Patent application number | Description | Published |
20080215297 | DETECTION SYSTEM AND USER INTERFACE FOR A FLOW CYTOMETER SYSTEM - The detection system of the first preferred embodiment includes a detector, having a wide dynamic range, that receives photonic inputs from the interrogation zone and produces an analog signal; and an analog-to-digital converter (ADC), having a high bit resolution, that is coupled to the detector and converts an analog signal to a digital signal. The digital signal includes an initial data set of the full dynamic range of the input signals from the flow cytometer sample. The method of extracting and analyzing data from a flow cytometer system of the first preferred embodiment preferably includes the steps of: collecting a full dynamic range of input signals from a flow cytometer sample; recognizing and annotating aggregate particle events; and storing an initial data set and an annotated data set of the full dynamic range of the input signals from the flow cytometer sample. | 09-04-2008 |
20080228444 | User interface for a flow cytometer system - The flow cytometer user interface of the preferred embodiment comprises the steps of (1) running the sample and saving all collected data, (2) viewing the raw (or “unmodified”) data, (3) modifying the raw data (e.g., scaling and/or culling the raw data), (4) reviewing and saving the modified settings, and (5) exporting the saved data. Once the sample has been run and all collected data have been saved, the user can repeat the steps of modifying the raw data, saving the modified settings, and exporting the saved data as many times as necessary and/or desirable without the need to run an additional sample. | 09-18-2008 |
20090104075 | User interface for a fluidic system of a flow cytometer - The fluidic system of the preferred embodiment includes a sheath pump to pump sheath fluid from a sheath container into an interrogation zone and a waste pump to pump waste fluid from the interrogation zone into a waste container. The sheath pump and/or the waste pump draw sample fluid from a sample container into the interrogation zone. The fluidic system also includes a controller to adjust the flow rate of the sample fluid from the sample container into the interrogation zone. The fluidic system is preferably incorporated into a flow cytometer with a flow cell that includes the interrogation zone. | 04-23-2009 |
20090174881 | OPTICAL SYSTEM FOR A FLOW CYTOMETER WITH AN INTERROGATION ZONE - The optical system of the preferred embodiments includes a first light source that creates a first beam of a first wavelength, a first collimating element that collimates the first beam, a second light source | 07-09-2009 |
20090201501 | Optical System for a Flow Cytometer - The preferred embodiments of the invention is an optical system for a flow cytometer including a flow channel with an interrogation zone, and an illumination source that impinges the flow channel in the interrogation zone from a particular direction. The optical system preferably includes a lens system and a detection system. The lens system preferably includes multiple lens surfaces arranged around the flow channel and adapted to collect and collimate light from the interrogation zone. The detection system preferably includes multiple detectors adapted to detect light from the lens system. Each detector preferably includes a local filter that independently filters for specific wavelengths. Thus, the user may easily swap the filters in any order to achieve the same detection parameters. | 08-13-2009 |
20090250729 | CAPACITIVE MICROMACHINED ULTRASONIC TRANSDUCER AND MANUFACTURING METHOD - The integrated circuit/transducer device of the preferred embodiment includes a substrate, a complementary-metal-oxide-semiconductor (CMOS) circuit that is fabricated on the substrate, and a capacitive micromachined ultrasonic transducer (cMUT) element that is also fabricated on the substrate. The CMOS circuit and cMUT element are fabricated during the same foundry process and are connected. The cMUT includes a lower electrode, an upper electrode, a membrane structure that support the upper electrode, and a cavity between the upper electrode and lower electrode. | 10-08-2009 |
20090260701 | PULSATION ATTENUATOR FOR A FLUIDIC SYSTEM - A pulsation attenuator for a fluidic system with a fluidic pump. The pulsation attenuator includes a fluidic channel, a first fluidic device adapted to attenuate pulsations, and a second fluidic device adapted to attenuate pulsations. Preferably, the first fluidic device includes a first fluidic resistor and a first fluidic capacitor, and the second fluidic device includes a second fluidic resistor and a second fluidic capacitor. Preferably, the first fluidic resistor and second fluidic resistor are resistive channels. Preferably, the first fluidic capacitor and second fluidic capacitor include a membrane that expands and accumulates fluid and then contracts and reintroduces the accumulated fluid into the fluidic channel. | 10-22-2009 |
