Patent application number | Description | Published |
20090008246 | Cartridge for Containing and Dispensing Test Sensors - A cartridge comprises a plurality of test sensors, a housing and a window. The plurality of test sensors is adapted to be used in determining the concentration of an analyte of a fluid sample. The plurality of test sensors is in a stacked position. The housing includes an interior, at one least wall and a sensor-discharge opening. The housing is adapted to contain the plurality of test sensors within the interior of the housing. The window is disposed within the at least one wall of the housing. The window permits a user of the cartridge to visually determine the number of test sensors remaining within the interior of the housing. The cartridge is adapted to dispense the plurality of test sensors one at a time from the sensor-dispensing opening. | 01-08-2009 |
20110008907 | SYSTEM USING SELF-CONTAINED PROCESSING MODULE FOR DETECTING NUCLEIC ACIDS - A method and apparatus are provided for processing a nucleic acid. The apparatus includes a disposable self-contained processing module that contains the nucleic acid and substantially all of the fluids to effect a nanoparticle hybridization test, a pump coupled to the processing module, a valving system disposed between the pump and processing module and a control system coupled to the pump and valving system causing the processing fluids to interact with the nucleic acid to effect a sandwich hybridization test using nanoparticles. | 01-13-2011 |
20110097808 | Sensor-Dispensing Instruments - A sensor-dispensing instrument is adapted to determine an analyte concentration of a fluid and comprises a body, a cap, a cartridge, a test-sensor receptacle, and a sensor-advancement mechanism. The cap is adapted to move between an open position and a closed position. The cap and body are adapted to correspond with each other to form the closed position. The cartridge contains a plurality of test sensors. The cartridge is located substantially within the cap. The sensor-advancement mechanism is adapted to advance the plurality of test sensors, one at a time, to a position that allows a user to manually remove the test sensor and place the test sensor in the test-sensor receptacle. The sensor-dispensing instrument may also include a lancing device including a lancet. | 04-28-2011 |
Patent application number | Description | Published |
20100249652 | Integrated Analyte Devices and Processes - Devices and processes for the analysis of a body fluid are provided. Embodiments include integrated devices that include two or more analyte testing components. Also provided are processes of analyte testing devices. | 09-30-2010 |
20100270149 | Smart Sensor Ports and Methods of Using Same - The present disclosure provides an orientation-nonspecific sensor port for use in analyte meters designed to detect and quantify analyte levels in a fluid sample along with methods of using the same. The present disclosure also provides compositions and methods for facilitating the correct insertion of a sensor into a corresponding analyte meter. | 10-28-2010 |
20100270150 | Smart Sensor Ports and Methods of Using Same - The present disclosure provides an orientation-nonspecific sensor port for use in analyte meters designed to detect and quantify analyte levels in a fluid sample along with methods of using the same. The present disclosure also provides compositions and methods for facilitating the correct insertion of a sensor into a corresponding analyte meter. | 10-28-2010 |
20100274181 | SMART SENSOR PORTS AND METHODS OF USING SAME - The present disclosure provides an orientation-nonspecific sensor port for use in analyte meters designed to detect and quantify analyte levels in a fluid sample along with methods of using the same. The present disclosure also provides compositions and methods for facilitating the correct insertion of a sensor into a corresponding analyte meter. | 10-28-2010 |
20100274497 | Closed Loop Blood Glucose Control Algorithm Analysis - Methods and devices to generate a tool for testing, simulating and/or modifying a closed loop control algorithm are provided. Embodiments include receiving glucose data for a predetermined time period, determining a variation in the glucose level based on the received glucose data, filtering a received glucose data based on the determined variation, substituting a negative change in the glucose data value with a predetermined value to generate a sequence of modified glucose values, and integrating the sequence of modified glucose values to determine an uncontrolled blood glucose excursion condition. | 10-28-2010 |