Patent application number | Description | Published |
20080220465 | Antibiotic Sensitivity Testing Method - The method includes several steps including obtaining a bacterial sample; identifying the type of bacteria in the bacterial sample; selecting a set of antibiotics based on the identity of the bacteria in the bacterial sample; obtaining a control sample from the bacterial sample; placing the bacterial sample in solutions containing the set of antibiotics; determining concentration of bacteria in the respective antibiotic solutions; determining growth curves for the respective antibiotic solutions based on the determined bacterial concentration; and comparing the growth curves for the respective antibiotic solutions with a growth curve determined from the control sample. An identification and quantification system may be used to select the set of antibiotics, and further may be used in the steps of determining concentration of bacteria in the respective antibiotic solutions and determining growth curves for the respective antibiotic solutions based on the determined bacterial concentration. | 09-11-2008 |
20100200728 | OPTICAL MEASUREMENT ARRANGEMENT - A method and device for enhancing the power correction of optical measurements in an optical measurement arrangement, the steps including: providing a light source for producing a light beam; splitting the light beam into two beams; directing a first split light beam through an interrogation area and into an optics separation device; directing the light beams from the optics separation device and a second split light beam representing the intensity of the illumination of the main light beam of the light source into cells of a detector array; measuring and assessing the information obtained in the cells; and using this information to calculate the corrected value for the cells receiving the light beams from the optics separation device in order to adjust the power for the intensity of the light beam of the light source and/or to correct the intensity of the light beams from the interrogation area. | 08-12-2010 |
20110008825 | System for Conducting the Identification of Bacteria in Urine - A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples. | 01-13-2011 |
20110042582 | System for Conducting the Identification of Bacteria in Biological Samples - The present invention relates to a system for conducting the identification and quantification of micro-organisms, e.g., bacteria in biological samples. More particularly, the invention relates to a system comprising a disposable cartridge and an optical cup or cuvette having a tapered surface; an optics system including an optical reader and a thermal controller; an optical analyzer; a cooling system; and an improved spectrometer. The system may utilize the disposable cartridge in the sample processor and the optical cup or cuvette in the optical analyzer. | 02-24-2011 |
20110093207 | System for Conducting the Identification of Bacteria in Biological Samples - The present invention relates to a system for conducting the identification and quantification of micro-organisms, e.g., bacteria in biological samples. More particularly, the invention relates to a system comprising a cooling, heating and fan arrangement for maintaining a predetermined optimum temperature of the samples during testing; a visual, circumferential and axial alignment system for aligning the samples within the carousel; a transfer system for transferring the samples from the carousel to the centrifuge; a balancing system of minimizing the rotational vibrations of the centrifuge; a safety system and anti-tipping design for the sample containing system; liquid dispensing arms for dispensing the buffered saline solution; and discharge ports for discharging and disposing of the liquid removed from the samples to a location external of the system. | 04-21-2011 |
20120105837 | Optical Cup - The present invention relates to a system for conducting the identification and quantification of micro-organisms, e.g., bacteria in biological samples. More particularly, the invention relates to a system comprising a disposable cartridge and an optical cup or cuvette having a tapered surface; wherein the walls are angled to allow for better coating and better striations of the light, an optics system including an optical reader and a thermal controller; an optical analyzer; a cooling system; and an improved spectrometer. The system may utilize the disposable cartridge in the sample processor and the optical cup or cuvette in the optical analyzer. | 05-03-2012 |
20120196271 | Iris Control System for Conducting the Identification of Bacteria in Biological Samples - A system and a method for optimizing an iris setting, used in combination with a lamp, for each excitation wavelength for each carousel run in an apparatus for identifying and measuring bacteria in biological samples. The system includes a feedback control loop positioned between a filter wheel and an optical cup for measuring the intensity level of the excitation wavelength, and feeding this information to an iris having an iris setting control device such that the iris setting may be adjusted based upon the measured intensity level to control and optimize the level of light fed to the filter wheel from the lamp. The iris setting can be adjusted so that the level of light fed to the filter wheel remains constant during the lifetime of the lamp and to ensure that the level of light fed to the sample remains below the level at which photo-bleaching occurs. | 08-02-2012 |
20140170691 | System for Conducting the Identification of Bacteria in Biological Samples - The present invention relates to a system for conducting the identification and quantification of micro-organisms, e.g., bacteria in biological samples. More particularly, the invention relates to a system comprising a disposable cartridge and an optical cup or cuvette having a tapered surface; an optics system including an optical reader and a thermal controller; an optical analyzer; a cooling system; and an improved spectrometer. The system may utilize the disposable cartridge in the sample processor and the optical cup or cuvette in the optical analyzer. | 06-19-2014 |
20140170740 | Optics Cup With Curved Bottom - The present invention relates to a system for conducting the identification and quantification of micro-organisms, e.g., bacteria, in biological samples. More particularly, the invention relates to a system comprising a disposable cartridge and an optics cup or cuvette having a tapered surface; wherein the walls are angled to allow for better coating and better striations of the light. The system may utilize the disposable cartridge in the sample processor and the optics cup or cuvette in the optical analyzer, wherein the optics cup also has a floor in the shape of an inverted arch. | 06-19-2014 |
20140246389 | Filter Arrangement and Method for Using the Same - A filter arrangement with a top element and a bottom element and a filter element therebetween captures oversized particles on the upper surface of the filter element and tangentially rinses these particles using an elution fluid to provide a concentration of particles in a relatively low volume of fluid for further analysis. In an intermediate step, the particles captured by the filter may be rinsed with a rinsing fluid such as water to pass additional undersized particles through the filter, thereby providing a purer sample. To improve efficiency, check valves may be used for passageways with one-way flow. Additionally, a configuration of three-way stopcocks may also be utilized. Finally, a sandwich arrangement is possible, wherein a single bottom element is sandwiched between two opposing top elements. | 09-04-2014 |
20150029501 | Optical Cup - The present invention relates to a system for conducting the identification and quantification of micro-organisms, e.g., bacteria in biological samples. More particularly, the invention relates to a system comprising a disposable cartridge and an optical cup or cuvette having a tapered surface; wherein the walls are angled to allow for better coating and better striations of the light, an optics system including an optical reader and a thermal controller; an optical analyzer; a cooling system; and an improved spectrometer. The system may utilize the disposable cartridge in the sample processor and the optical cup or cuvette in the optical analyzer. | 01-29-2015 |