20090293910 | FLUIDIC SYSTEM WITH WASHING CAPABILITIES FOR A FLOW CYTOMETER - A method for cleaning a fluidic system of a flow cytometer having a sheath pump to pump sheath fluid towards an interrogation zone and a waste pump to pump the sheath fluid and a sample fluid as waste fluid from the interrogation zone, wherein the sheath pump and/or the waste pump draw sample fluid into the flow cytometer through a drawtube towards the interrogation zone. The method includes controlling the sheath pump and the waste pump to cooperatively flush a fluid out through the drawtube, thereby cleaning the fluidic system of the flow cytometer. | 12-03-2009 |
20100118298 | FLOW CELL FOR A FLOW CYTOMETER SYSTEM - The flow cytometer system of the preferred embodiment includes a flow cell body that functions to contain, protect, and align the components of the flow cytometer system; a flow channel, coupled to the flow cell body, that functions to conduct and focus sample fluid through an interrogation zone; and a sample injection probe, removably coupled to the flow cell body, that functions to provide a uniform flow of sample fluid to the flow channel. The flow cytometer system is preferably designed for the flow cytometer field. The flow cytometer system, however, may be alternatively used in any suitable environment and for any suitable reason. | 05-13-2010 |
20100271620 | Detection system and user interface for a flow cytometer system - The detection system of the first preferred embodiment includes a detector, having a wide dynamic range, that receives photonic inputs from the interrogation zone and produces an analog signal; and an analog-to-digital converter (ADC), having a high bit resolution, that is coupled to the detector and converts an analog signal to a digital signal. The digital signal includes an initial data set of the full dynamic range of the input signals from the flow cytometer sample. The method of extracting and analyzing data from a flow cytometer system of the first preferred embodiment preferably includes the steps of: collecting a full dynamic range of input signals from a flow cytometer sample; recognizing and annotating aggregate particle events; and storing an initial data set and an annotated data set of the full dynamic range of the input signals from the flow cytometer sample. | 10-28-2010 |
20100302536 | DATA COLLECTION SYSTEM AND METHOD FOR A FLOW CYTOMETER - A system for a flow cytometer that collects data for a sample prepared with a plurality of fluorochromes that includes a fixed gain detection system that collects data for a plurality of fluorescence channels, fluorochrome compensation factors for a plurality of fluorochromes types, and a computer system that has an interface that gathers fluorochrome information of the sample and an analysis program that compensates for spectral spillover in the collected data. The fixed gain detection system preferably has a wide dynamic range. A fluorochrome compensation factor preferably remains constant for a fixed gain detection system. The analysis program preferably uses the fluorochrome compensation factors to compensate for spectral spillover. | 12-02-2010 |
20100319469 | DETECTION AND FLUIDIC SYSTEM OF A FLOW CYTOMETER - The fluidic system including a sheath pump that pumps sheath fluid from a sheath container into an interrogation zone, a waste pump that pumps waste fluid from the interrogation zone to a waste container, in which the flow rate of the sheath fluid is different from the flow rate of the waste fluid thereby drawing a sample fluid from a sample container into the interrogation zone, a detection system that provides a data set of input signals from the sample fluid, an analysis engine that recognizes aggregate particle events in the data set, and a controller that automatically adjusts the flow rate of the sample fluid into the interrogation zone based on the recognition of aggregate particle events, by controlling at least one of the flow rates of the sheath fluid and the waste fluid. | 12-23-2010 |
20100319786 | FLOW CYTOMETER SYSTEM WITH UNCLOGGING FEATURE - The fluidic system with an unclogging feature of the preferred embodiment includes a flow channel, a sheath pump to pump sheath fluid from a sheath container into an interrogation zone, and a waste pump to pump waste fluid from the interrogation zone into a waste container. The sheath pump and/or the waste pump draw sample fluid from a sample container into the interrogation zone. The fluidic system also includes a controller to adjust the flow rate of the sample fluid from the sample container into the interrogation zone. The pump and controller cooperate to propagate a pulsation through the flow channel from the pump if the flow channel is clogged. The fluidic system is preferably incorporated into a flow cytometer with a flow cell that includes the interrogation zone. | 12-23-2010 |
20110008816 | SYSTEM AND METHOD OF VERIFICATION OF A PREPARED SAMPLE FOR A FLOW CYTOMETER - A system and method for a flow cytometer system including a prepared sample fluid with reference beads; an interrogation zone that analyzes the prepared sample fluid; a peristaltic pump system that draws the sample fluid through the interrogation zone; and a processor that monitors a measured volume of sample fluid sampled by the peristaltic pump system and an expected sample volume based on data generated by the analysis of the sample fluid. A system and method is additionally described using an alternative volume sensing fluidic system. | 01-13-2011 |
