIDS - Methods and apparatus for fluid conditioning to reduce scaling, inactivate microbes, reduce surface tension, maintain fluid composition, and improve pumping are provided for use in treating crude petroleum, industrial water, agricultural water, municipal water supplies, or any fluid flow system and comprise electromagnets of variable control that can be powered or in which a current can be induced by a permanent magnet. Magnetic field direction and intensity can be selected depending on the nature of the fluid and in some embodiments, the field can be varied during operation, including pulsing and variably selecting one or more field directions and intensities, or combinations thereof, during operation. A non-magnetic fluid transfer conduit section has at least one conductor assembly mounted about the section. In one embodiment, the conductor assembly comprises a concentric, tilted double helix coil or multipole coil. If desired, one or more rotating or reciprocating permanent magnets may be located in magnetic field contact with one or more multipole conductor assemblies and rotated or reciprocated to induce a current in the multipole conductor assembly, thereby to induce a magnetic field in the conductor assembly. | 08-01-2013 |
Patent application number | Description | Published |
20130032338 | Methods for Fluid Monitoring in a Subterranean Formation Using One or More Integrated Computational Elements - Methods for fluid monitoring within a subterranean formation can comprise: introducing a first fluid into a subterranean formation; and monitoring a disposition of the first fluid within the subterranean formation using one or more integrated computational elements in optical communication with the subterranean formation. | 02-07-2013 |
20130032339 | Methods for Fluid Monitoring in a Subterranean Formation Using One or More Integrated Computational Elements - Methods for fluid monitoring in a subterranean formation can comprise: providing a diverting fluid comprising a diverting agent; introducing the diverting fluid into a subterranean formation comprising one or more subterranean zones; and monitoring a disposition of the diverting fluid within the subterranean formation using one or more integrated computational elements in optical communication with the subterranean formation. | 02-07-2013 |
20130284894 | Devices Having One or More Integrated Computational Elements and Methods for Determining a Characteristic of a Sample by Computationally Combining Signals Produced Therewith - Optical computing devices containing one or more integrated computational elements may be used to produce two or more detector output signals that are computationally combinable to determine a characteristic of a sample. The devices may comprise a first integrated computational element and a second integrated computational element, each integrated computational element having an optical function associated therewith, and the optical function of the second integrated computational element being at least partially offset in wavelength space relative to that of the first integrated computational element; an optional electromagnetic radiation source; at least one detector configured to receive electromagnetic radiation that has optically interacted with each integrated computational element and produce a first signal and a second signal associated therewith; and a signal processing unit operable for computationally combining the first signal and the second signal to determine a characteristic of a sample. | 10-31-2013 |
20130284895 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and at least two integrated computational elements. The at least two integrated computational elements are configured to produce optically interacted light and further configured to be associated with a characteristic of the sample. The optical computing device further includes a first detector arranged to receive the optically interacted light from the at least two integrated computational elements and thereby generate a first signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130284896 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and at least two integrated computational elements. The at least two integrated computational elements may be configured to produce optically interacted light, and at least one of the at least two integrated computational elements may be configured to be disassociated with a characteristic of the sample. The optical computing device further includes a first detector arranged to receive the optically interacted light from the at least two integrated computational elements and thereby generate a first signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130284897 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and at least two integrated computational elements. The at least two integrated computational elements are configured to produce optically interacted light and further configured to be associated with a characteristic of the sample. The optical computing device further includes a first detector arranged to receive the optically interacted light from the at least two integrated computational elements and thereby generate a first signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130284898 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and at least two integrated computational elements. The at least two integrated computational elements may be configured to produce optically interacted light, and at least one of the at least two integrated computational elements may be configured to be disassociated with a characteristic of the sample. The optical computing device further includes a first detector arranged to receive the optically interacted light from the at least two integrated computational elements and thereby generate a first signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130284899 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and first and second integrated computational elements arranged in primary and reference channels, respectively. The first and second integrated computational elements produce first and second modified electromagnetic radiations, and a detector is arranged to receive the first and second modified electromagnetic radiations and generate an output signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130284900 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and first and second integrated computational elements arranged in primary and reference channels, respectively. The first and second integrated computational elements produce first and second modified electromagnetic radiations, and a detector is arranged to receive the first and second modified electromagnetic radiations and generate an output signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130284901 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and first and second integrated computational elements arranged in primary and reference channels, respectively, the first and second computational elements are configured to be either positively or negatively correlated to the characteristic of the sample. The