Patent application number | Description | Published |
20120232002 | SLOW-ACTING INSULIN PREPARATIONS - Aqueous pharmaceutical formulations with an insulin analog, comprising
| 09-13-2012 |
20120241356 | HEAT- AND VIBRATION-STABLE INSULIN PREPARATIONS - The invention relates to a method for producing an aqueous, pharmaceutical formulation comprising an insulin, an insulin analog, or an insulin derivative, wherein the ready-made formulation takes place directly by dissolving the insulin, the insulin analog, or the insulin derivative as a solid in a suitable solvent mixture. | 09-27-2012 |
20120252724 | INSULIN PREPARATIONS CONTAINING METHIONINE - The invention relates to an aqueous pharmaceutical formulation having insulin, an insulin analog, or an insulin derivative, and methionine; and to the production thereof, to the use thereof for treating diabetes mellitus, and to a medication for treating diabetes mellitus. | 10-04-2012 |
20140206611 | LONG-ACTING INSULIN FORMULATIONS - The application relates to an aqueous pharmaceutical formulation comprising 200-1000 U/mL [equimolar to 200-1000 IU human insulin] of insulin glargine. | 07-24-2014 |
Patent application number | Description | Published |
20090304157 | FIELD EMISSION CATHODE AND X-RAY TUBE EMBODYING SAME - A field emission cathode has a field emitter and an extraction grid, and the field emitter and the extraction grid can be moved relative to one another. Such a field emission cathode is highly durable and exhibits a longer lifespan. An x-ray tube has a field emission cathode composed of a field emitter and an extraction grid that can be moved relative to one another. Such an x-ray tube is highly durable and exhibits a longer lifespan. | 12-10-2009 |
20110058651 | DEVICE AND METHOD FOR X-RAY EXAMINATION OF AN OBJECT FOR MATERIAL DEFECTS BY MEANS OF X-RAYS - In a device and a method for testing an object for material defects, a multi-emitter x-ray source, at least one x-ray detector and a control system to activate emitters of the multi-emitter x-ray source are thereby used. A selective activation of individual emitters or of a portion of the emitters is conducted according to the requirements of at least one item of information related to the tested object. The Flexible and low-cost materials testing is achieved. | 03-10-2011 |
20110075802 | FIELD EMISSION X-RAY SOURCE WITH MAGNETIC FOCAL SPOT SCREENING - An x-ray imaging system has an x-ray source having an electron field emission source that emits an x-ray beam that strikes an elongated, stationary anode in an evacuated housing. A magnetic deflection system steers the electron beam between the electron field emission source and the anode, so that the electron beam can strike the anode at different locations, thereby causing x-rays to be emitted from those different locations, by controlling the degree of magnetic deflection. A radiation detector detects the x-rays after attenuation by an examination subject, and generates signals dependent on the detected radiation that represent an image of the subject. | 03-31-2011 |
Patent application number | Description | Published |
20090063490 | AUTHORIZATION CONTROLLED SEARCHING - Methods and apparatus, including computer program products, for authorization controlled searching. In general, a search request is received, a database data structure is searched where the data structure is populated with records that include data and criteria for authorization to access the data, and a set of results is presented to a user, where the set of results includes data from the data structure for which a user is authorized the criteria is used to determine which results to include in the set of results. The criteria for authorization to access the data may be simple or complex, and may be based on a formation of associations from multiple layers of associations. | 03-05-2009 |
20130138670 | AUTOMATIC TAGGING BETWEEN STRUCTURED/UNSTRUCTURED DATA - A system and method for establishing cross-relationships between objects is presented. A primary search is executed on a first object. A set of tagger identifiers is then determined based on the primary search. Each tagger identifier includes an internal instance key and one or more attributes of a match with the first object related to the primary search, and each tagger identifier of the set of tagger identifiers provides data for a secondary search. The secondary search is then executed on each of a secondary object that is tagged by the first object scanned by the primary search, the secondary search using the internal instance key and one or more attributes of the match with the first object. | 05-30-2013 |
20130166550 | Integration of Tags and Object Data - Example systems and methods of integrating data tags with their associated object data are presented. In one implementation, a data object employed in a first computer application is accessed. Examples of the data object include, but are not limited to, structured data and unstructured data. Tagging data that is descriptive of the first data object is also accessed. The tagging data is stored in at least one of the first data object and a separate data object linked with the first data object. The tagging data and the first data object are processed using a second computer application. | 06-27-2013 |
