Patent application number | Description | Published |
20090003759 | Distributed Optical Pressure and Temperature Sensors - Disclosed herein is a carrier for an optical fiber having a plurality of optical sensors located thereon. Such carrier can be a thick-walled capillary tube or other shapes. The carrier has a sealed hollow body with a side wall. The side wall is profiled at least one predetermined location to form a thin-walled section and at least one optical sensor is attached to said thin-walled section. As the thin-walled section flexes in response to a pressure difference across it, the pressure difference is sensed by the optical sensor. The carrier may also have a slot defined on its side wall to receive the optical fiber. A temperature optical sensor may also be provided adjacent to the pressure optical sensor. | 01-01-2009 |
20090003760 | Distributed Optical Pressure and Temperature Sensors - Disclosed herein is a carrier for an optical fiber having a plurality of optical sensors located thereon. The carrier has a test section comprising a cavity and at least one geometric discontinuity, wherein in response to a pressure applied to the test section, a stress concentration is formed proximate to the geometric discontinuity, and wherein the optical sensor is adhered to at least a part of the geometric discontinuity. The cavity may be filled with a liquid or a gel. A temperature optical sensor may also be provided adjacent to the pressure optical sensor. | 01-01-2009 |
20090051905 | Optical Inclination Sensor - An optical inclination sensor is provided having at least one reflective surface and at least two separate optical fibers having ends spaced from a reflective surface. As the reflective surface tilts with respect to a pre-determined reference position the gap lengths between the fiber ends and the reflective surface change and the differences in these gap lengths is used to calculate an angle of inclination with respect to a reference position. The optical inclination sensor can include at least one mass attached to a housing and moveable with respect to the housing as the mass and housing are rotated about one or more axes. Optical strain sensors are disposed a various locations between the mass and housing so that as the mass moves with respect to the housing, each one of the optical strain sensors are placed in compression or tension. The housing can be a generally u-shaped housing having two arms and a base section with the mass disposed within the housing. Alternatively, the housing includes a first beam, and the mass is a second beam arranged generally orthogonal to the first beam and pivotally attached thereto. The optical strain sensors are disposed between the first beam and the second beam. The optical strain sensors are placed in tension or compression as the second beam pivots with respect to the first beam. | 02-26-2009 |
Patent application number | Description | Published |
20130184763 | ROD REDUCER, COMPRESSOR, DISTRACTOR SYSTEM - A compressor/distractor system for operating on a spine is disclosed. The system includes two rod reducers which each advance a spinal rod into the shoulder portion of a pedicle screw. Each rod reducer includes an inner member, an outer member, and a pair of gripping members. Each outer member receives and advances the spinal rod into the pedicle screw. The outer member also includes a through slot which receives the proximal end of each of the pair of gripping members which may limit the longitudinal translation of the outer member with respect to the inner member. The compressor/distractor system may include a compressor/distractor device which has a compressing, a distracting, and a neutral configuration. A method for using the minimally invasive rod reducers with the compressor/distractor system to secure at least two pedicle screws in desired positions on a spinal rod is also disclosed. | 07-18-2013 |
20140066990 | MULTI-PLANAR AXIAL SPINAL ROD CONNECTOR - A multi-planar axial spinal rod connector includes a first portion, a second portion, and a connector assembly. The first portion defines a longitudinal axis and defines a first passage. The first passage is sized and configured to slidably receive a first spinal rod. The second portion defines a second longitudinal axis and defines a second passage. The second longitudinal axis is different from the first longitudinal axis. The second passage is sized and configured to slidably receive a second spinal rod. The connector assembly is configured to fix the first and second portions relative to one another such that the first and second longitudinal axes define an angle relative to one another. | 03-06-2014 |
20140257397 | FLEXIBLE FASTENING SYSTEM - A flexible implant system includes a flexible implant, an implant housing, and an implant set screw. The flexible implant is configured to loop around a portion of a bony element. The implant housing includes a housing body defining a rod passage configured to receive an rod. The housing body also defines an implant passage that receives a portion of the flexible implant. The implant set screw engages the flexible implant within the implant passage to fix the flexible implant to the implant housing. | 09-11-2014 |
20140277503 | SPINAL FIXATION DEVICE - A spinal fixation device includes a body having a first end defining an aperture, an engaging portion configured to engage a vertebral body, and an adjustment member configured to be received in the body through the aperture. The adjustment member is operatively coupled with the engaging portion to selectively position the engaging portion at one of a plurality of orientations relative to the body. | 09-18-2014 |