20110058163 | Optical system for a flow cytometer with an interrogation zone - The optical system of the preferred embodiments includes a first light source that creates a first beam of a first wavelength, a first collimating element that collimates the first beam, a second light source | 03-10-2011 |
20110058168 | Optical system for a flow cytometer - An optical system for a flow cytometer having a flow channel with an interrogation zone and an illumination source that impinges the flow channel in the interrogation zone includes a lens system and a detection system. The lens system preferably includes at least two lens surfaces located on opposite sides of the flow channel and configured to collect and collimate light from the interrogation zone. The detection system, configured to detect light from the lens system, preferably includes first and second detectors, a first filter that passes a first wavelength of light and reflects a second wavelength of light, and a second filter that reflects the first wavelength of light and passes the second wavelength of light, wherein the first and second filters are aligned such that light reflected from the first filter passes into the second detector and light reflected from the second filter passes into the first detector. | 03-10-2011 |
20110061471 | System and method of verification of a sample for a flow cytometer - A system and method for a flow cytometer system including a sheath pump that pumps sheath fluid from a sheath container into an interrogation zone, a waste pump that pumps waste fluid from the interrogation zone into a waste container, wherein the sheath pump and waste pump cooperatively and simultaneously draw sample fluid from a sample container into the interrogation zone, a controller that adjusts the flow rate of the sample fluid from the sample container into the interrogation zone, and a sensor system that coordinates with the controller to measure the amount of sample fluid in the sample container when the controller substantially pauses the sample fluid flow from the sample container into the interrogation zone. The system may further include a processor that monitors a measured volume of sample fluid introduced into the flow cytometer and an expected sample volume. | 03-17-2011 |
20110151608 | CAPACITIVE MICROMACHINED ULTRASONIC TRANSDUCER AND MANUFACTURING METHOD - The integrated circuit/transducer device of the preferred embodiment includes a substrate, a complementary-metal-oxide-semiconductor (CMOS) circuit that is fabricated on the substrate, and a capacitive micromachined ultrasonic transducer (cMUT) element that is also fabricated on the substrate. The CMOS circuit and cMUT element are fabricated during the same foundry process and are connected. The cMUT includes a lower electrode, an upper electrode, a membrane structure that support the upper electrode, and a cavity between the upper electrode and lower electrode. | 06-23-2011 |
20110204259 | METHOD AND SYSTEM FOR DETECTING FLUOROCHROMES IN A FLOW CYTOMETER - A method for detecting fluorochromes in a flow cytometer, including: receiving a sample including particles each tagged with at least one of a first fluorochrome and a second fluorochrome, in which the first and second fluorochromes having distinct spillover coefficients; detecting the particles, including detecting the first and second fluorochromes with a first detector and a second detector; forming a data set for detected particles based on the detection of the first and second fluorochromes; characterizing a detected spillover coefficient for each detected fluorochrome from the data set; and sorting the detected particles into predicted fluorochrome populations based on the detected spillover coefficients. A system for detecting fluorochromes in a flow cytometer, including a flow cell, a fixed gain detection system, and a processor that generates a detected spillover coefficient for each detected particle and sorts the detected particle into predicted fluorochrome populations based on the detected spillover coefficient. | 08-25-2011 |
20110306031 | FLUIDIC SYSTEM FOR A FLOW CYTOMETER - The fluidic system of the preferred embodiment includes a sheath pump to pump sheath fluid from a sheath container into an interrogation zone and a waste pump to pump waste fluid from the interrogation zone into a waste container. The sheath pump and/or the waste pump draw sample fluid from a sample container into the interrogation zone. The fluidic system also includes a controller to adjust the flow rate of the sample fluid from the sample container into the interrogation zone. The fluidic system is preferably incorporated into a flow cytometer with a flow cell that includes the interrogation zone. | 12-15-2011 |