first and second integrated computational elements produce first and second modified electromagnetic radiations, and a detector is arranged to receive the first and second modified electromagnetic radiations and generate an output signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130284904 | Methods and Devices for Optically Determining A Characteristic of a Substance - Optical computing devices are disclosed. One exemplary optical computing device includes an electromagnetic radiation source configured to optically interact with a sample and first and second integrated computational elements arranged in primary and reference channels, respectively, the first and second computational elements are configured to be either positively or negatively correlated to the characteristic of the sample. The first and second integrated computational elements produce first and second modified electromagnetic radiations, and a detector is arranged to receive the first and second modified electromagnetic radiations and generate an output signal corresponding to the characteristic of the sample. | 10-31-2013 |
20130286398 | Imaging Systems for Optical Computing Devices - Optical computing devices are disclosed. One optical computing device includes an electromagnetic radiation source that emits electromagnetic radiation into an optical train to optically interact with a sample and at least one integrated computational element, the sample being configured to generate optically interacted radiation. A sampling window is arranged adjacent the sample and configured to allow transmission of the electromagnetic radiation therethrough and has one or more surfaces that generate one or more stray signals. A first focal lens is arranged to receive the optically interacted radiation and the one or more stray signals and generate a primary focal point from the optically interacted radiation. A structural element defines a spatial aperture aligned with the primary focal point such that the optically interacted radiation is able to pass therethrough while transmission of the one or more stray signals is substantially blocked by the structural element. | 10-31-2013 |
20130286399 | Imaging Systems for Optical Computing Devices - Optical computing devices are disclosed. One optical computing device includes an electromagnetic radiation source that emits electromagnetic radiation into an optical train to optically interact with a sample and at least one integrated computational element, the sample being configured to generate optically interacted radiation. A sampling window is arranged adjacent the sample and configured to allow transmission of the electromagnetic radiation therethrough and has one or more surfaces that generate one or more stray signals. A first focal lens is arranged to receive the optically interacted radiation and the one or more stray signals and generate a primary focal point from the optically interacted radiation. A structural element defines a spatial aperture aligned with the primary focal point such that the optically interacted radiation is able to pass therethrough while transmission of the one or more stray signals is substantially blocked by the structural element. | 10-31-2013 |
20130287061 | Devices Having an Integrated Computational Element and a Proximal Interferent Monitor and Methods for Determining a Characteristic of a Sample Therewith - The output of optical computing devices containing an integrated computational element can be corrected when an interferent substance or condition is present. The devices may comprise an optional electromagnetic radiation source; a sample detection unit comprising an integrated computational element and a detector configured to receive electromagnetic radiation that has optically interacted with the integrated computational element and produce a sample signal associated therewith; an interferent monitor located proximal to the sample detection unit, the interferent monitor being configured to produce an interferent signal associated with an interferent substance; and a signal processing unit operable to convert the interferent signal into an interferent input form suitable for being computationally combined with the sample signal, the signal processing unit being further operable to computationally combine the sample signal and the interferent input form to determine a characteristic of a sample in real-time or near real-time. | 10-31-2013 |
20140263974 | Methods and Devices for Optically Determining a Characteristic of a Substance - Using an optical computing device includes optically interacting electromagnetic radiation with a sample and a first integrated computational element arranged within a primary channel, optically interacting the electromagnetic radiation with the sample and a second integrated computational element arranged within a reference channel, producing first and second modified electromagnetic radiations from the first and second integrated computational elements, respectively, receiving the first modified electromagnetic radiation with a first detector, and receiving the second modified electromagnetic radiation with a second detector, generating a first output signal with the first detector and a second output signal with the second detector, and computationally combining the first and second output signals with a signal processor to determine the characteristic of interest of the sample. | 09-18-2014 |
20140306096 | METHODS AND DEVICES FOR OPTICALLY DETERMINING A CHARACTERISTIC OF A SUBSTANCE - An exemplary optical computing device includes an electromagnetic radiation source that optically interacts with a sample having a characteristic of interest, a first integrated computational element arranged within a primary channel to optically interact with the electromagnetic radiation source and produce a first modified electromagnetic radiation, wherein the first integrated computational element is configured to be positively or negatively correlated to the characteristic of interest, a second integrated computational element arranged within a reference channel to optically interact with the electromagnetic radiation source and produce a second modified electromagnetic radiation, wherein the second integrated computational element is configured to correlated to the characteristic of interest with an opposite sign relative to the first integrated computational element, and a first detector arranged to generate a first signal from the first modified electromagnetic radiation and a second signal from the second modified electromagnetic radiation. | 10-16-2014 |
Patent application number | Description | Published |
20090171590 | System and Methods for Sample Analysis - The invention encompasses analyzers and analyzer systems that include a single particle analyzer, methods of using the analyzers and analyzers systems to analyze samples, either for single particles or for multiple particles (multiplexing), methods of doing business based on the use of the analyzers or analyzer systems of the system, and electronic media for storing parameters useful in the analyzers and analyzer systems of the invention. | 07-02-2009 |