Patent application number | Description | Published |
20120267030 | Adhesive Dispensing Profile Enhancement - A first method is provided that comprises the steps of: measuring a first surface disposed on a first substrate, measuring a second surface disposed on a second substrate, calculating a variable gap between the first surface and the second surface, depositing a variable amount of adhesive on the first surface of the first substrate based at least in part on the calculation of the variable gap, and placing the second substrate over the first substrate, wherein the adhesive is disposed between the first surface of the first substrate and the second surface of the second substrate. | 10-25-2012 |
20130208238 | METHOD AND APPARATUS FOR SUPPLYING AN ELECTRO-ACTIVE MATERIAL TO AN ELECTRO-ACTIVE OPTICAL SYSTEM - The present invention relates generally to methods of fabricating an electro-active optical structure, such as an electro-active lens or an electro-active lens blank. In some embodiments, the invention relates to fabrication methods that comprise an improved process for delivering an electro-active material into a cavity, resulting in electro-active structures that can be manufactured in less time and with lowered costs. | 08-15-2013 |
20140028966 | Electronic Eyeglasses and Methods of Manufacturing - Disclosed herein are devices and methods for the design and manufacturing of electronic eyeglasses and associated components thereof. Electronic eyeglasses consist of electro-active lenses, receiving electrical signals that turn them on and off from an electronic control module. The electronic control module is embedded within a temple of the eyeglass frame, and is powered by a removable power source pack residing at a temple tip through a flexible cable. Various methods describe the interconnection schemes between the components of the electronic eyeglasses. | 01-30-2014 |
20140237817 | LIQUID CRYSTAL ALIGNMENT LAYERS AND METHOD OF FABRICATION - Methods are provided for making layers with nano-and micro-patterned topographies by laser action or inkjet printing on a first surface. These topographies have a periodicity of 5 nm to 500 μm in a first direction in the plane of the first surface. These layers can be used as anisotropically patterned alignment layers in electro-optical devices and generate an orientational order of at least 0.30. | 08-28-2014 |
Patent application number | Description | Published |
20080223375 | SINGLE NASAL PRONG NASAL CANNULA - A device and system for delivering breathing gas to a patient is disclosed. The device includes a single nasal prong insertable into a nare. The single nasal prong is sized to allow gas passage between the single nasal prong and the nare. The device also includes a lumen in fluid communication with the single nasal prong. A method of delivering breathing gas to the patient is also disclosed. | 09-18-2008 |
20090056712 | BASE UNIT FOR BREATHING GAS HEATING AND HUMIDIFICATION SYSTEM - A base unit for use in a breathing gas heating and humidification apparatus includes a gas source configured to generate an initial gas flow, the gas source having a gas source outlet and a flow divider in fluid communication with the gas source outlet. The flow divider is configured to divide the initial gas flow into a first flow of gas and a second flow of gas. The flow divider includes a first compartment including a first gas flow path for the first flow of gas and a second compartment including a second gas flow path for the second flow of gas. A heater is disposed in the second compartment. A method for use in generating breathing gas and insulating gas from a gas source is also disclosed. | 03-05-2009 |
20090056713 | SYSTEM AND METHOD FOR DELIVERING A HEATED AND HUMIDIFIED GAS - An apparatus for providing breathing gas to a patient that includes a base unit to provide a first flow of gas and a second flow of gas and a humidification canister to be coupled to the base unit is described. The humidification canister includes a first gas flow path to receive and humidify the first flow of gas. A delivery tube assembly includes a first lumen configured for fluid communication with the first gas flow path to receive the humidified first flow of gas and a second lumen to receive the second flow of gas. A method of heating and humidifying the first flow of gas and insulating the first flow of gas with the second flow of gas is also described. | 03-05-2009 |
20090056715 | DELIVERY TUBE FOR BREATHING GAS HEATING AND HUMIDIFICATION SYSTEM - A delivery tube assembly for delivering a breathing gas to a patient, the delivery tube includes a first lumen having an upstream portion and a downstream portion. The lumen is configured to deliver the breathing gas from the upstream portion to the downstream portion. A second lumen is configured to flow an insulating gas around the first lumen. A method of insulating a breathing gas with an insulating gas and discharging the insulating gas to atmosphere is also disclosed. | 03-05-2009 |
20100258114 | HEATED NEBULIZER DEVICES, NEBULIZER SYSTEMS, AND METHODS FOR INHALATION THERAPY - Nebulizer assemblies and systems are disclosed. A nebulizer assembly includes a reservoir and a nebulizer for producing an aerosolized gas. An aerosolized gas outlet passes the aerosolized gas. A breathing gas mixing chamber is coupled to an outlet port of the nebulizer to entrain nebulized medication into a breathing gas. A system and method of heating medication in a reservoir and adding medication to a gas flow is also provided. | 10-14-2010 |