20130166563 | Integration of Text Analysis and Search Functionality - Example systems and methods of integrating text analysis and search functionality are presented. In one example, a plurality of documents, as well as search information comprising search terms for a search category, are accessed. Each of the documents that include at least one of the search terms is identified. The identified documents are analyzed to determine those of the identified documents that are logically associated with the search category. Each of the documents determined to be logically associated with the search category are tagged with the search category. | 06-27-2013 |
20140149450 | FLEXIBLE TABLES - A system includes reception of an instruction to access a column of a database table, determination that the column is not associated with the schema of the database table, determination of whether the schema of the database table is flexible or static, returning, if it is determined that the schema of the database table is static, of an error in response to the instruction, and, if it is determined that the schema of the database table is flexible, not returning an error in response to the instruction. | 05-29-2014 |
Patent application number | Description | Published |
20080200887 | ASSEMBLY FOR RECEIVING BODY FLUIDS, AND METHOD FOR THE PRODUCTION THEREOF - For an assembly for receiving body fluids comprising a sampling element ( | 08-21-2008 |
20080214909 | Catheter With Microchannels For Monitoring The Concentration Of An Analyte In A Bodily Fluid - Catheter for monitoring the concentration of an analyte in a body fluid having an implantable distal area ( | 09-04-2008 |
20100113907 | Tubular sensor for the detection of an analyte - An implantable sensor can be used for determining a concentration of at least one analyte in a medium, particularly in a body tissue and/or a body fluid. The implantable sensor can comprise a flexible, tubular sensor element. This sensor element has a tubular body on which at least two electrode rings are mounted for electrochemical determination of the concentration of the analyte. | 05-06-2010 |
20100168617 | DISPOSABLE DIAGNOSTIC PART AND A METHOD FOR THE MANUFACTURE THEREOF - The invention concerns a disposable diagnostic part comprising a lancing element ( | 07-01-2010 |
20110009774 | BODY FLUID SAMPLING DEVICE - Body fluid sampling device comprising a skin-piercing element having a collection zone for receiving body fluid. In one embodiment, the collection zone includes a plurality of holes, e.g., 3 or more holes, or 50 to 100 holes. The hole size may be small, e.g., having a diameter of 0.01 to 0.5 mm. The holes may or may not extend through the lancet. In some embodiments, the holes have a depth of 50 to 500 μm. In other embodiments, the collection zone is porous, or is a roughened area. The collection zone can take up a very small volume of body fluid, e.g., 3 to 10 nL, in a very short time period, e.g., less than 0.5 seconds. In other embodiments, the device further comprises a fluid receiving means spaced apart from the collection zone so that body fluid in the collection zone will not contact the fluid receiving means initially. | 01-13-2011 |
20120020839 | ANALYTICAL TEST ELEMENT AND PROCESS FOR ITS PRODUCTION - An analytical test element is provided having a surface comprising a chemical detection layer on which a spreading net is disposed, the spreading net being configured to provide for the planar distribution of a liquid sample on the detection layer. The spreading net generally comprises a filament structure coated with a metallic layer that is oxidized at least on one or more surface portions thereof facing the detection layer. | 01-26-2012 |
20120045825 | DIAGNOSTIC TEST TAPE FOR LIQUID SAMPLES - A diagnostic test tape for liquid samples is provided comprising a flexible transport tape and a plurality of test fields applied to the transport tape that are distributed in the longitudinal direction of the tape, where said test fields comprise a detection layer and a spreading net spanning the detection layer for a planar uptake of liquid sample, wherein the spreading net is formed from a lattice-like fabric comprising fabric threads that cross at right angles. In order to prevent the fabric from arching up under tape tension it is proposed that the fabric is oriented obliquely to the transport tape such that all fabric threads run obliquely to the longitudinal direction of the tape. | 02-23-2012 |
20120315432 | ANALYTICAL TEST ELEMENT AND PROCESS FOR ITS PRODUCTION - An analytical test element is provided having a surface comprising a chemical detection layer on which a spreading net is disposed, the spreading net being configured to provide for the planar distribution of a liquid sample on the detection layer. The spreading net generally comprises a filament structure coated with a metallic layer that is oxidized at least on one or more surface portions thereof facing the detection layer. | 12-13-2012 |
20140083872 | Sensor Device for Detecting an Analyte - A sensor device for detecting at least one analyte in a fluid, in particular in a body fluid, is disclosed. The sensor device includes at least one closed detector chamber and at least one electrical sensor having at least one sensor electrode. The detector chamber can be connected to the fluid in such a way that the analyte can penetrate into the detector chamber. The detector chamber includes at least one detector substance. The detector substance is designed to influence at least one electrical property of the electrical sensor, in particular at least one electrical property of the sensor electrode, depending on a concentration of the analyte in the detector chamber. | 03-27-2014 |