20120004859 | USER INTERFACE FOR A FLOW CYTOMETER SYSTEM - A method of extracting and analyzing a data set from a flow cytometer system of the preferred embodiment comprises the steps of (1) running a sample and saving all collected raw data, (2) viewing raw (or “unmodified”) data, (3) modifying the raw data (e.g., scaling and/or culling the raw data), (4) reviewing and saving the modified data, and (5) exporting the saved data. Once the sample has been run and all collected data have been saved, the user can repeat the steps of modifying the raw data, saving the modified data, and exporting the saved data as many times as necessary and/or desirable. | 01-05-2012 |
20130080082 | SYSTEM AND METHOD FOR CREATING A FLOW CYTOMETER NETWORK - A system for creating a flow cytometer network includes: a flow cytometer with an interrogation zone and a fixed gain detection system that collects sample data from the interrogation zone; a flow cytometer data center that stores and manages sample- related data from the flow cytometer; and a network communication module that communicates sample-related data between the flow cytometer and the data center. The system may include a second flow cytometer and a second network communication module, where the first and second flow cytometers are calibrated to have substantially identical fixed gain settings. A method for creating a flow cytometer network includes: calibrating first and second flow cytometers with a calibration solution; collecting sample data with a fixed gain detection system; uploading data to a flow cytometer data center; retrieving data from the data center; and performing data analysis on the retrieved data. | 03-28-2013 |
20130091937 | DETECTION AND FLUIDIC SYSTEM OF A FLOW CYTOMETER - The fluidic system including a sheath pump that pumps sheath fluid from a sheath container into an interrogation zone, a waste pump that pumps waste fluid from the interrogation zone to a waste container, in which the flow rate of the sheath fluid is different from the flow rate of the waste fluid thereby drawing a sample fluid from a sample container into the interrogation zone, a detection system that provides a data set of input signals from the sample fluid, an analysis engine that recognizes aggregate particle events in the data set, and a controller that automatically adjusts the flow rate of the sample fluid into the interrogation zone based on the recognition of aggregate particle events, by controlling at least one of the flow rates of the sheath fluid and the waste fluid. | 04-18-2013 |
20130096433 | System and Method for Unattended Monitoring of Blood Flow - A system and method for unattended monitoring of blood flow using an array of transmitter elements configured to transmit acoustic signals along a transmission direction; an array of receiver elements configured to receive acoustic signals originating from the array of transmitter elements, wherein the array of transmitter elements is arranged approximately orthogonal to the array of receiver elements and wherein each receiver element is configured to provide an output signal; an electronics system comprising a transmitter control subsystem configured to adjust the transmission direction, a receiver control subsystem configured to selectively activate and deactivate receiver elements, thus defining an acoustic aperture, an analog adder circuit, and signal processing circuitry; a fastener to position the elements on a patient; and a processor in communication with the electronics system and configured to enable self-alignment of transmitted acoustic signals based on received acoustic signals and determine a blood flow parameter. | 04-18-2013 |
20130258814 | Ultrasound System and Method of Manufacture - An ultrasound system and a method of manufacturing an ultrasound system comprising a base comprising a bore; a prismatic segment, coupled to the base, that defines a set of surfaces surrounding the bore; a set of ultrasound transducer panels configured to emit ultrasound signals in a radial direction, each ultrasound transducer panel in the set of ultrasound transducer panels coupled to at least one surface of the set of surfaces, and an interconnect coupling a first ultrasound transducer panel in the set of ultrasound transducer panels to a second ultrasound transducer panel in the set of ultrasound transducer panels, wherein the interconnect facilitates coupling of the first ultrasound transducer panel and the second ultrasound transducer panel to the prismatic segment. | 10-03-2013 |
20130273641 | SYSTEM AND METHOD OF VERIFICATION OF A PREPARED SAMPLE FOR A FLOW CYTOMETER - A system and method for a flow cytometer system including a prepared sample fluid with reference beads; an interrogation zone that analyzes the prepared sample fluid; a peristaltic pump system that draws the sample fluid through the interrogation zone; and a processor that monitors a measured volume of sample fluid sampled by the peristaltic pump system and an expected sample volume based on data generated by the analysis of the sample fluid. A system and method is additionally described using an alternative volume sensing fluidic system. | 10-17-2013 |