20100112727 | SINGLE MOLECULE ASSAYS - The present invention provides single molecule analyses of species of use in analytical, diagnostic or prognostic assays. In exemplary embodiments, the assays utilize samples prepared by novel methods, affording assays of unexpected sensitivity and robustness. The method is described in a non-limiting manner by reference to cytokine assays. | 05-06-2010 |
20130267039 | Single Molecule Assays - The present invention provides single molecule analyses of species of use in analytical, diagnostic or prognostic assays. In exemplary embodiments, the assays utilize samples prepared by novel methods, affording assays of unexpected sensitivity and robustness. The method is described in a non-limiting manner by reference to cytokine assays. | 10-10-2013 |
20140342468 | Single Molecule Assays - The present invention provides single molecule analyses of species of use in analytical, diagnostic or prognostic assays. In exemplary embodiments, the assays utilize samples prepared by novel methods, affording assays of unexpected sensitivity and robustness. The method is described in a non-limiting manner by reference to cytokine assays. | 11-20-2014 |
Patent application number | Description | Published |
20150300163 | SYSTEM AND METHOD FOR MONITORING WATER CONTAMINATION WHEN PERFORMING SUBTERRANEAN OPERATIONS - A method and system for monitoring groundwater quality at or near a wellbore are disclosed. A monitoring sensor is coupled to the groundwater and detects at least one characteristic of the groundwater. The monitoring sensor is a Multivariate Optical Computer (“MOC”) and is optically coupled to the groundwater | 10-22-2015 |
20150337435 | FABRICATION OF INTEGRATED COMPUTATIONAL ELEMENTS USING SUBSTRATE SUPPORT SHAPED TO MATCH SPATIAL PROFILE OF DEPOSITION PLUME - A system includes a computational system to receive a design of an integrated computational element (ICE) including specification of a substrate and a plurality of layers, their respective target thicknesses and complex indices, such that a notional ICE fabricated based on the ICE design is related to a characteristic of a sample. Additionally, the system includes a deposition chamber including a deposition source to provide a deposition plume having a plume spatial profile, and a support to support a plurality of instances of the substrate during fabrication of a plurality of instances of the ICE. The support is spaced apart from the deposition source and has a shape that corresponds to the plume spatial profile, such that when the supported instances of the substrate are distributed over the support, thicknesses of instances of each of the deposited layers are substantially uniform across the plurality of instances of the ICE. | 11-26-2015 |
20160048627 | DESIGN TECHNIQUES FOR OPTICAL PROCESSING ELEMENTS - One disclosed method for designing an integrated computational element (ICE) core includes generating with a computer a plurality of predetermined ICE core designs having a plurality of thin film layers, wherein generating the plurality of predetermined ICE core designs includes iteratively varying a thickness of each thin film layer by applying coarse thickness increments to each thin film layer, calculating a transmission spectrum for each predetermined ICE core design, calculating a performance of each predetermined ICE core design based on one or more performance criteria, identifying one or more predictive ICE core designs based on the performance of each predetermined ICE core design, and optimizing the one or more predictive ICE core designs by iteratively varying the thickness of each thin film layer with fine thickness increments, wherein the one or more predictive ICE core designs are configured to detect a particular characteristic of interest. | 02-18-2016 |
Patent application number | Description | Published |
20110296152 | BOOT MODE - A method for launching a boot mode of a device including detecting an input in response to a user accessing a power button of the device, identifying at least one characteristic of the input and a corresponding boot mode which can be launched in response to at least one of the characteristic of the input, and configuring the device to launch the corresponding boot mode. | 12-01-2011 |
20130031226 | BROADCAST-BASED UPDATE MANAGEMENT - A first computing device establishes an update service associated with an identifier. When the first computing device receives a broadcast message from a second computing device that includes a network address of the second computing device, the first computing device transmits to the network address a message including the identifier associated with the update service. The update service receives from the second computing device a request including the identifier and in return transmits to the second computing device information about available updates. | 01-31-2013 |
20130055008 | DOWNLOADING A DISK IMAGE FROM A SERVER WITH A REDUCED CORRUPTION WINDOW - Example embodiments relate to downloading a disk image from a server while reducing the corruption window. In example embodiments, a computing device writes a recovery image to a portion of a primary storage device. The computing device may then write the disk image to the primary storage device until a portion of the disk image corresponding to the recovery image remains. Next, the computing device may write the remaining portion of the disk image to a secondary storage location. Finally, the computing device may overwrite the recovery image using the remaining portion of the disk image from the secondary storage location. | 02-28-2013 |
20130326404 | Disable Feature of Computing Device - A computing device to detect if a power button of the computing device is accessed as computing device initially receives power from a power source. The computing device disables a feature of the computing device if the power button is accessed as the computing device initially receives power from the power source. | 12-05-2013 |
20140013096 | BOOTING A COMPUTING DEVICE TO HAVE A PREDEFINED FUNCTIONALITY - In a method for booting a computing device to have a predefined functionality, in which the computing device has stored thereon a limited functionality operating system (OS) having an operating file system, the limited functionality OS is booted and a characteristic file system with a predefined functionality is located. In addition, the characteristic file system is merged into the operating file system and the limited functionality OS is implemented with the merged file system to cause the computing device to have the predefined functionality. | 01-09-2014 |
20140019796 | Supervisor System Resuming Control - Embodiments herein relate to a computing device ( | 01-16-2014 |
20140052869 | Operation Mode of Processor - A computing device to detect a communication protocol between the computing device and a second computing device, to identify operating parameters associated with the communication protocol, and to modify a mode of operation of a processor based on the operating parameter. | 02-20-2014 |