20150080689 | Method for making a dry sensor element for an enzymatic determination of an analyte in a body fluid and a dry sensor element - A method for making a dry sensor element for an enzymatic determination of an analyte in a body fluid includes providing a substrate, producing a working electrode on the substrate, producing a counter electrode on the substrate, and producing electric connectors on the substrate connected to the working electrode and the counter electrode, the step of producing the working electrode further comprising depositing an active enzymatic electrode layer containing an enzyme and a catalyzer material for catalyzing an enzymatic determination of an analyte of a body fluid, the catalyzer material comprising at least one of metal nano-particles and metal oxide nano-particles. A dry sensor element for an enzymatic determination of an analyte in a body fluid is also disclosed. | 03-19-2015 |
Patent application number | Description | Published |
20100252764 | CONNECTING ELEMENT AND ASSOCIATED FLUID ASSEMBLY - The invention relates to a connecting element for the electric connection of a solenoid valve to a circuit board, having a first electric contact element for electrically contacting the solenoid valve, a second electric contact element for electrically contacting the circuit board, and at least one tolerance adjusting element, and a related fluid assembly. According to the invention the connecting element is configured as one piece, and the first electric contact element and the second electric contact element are connected to each other via the at least one tolerance adjusting element. A first modifiable tolerance adjusting element enables a length adjustment in at least one spatial direction in order to predetermine a desired spatial positioning of the first contact element and the second contact element relative to each other. | 10-07-2010 |
20100263741 | FLUID ASSEMBLY - The invention relates to a fluid assembly having a fluid block, a controller, and at least one solenoid valve. The solenoid valve has a valve cartridge connected to the fluid block and a corresponding solenoid unit connected to the controller, whereby the controller is connected to the fluid block in a sealing manner via a housing pan. According to the invention, the housing pan has a functionally integrated housing bottom, which is integrated in a magnetic circuit of the at least one solenoid valve and, at least in the pass-through region of the at least one solenoid valve, is made of magnetically conductive material, preferably a metal. | 10-21-2010 |
20120080626 | Connecting Element and Related Fluid Assembly - A connecting element for electrically connecting two components to a first electric contact element for electrically contacting a first component, to a second electric contact element for electrically contacting a second component, and to at least one tolerance compensating element is disclosed. The fluid assembly includes at least one such connecting element. The connecting element is configured as one piece and the first electric contact element and the second electric contact element are connected to each other by way of the at least one tolerance compensating element. The first variable tolerance compensating element enables a compensation in length in at least one spatial direction in order to predetermine a desired spatial position of the first contact element and the second contact element in relation to each other. The first variable tolerance compensating element may be three-dimensionally shaped by bending. | 04-05-2012 |
Patent application number | Description | Published |
20100206072 | MICROMECHANICAL COMPONENT AND METHOD FOR OPERATING A MICROMECHANICAL COMPONENT - A micromechanical component may include fixed electrodes and a seismic mass, the seismic mass being connected via a suspension element to a carrier substrate and being movable with respect to it. The seismic mass may include counterelectrodes, which are interconnected via a first electrically conductive connection. The fixed electrodes may include measuring electrodes and decoupled electrodes, the measuring electrodes being provided to function for an electrical evaluation, and the counterelectrodes situated across from the decoupled electrodes being provided to function as a frequency band-altering mechanical element. | 08-19-2010 |
20110066396 | Sensor device and manufacturing method for a sensor device - A sensor device includes: a sensor module mounted on a conductor board; a sensitive element which is sensitive to a variable; a self-test control unit implementing a self-test program, the self-test control unit applying a self-test variable to the sensitive element, taking the self-test program into account; a detection unit detecting a characteristic of the sensitive element which is altered as a result of the applied self-test variable and providing an actual self-test response, taking the altered characteristic into account; and a comparator unit provided on or in the sensor module, the comparator unit comparing the actual self-test response to at least one specified setpoint self-test response and providing comparative information. | 03-17-2011 |
20120073370 | MICROMECHANICAL STRUCTURE - A micromechanical structure, in particular an acceleration sensor, is described, having a substrate, a seismic mass, which is movable relative to the substrate, and at least one anchoring element, which is fixedly connected to the substrate, the seismic mass being attached to the substrate by the anchoring element, and at least one spring element being situated between the seismic mass and the anchoring element, and furthermore, the anchoring element has at least one stop element for interaction with at least one counterstop element of the seismic mass. | 03-29-2012 |